ClinVar Genomic variation as it relates to human health
NM_000492.3(CFTR):c.1521_1523del (p.Phe508del)
No data submitted for somatic clinical impact
No data submitted for oncogenicity
Variant Details
- Identifiers
-
NM_000492.3(CFTR):c.1521_1523del (p.Phe508del)
Variation ID: 7105 Accession: VCV000007105.173
- Type and length
-
Deletion, 3 bp
- Location
-
Cytogenetic: 7q31.2 7: 117559591-117559593 (GRCh38) [ NCBI UCSC ] 7: 117199645-117199647 (GRCh37) [ NCBI UCSC ]
- Timeline in ClinVar
-
First in ClinVar Help The date this variant first appeared in ClinVar with each type of classification.
Last submission Help The date of the most recent submission for each type of classification for this variant.
Last evaluated Help The most recent date that a submitter evaluated this variant for each type of classification.
Germline Oct 22, 2013 Dec 7, 2024 Mar 3, 2004 - HGVS
-
Nucleotide Protein Molecular
consequenceNM_000492.4:c.1520_1522del MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NM_000492.4:c.1520_1522delTCT MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NM_000492.4:c.1521_1523del MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NP_000483.3:p.Phe508del inframe deletion NM_000492.4:c.1521_1523delCTT MANE Select Help Transcripts from the Matched Annotation from the NCBI and EMBL-EBI (MANE) collaboration.
NM_000492.3:c.1520_1522del NM_000492.3:c.1520_1522delTCT NM_000492.3:c.1521_1523delCTT NC_000007.14:g.117559592_117559594del NC_000007.13:g.117199646_117199648del NG_016465.4:g.98809_98811del LRG_663:g.98809_98811del LRG_663t1:c.1521_1523del LRG_663p1:p.Phe508del - Protein change
- -
- Other names
-
F508del
deltaF508
F508delF
DF508
Phe508del
DeltaF508
[delta]F508
- Canonical SPDI
- NC_000007.14:117559590:TCTT:T
-
Functional
consequence HelpThe effect of the variant on RNA or protein function, based on experimental evidence from submitters.
-
loss_of_function_variant; Sequence Ontology [ SO:0002054]
-
Global minor allele
frequency (GMAF) HelpThe global minor allele frequency calculated by the 1000 Genomes Project. The minor allele at this location is indicated in parentheses and may be different from the allele represented by this VCV record.
-
0.00399 (T)
-
Allele frequency
Help
The frequency of the allele represented by this VCV record.
- -
- Links
-
PharmGKB Clinical Annotation: 981755820 ClinGen: CA118639 Genetic Testing Registry (GTR): GTR000028916 Genetic Testing Registry (GTR): GTR000074114 Genetic Testing Registry (GTR): GTR000257096 Genetic Testing Registry (GTR): GTR000500233 Genetic Testing Registry (GTR): GTR000562170 Genetic Testing Registry (GTR): GTR000576392 Genetic Testing Registry (GTR): GTR000597400 OMIM: 602421.0001 dbSNP: rs113993960 VarSome
Genes
Gene | OMIM | ClinGen Gene Dosage Sensitivity Curation |
Variation Viewer
Help
Links to Variation Viewer, a genome browser to view variation data from NCBI databases. |
Related variants | ||
---|---|---|---|---|---|---|
HI score
Help
The haploinsufficiency score for the gene, curated by ClinGen’s Dosage Sensitivity Curation task team. |
TS score
Help
The triplosensitivity score for the gene, curated by ClinGen’s Dosage Sensitivity Curation task team. |
Within gene
Help
The number of variants in ClinVar that are contained within this gene, with a link to view the list of variants. |
All
Help
The number of variants in ClinVar for this gene, including smaller variants within the gene and larger CNVs that overlap or fully contain the gene. |
|||
CFTR | - | - |
GRCh38 GRCh37 |
3840 | 5222 | |
CFTR-AS1 | - | - | - | GRCh38 | - | 514 |
Conditions - Germline
Condition
Help
The condition for this variant-condition (RCV) record in ClinVar. |
Classification
Help
The aggregate germline classification for this variant-condition (RCV) record in ClinVar. The number of submissions that contribute to this aggregate classification is shown in parentheses. (# of submissions) |
Review status
Help
The aggregate review status for this variant-condition (RCV) record in ClinVar. This value is calculated by NCBI based on data from submitters. Read our rules for calculating the review status. |
Last evaluated
Help
The most recent date that a submitter evaluated this variant for the condition. |
Variation/condition record
Help
The RCV accession number, with most recent version number, for the variant-condition record, with a link to the RCV web page. |
---|---|---|---|---|
drug response (1) |
reviewed by expert panel
|
Mar 24, 2021 | RCV001787370.10 | |
Pathogenic (1) |
criteria provided, single submitter
|
- | RCV003227599.8 | |
Pathogenic (46) |
practice guideline
|
Mar 3, 2004 | RCV000007523.93 | |
risk factor (1) |
no assertion criteria provided
|
May 17, 2015 | RCV000007524.19 | |
Pathogenic (20) |
criteria provided, multiple submitters, no conflicts
|
Aug 1, 2024 | RCV000058929.82 | |
Likely pathogenic (1) |
criteria provided, single submitter
|
Jan 1, 2017 | RCV000626692.10 | |
Pathogenic (1) |
criteria provided, single submitter
|
Jan 1, 2017 | RCV000626693.10 | |
Pathogenic (3) |
no assertion criteria provided
|
Sep 26, 2024 | RCV001831519.15 | |
See cases
|
Pathogenic (1) |
criteria provided, single submitter
|
May 3, 2019 | RCV002251888.9 |
Pathogenic (5) |
criteria provided, multiple submitters, no conflicts
|
Mar 1, 2023 | RCV000119038.21 | |
Pathogenic (2) |
criteria provided, multiple submitters, no conflicts
|
- | RCV001004459.12 | |
ivacaftor / tezacaftor response - Efficacy
|
drug response (1) |
reviewed by expert panel
|
Mar 24, 2021 | RCV001787371.10 |
Pathogenic (2) |
criteria provided, multiple submitters, no conflicts
|
Nov 7, 2023 | RCV002490332.9 | |
Pathogenic (1) |
criteria provided, single submitter
|
Aug 23, 2021 | RCV001642198.10 | |
Pathogenic (1) |
criteria provided, single submitter
|
Feb 1, 2022 | RCV002243627.9 | |
Pathogenic (3) |
criteria provided, multiple submitters, no conflicts
|
Mar 30, 2024 | RCV003444054.4 | |
click to load more click to collapse |
Submissions - Germline
Classification
Help
The submitted germline classification for each SCV record. (Last evaluated) |
Review status
Help
Stars represent the review status, or the level of review supporting the submitted (SCV) record. This value is calculated by NCBI based on data from the submitter. Read our rules for calculating the review status. This column also includes a link to the submitter’s assertion criteria if provided, and the collection method. (Assertion criteria) |
Condition
Help
The condition for the classification, provided by the submitter for this submitted (SCV) record. This column also includes the affected status and allele origin of individuals observed with this variant. |
Submitter
Help
The submitting organization for this submitted (SCV) record. This column also includes the SCV accession and version number, the date this SCV first appeared in ClinVar, and the date that this SCV was last updated in ClinVar. |
More information
Help
This column includes more information supporting the classification, including citations, the comment on classification, and detailed evidence provided as observations of the variant by the submitter. |
|
---|---|---|---|---|---|
pathogenic
(Mar 03, 2004)
|
practice guideline
Method: curation
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: unknown
Allele origin:
germline
|
American College of Medical Genetics and Genomics (ACMG)
Study: The ACMG recommended carrier screening panel
Accession: SCV000071392.2 First in ClinVar: Jun 04, 2013 Last updated: May 31, 2015 |
Comment:
Converted during submission to Pathogenic.
|
|
Pathogenic
(Mar 17, 2017)
|
reviewed by expert panel
Method: research
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
CFTR2
Study: CFTR2
Accession: SCV000071493.4 First in ClinVar: Oct 18, 2013 Last updated: Dec 26, 2017 |
|
|
drug response
Drug-variant association: Efficacy
(Mar 24, 2021)
|
reviewed by expert panel
Method: curation
|
ivacaftor / lumacaftor response - Efficacy
Drug used for
Cystic Fibrosis
Affected status: yes
Allele origin:
germline
|
PharmGKB
Accession: SCV002031250.1
First in ClinVar: Dec 12, 2021 Last updated: Dec 12, 2021
Comment:
Drug is not necessarily used to treat response condition
|
Comment:
PharmGKB Level of Evidence 1A: Level 1A clinical annotations describe variant-drug combinations that have variant-specific prescribing guidance available in a current clinical guideline annotation or … (more)
PharmGKB Level of Evidence 1A: Level 1A clinical annotations describe variant-drug combinations that have variant-specific prescribing guidance available in a current clinical guideline annotation or an FDA-approved drug label annotation. Annotations of drug labels or clinical guidelines must give prescribing guidance for specific variants (e.g. CYP2C9*3, HLA-B*57:01) or provide mapping from defined allele functions to diplotypes and phenotypes to be used as supporting evidence for a level 1A clinical annotation. Level 1A clinical annotations must also be supported by at least one publication in addition to a clinical guideline or drug label with variant-specific prescribing guidance. (less)
|
|
drug response
Drug-variant association: Efficacy
(Mar 24, 2021)
|
reviewed by expert panel
Method: curation
|
ivacaftor / tezacaftor response - Efficacy
Drug used for
Cystic Fibrosis
Affected status: yes
Allele origin:
germline
|
PharmGKB
Accession: SCV002031251.1
First in ClinVar: Dec 12, 2021 Last updated: Dec 12, 2021
Comment:
Drug is not necessarily used to treat response condition
|
Comment:
PharmGKB Level of Evidence 1A: Level 1A clinical annotations describe variant-drug combinations that have variant-specific prescribing guidance available in a current clinical guideline annotation or … (more)
PharmGKB Level of Evidence 1A: Level 1A clinical annotations describe variant-drug combinations that have variant-specific prescribing guidance available in a current clinical guideline annotation or an FDA-approved drug label annotation. Annotations of drug labels or clinical guidelines must give prescribing guidance for specific variants (e.g. CYP2C9*3, HLA-B*57:01) or provide mapping from defined allele functions to diplotypes and phenotypes to be used as supporting evidence for a level 1A clinical annotation. Level 1A clinical annotations must also be supported by at least one publication in addition to a clinical guideline or drug label with variant-specific prescribing guidance. (less)
|
|
Pathogenic
(Mar 30, 2016)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: no
Allele origin:
germline
|
Knight Diagnostic Laboratories, Oregon Health and Sciences University
Study: CSER-NextGen
Accession: SCV000538017.1 First in ClinVar: Apr 03, 2017 Last updated: Apr 03, 2017 |
Comment:
The c.1521_1523delCTT (p.Phe508del), also known as ΔF508, is an in-frame deletion in the CFTR gene. This variant is the most common CF-causing mutation, accounting for … (more)
The c.1521_1523delCTT (p.Phe508del), also known as ΔF508, is an in-frame deletion in the CFTR gene. This variant is the most common CF-causing mutation, accounting for an estimated 72% of mutant alleles in people of European ancestry (Watson et al., 2004). This p.Phe508del variant is classified as a class II mutation that blocks the processing of the CFTR protein (Welsh et al., 2001). This variant has been reported at low frequencies (1.0%) in 1000 Genomes and ExAc population databases, but has not been reported in the Exome Sequencing Project database (ESP). The CFTR2 database has 32,833 patients that have this mutation, which they classify as CF-causing (http://www.cftr2.org/mutation.php?view=general&mutation_id=1). Therefore, this collective evidence supports the classification of the c.1521_1523delCTT (p.Phe508del) as a recessive pathogenic variant for Cystic fibrosis. (less)
|
|
Pathogenic
(Oct 21, 2013)
|
criteria provided, single submitter
Method: research
|
Cystic fibrosis
Affected status: unknown
Allele origin:
unknown,
paternal,
maternal
|
HudsonAlpha Institute for Biotechnology, HudsonAlpha Institute for Biotechnology
Study: CSER-HudsonAlpha
Accession: SCV000584079.1 First in ClinVar: Apr 03, 2017 Last updated: Apr 03, 2017 |
Observation 1:
Number of individuals with the variant: 1
Observation 2:
Number of individuals with the variant: 1
Observation 3:
Number of individuals with the variant: 1
Observation 4:
Number of individuals with the variant: 1
Observation 5:
Number of individuals with the variant: 1
Observation 6:
Number of individuals with the variant: 1
Observation 7:
Number of individuals with the variant: 1
Observation 8:
Number of individuals with the variant: 1
Observation 9:
Number of individuals with the variant: 1
Observation 10:
Number of individuals with the variant: 1
Observation 11:
Number of individuals with the variant: 1
Observation 12:
Number of individuals with the variant: 1
Observation 13:
Number of individuals with the variant: 1
Observation 14:
Number of individuals with the variant: 1
Observation 15:
Number of individuals with the variant: 1
Observation 16:
Number of individuals with the variant: 1
Observation 17:
Number of individuals with the variant: 1
Observation 18:
Number of individuals with the variant: 1
Observation 19:
Number of individuals with the variant: 1
Observation 20:
Number of individuals with the variant: 1
Observation 21:
Number of individuals with the variant: 1
Observation 22:
Number of individuals with the variant: 1
Observation 23:
Number of individuals with the variant: 1
Observation 24:
Number of individuals with the variant: 1
Observation 25:
Number of individuals with the variant: 1
Observation 26:
Number of individuals with the variant: 1
Observation 27:
Number of individuals with the variant: 1
Observation 28:
Number of individuals with the variant: 1
Observation 29:
Number of individuals with the variant: 1
Observation 30:
Number of individuals with the variant: 1
Observation 31:
Number of individuals with the variant: 1
Observation 32:
Number of individuals with the variant: 1
Observation 33:
Number of individuals with the variant: 1
Observation 34:
Number of individuals with the variant: 1
Observation 35:
Number of individuals with the variant: 1
|
|
Pathogenic
(Aug 26, 2016)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Genetic Services Laboratory, University of Chicago
Accession: SCV000594089.1
First in ClinVar: Apr 03, 2017 Last updated: Apr 03, 2017 |
|
|
Likely pathogenic
(Jan 01, 2017)
|
criteria provided, single submitter
Method: clinical testing
|
Duodenal stenosis
Affected status: yes
Allele origin:
unknown
|
Centre for Mendelian Genomics, University Medical Centre Ljubljana
Accession: SCV000747395.1
First in ClinVar: May 12, 2018 Last updated: May 12, 2018 |
|
|
Pathogenic
(Jan 01, 2017)
|
criteria provided, single submitter
Method: clinical testing
|
Recurrent pancreatitis
Affected status: yes
Allele origin:
unknown
|
Centre for Mendelian Genomics, University Medical Centre Ljubljana
Accession: SCV000747396.1
First in ClinVar: May 12, 2018 Last updated: May 12, 2018 |
|
|
Pathogenic
(Jan 15, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: unknown
Allele origin:
germline
|
Johns Hopkins Genomics, Johns Hopkins University
Accession: SCV000864219.1
First in ClinVar: Jan 22, 2019 Last updated: Jan 22, 2019 |
|
|
Pathogenic
(Dec 12, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
Not provided
Affected status: unknown
Allele origin:
germline
|
Blueprint Genetics
Accession: SCV000928113.1
First in ClinVar: Jul 31, 2019 Last updated: Jul 31, 2019
Comment:
Patient analyzed with Primary Immunodeficiency Panel
|
|
|
Pathogenic
(Jan 03, 2017)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
Eurofins Ntd Llc (ga)
Accession: SCV000330918.4
First in ClinVar: Dec 06, 2016 Last updated: Jul 31, 2019 |
Number of individuals with the variant: 210
Zygosity: Homozygote, Single Heterozygote
Sex: mixed
|
|
Pathogenic
(Jan 29, 2018)
|
criteria provided, single submitter
Method: curation
|
cystic fibrosis
Affected status: yes
Allele origin:
germline
|
CFTR-France
Accession: SCV001169465.1
First in ClinVar: Mar 16, 2020 Last updated: Mar 16, 2020 |
|
|
Pathogenic
(Oct 18, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Foundation for Research in Genetics and Endocrinology, FRIGE's Institute of Human Genetics
Accession: SCV001161676.1
First in ClinVar: Mar 16, 2020 Last updated: Mar 16, 2020 |
Comment:
A homozygous 3 base pair deletion in exon 11 of the CFTR gene that results in the in-frame deletion of Phenylalanine was detected. The observed … (more)
A homozygous 3 base pair deletion in exon 11 of the CFTR gene that results in the in-frame deletion of Phenylalanine was detected. The observed variant c.1521_1523del (p.Phe508del) has a minor allele frequency of 0.4% and 0.68% in the 1000 Genomes and ExAC databases respectively. The observed variation has previously been identified in patients affected with cystic fibrosis and it lies in the ABC transporter domain of the CFTR protein (Riordan et al 1989). The in silico prediction of the variant is damaging by MutationTaster2. The reference codon is conserved across mammals. In summary, the variant meets our criteria to be classified as pathogenic. (less)
Clinical Features:
Pallor (present) , Ascites (present)
Zygosity: Homozygote
Age: 0-9 years
Sex: female
Ethnicity/Population group: Indian Hindu
Geographic origin: India
Method: DNA was used to perform targeted gene capture using a custom capture kit. Libraries were sequenced to mean >80-100X coverage on Illumina sequencing platform. Sequence obtained were aligned to human references genome using BWA program and analyzed using Picard and GATK-Lite toolkit to identify variants in the targeted genes relevant to clinical indication.
|
|
Pathogenic
(Sep 03, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
maternal
|
Victorian Clinical Genetics Services, Murdoch Childrens Research Institute
Accession: SCV001244997.1
First in ClinVar: May 04, 2020 Last updated: May 04, 2020 |
Comment:
A heterozygous inframe deletion variant, NM_000492.3(CFTR):c.1521_1523del, has been identified in exon 11 of 27 in the CFTR gene. The variant is predicted to result in … (more)
A heterozygous inframe deletion variant, NM_000492.3(CFTR):c.1521_1523del, has been identified in exon 11 of 27 in the CFTR gene. The variant is predicted to result in an inframe deletion of a single amino acid at position 508 of the protein, NP_000483.3(CFTR):p.(Phe508del). The phenylalanine at this position has very high conservation (UCSC, 100 vertebrates), and is located in the ABC transporter 1 functional domain. This variant is present in the gnomAD database at a frequency of 0.7% (2027 heterozygotes, 1 homozygote), and has been previously reported multiple times in individuals with cystic fibrosis, being the most common causative variant in the CFTR gene (ClinVar; Egan, ME. et al. (2016)). Analysis of parental samples indicated this variant was maternally inherited. Based on information available at the time of curation, this variant has been classified as PATHOGENIC. (less)
Number of individuals with the variant: 2
Clinical Features:
Esophageal atresia (present) , Tracheoesophageal fistula (present) , Choanal atresia (present) , Hypocalcemia (present) , Clinodactyly (present) , Short palpebral fissure (present)
Family history: yes
Secondary finding: yes
|
|
Pathogenic
(Oct 18, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
unknown
|
Myriad Genetics, Inc.
Accession: SCV001193905.2
First in ClinVar: Mar 25, 2020 Last updated: Jul 06, 2020 |
Comment:
NM_000492.3(CFTR):c.1521_1523delCTT(aka F508del) is classified as pathogenic in the context of cystic fibrosis and is associated with the classic form of disease. Sources cited for classification … (more)
NM_000492.3(CFTR):c.1521_1523delCTT(aka F508del) is classified as pathogenic in the context of cystic fibrosis and is associated with the classic form of disease. Sources cited for classification include the following: PMID 23974870 and 15371902. Classification of NM_000492.3(CFTR):c.1521_1523delCTT(aka F508del) is based on the following criteria: This is a well-established pathogenic variant in the literature that has been observed more frequently in patients with clinical diagnoses than in healthy populations. Please note: this variant was assessed in the context of healthy population screening. (less)
|
|
Pathogenic
(Jul 29, 2014)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Clinical Genetics and Genomics, Karolinska University Hospital
Accession: SCV001450105.1
First in ClinVar: Dec 12, 2020 Last updated: Dec 12, 2020 |
Number of individuals with the variant: 27
|
|
Pathogenic
(Oct 22, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary pancreatitis
Affected status: yes
Allele origin:
unknown
|
Centre for Mendelian Genomics, University Medical Centre Ljubljana
Accession: SCV001368335.2
First in ClinVar: Jul 06, 2020 Last updated: Dec 12, 2020 |
Comment:
This variant was classified as: Pathogenic. The following ACMG criteria were applied in classifying this variant: PS1,PM1,PM3,PM4.
|
|
Pathogenic
(Aug 23, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
Obstructive azoospermia
Affected status: yes
Allele origin:
germline
|
Institute of Reproductive Genetics, University of Münster
Accession: SCV001860325.1
First in ClinVar: Sep 19, 2021 Last updated: Sep 19, 2021 |
Number of individuals with the variant: 10
|
|
Pathogenic
(Feb 01, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary pancreatitis
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Laboratorio de Genetica e Diagnostico Molecular, Hospital Israelita Albert Einstein
Accession: SCV002512246.1
First in ClinVar: May 21, 2022 Last updated: May 21, 2022 |
Comment:
ACMG classification criteria: PS3 supporting, PS4 strong, PM3 very strong, PM3 strong, PM4 moderate, PP3 supporting
Geographic origin: Brazil
|
|
Pathogenic
(May 03, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
See cases
Affected status: yes
Allele origin:
germline
|
Laboratorio de Genetica e Diagnostico Molecular, Hospital Israelita Albert Einstein
Accession: SCV002523540.1
First in ClinVar: Jun 11, 2022 Last updated: Jun 11, 2022 |
Comment:
ACMG classification criteria: PS3, PM2, PM4, PP1, PP4, PP5
Clinical Features:
Abnormality of blood and blood-forming tissues (present) , Hepatosplenomegaly (present) , Fever (present)
Geographic origin: Brazil
|
|
Pathogenic
(May 12, 2021)
|
criteria provided, single submitter
Method: curation
|
Hereditary pancreatitis
Affected status: unknown
Allele origin:
germline
|
Sema4, Sema4
Accession: SCV002529678.1
First in ClinVar: Jun 24, 2022 Last updated: Jun 24, 2022
Comment:
The CFTR c.1521_1523delCTT (p.F508del) variant is the most common pathogenic variant in individuals with cystic fibrosis (PMID: 31523618, 27469177, 20301295). Functional studies have shown that … (more)
The CFTR c.1521_1523delCTT (p.F508del) variant is the most common pathogenic variant in individuals with cystic fibrosis (PMID: 31523618, 27469177, 20301295). Functional studies have shown that this variant disrupts the protein function (PMID: 24727426). This variant was observed in 1598/129034 chromosomes in the Non-Finnish European population, with 1 homozygote, according to the Genome Aggregation Database (http://gnomad.broadinstitute.org, PMID: 32461654). The variant has been reported in ClinVar (Variation ID 7105). Heterozygous carriers of the F508del variant are usually asymptomatic, however, may be at increased risk for developing pancreatitis, which can eventually lead to pancreatic cancer. Based on the current evidence available, this variant is interpreted as pathogenic. (less)
|
|
|
Pathogenic
(Feb 01, 2013)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Arcensus
Accession: SCV002564582.1
First in ClinVar: Dec 17, 2022 Last updated: Dec 17, 2022 |
|
|
Pathogenic
(Nov 05, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
unknown
|
Mendelics
Accession: SCV000886152.2
First in ClinVar: Jan 22, 2019 Last updated: Dec 11, 2022 |
|
|
Pathogenic
(Dec 08, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Institute of Medical Genetics and Applied Genomics, University Hospital Tübingen
Accession: SCV002759371.1
First in ClinVar: Dec 11, 2022 Last updated: Dec 11, 2022 |
Clinical Features:
Pulmonary fibrosis (present)
|
|
Pathogenic
(Mar 15, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary pancreatitis
Bronchiectasis with or without elevated sweat chloride 1 Cystic fibrosis Congenital bilateral aplasia of vas deferens from CFTR mutation
Affected status: unknown
Allele origin:
unknown
|
Fulgent Genetics, Fulgent Genetics
Accession: SCV002810876.1
First in ClinVar: Dec 31, 2022 Last updated: Dec 31, 2022 |
|
|
Pathogenic
(Nov 03, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: not provided
Allele origin:
germline
|
Institute for Clinical Genetics, University Hospital TU Dresden, University Hospital TU Dresden
Accession: SCV002009133.3
First in ClinVar: Nov 06, 2021 Last updated: Jul 16, 2023 |
|
|
Pathogenic
(Feb 28, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary pancreatitis
Affected status: yes
Allele origin:
germline
|
Human Genetics Bochum, Ruhr University Bochum
Accession: SCV004042777.1
First in ClinVar: Oct 21, 2023 Last updated: Oct 21, 2023 |
Comment:
ACMG criteria used to clasify this variant:PS4, PM3_STR, PM4, PS3_SUP, PP1
|
|
Pathogenic
(Nov 06, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Institute of Medical Genetics and Genomics, Sir Ganga Ram Hospital
Accession: SCV004100881.1
First in ClinVar: Nov 11, 2023 Last updated: Nov 11, 2023 |
Comment:
This is the most common CFTR pathogenic variant. The c.1521_1523delCTT variant results in an in-frame deletion of a single Phenylalanine residue at codon 508.
Zygosity: Single Heterozygote
|
|
Pathogenic
(Nov 07, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Bronchiectasis with or without elevated sweat chloride 1
Hereditary pancreatitis Congenital bilateral aplasia of vas deferens from CFTR mutation Cystic fibrosis
Explanation for multiple conditions: Uncertain.
The variant was classified for several related diseases, possibly a spectrum of disease; the variant may be associated with one or more the diseases.
Affected status: yes
Allele origin:
germline
|
Molecular Genetics and NGS Laboratory, Hospital Fundacion Valle Del Lili
Accession: SCV004101389.1
First in ClinVar: Nov 11, 2023 Last updated: Nov 11, 2023 |
Number of individuals with the variant: 1
Age: 0-9 years
Sex: male
Ethnicity/Population group: Latin
Geographic origin: Colombia
|
|
Pathogenic
(Feb 17, 2020)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
unknown
|
Quest Diagnostics Nichols Institute San Juan Capistrano
Accession: SCV000889288.4
First in ClinVar: Mar 13, 2019 Last updated: Jan 06, 2024 |
Comment:
The c.1521_1523del (p.Phe508del or Delta F508) pathogenic variant is an in-frame deletion of the phenylalanine amino acid at position p.508 of the CFTR protein. It … (more)
The c.1521_1523del (p.Phe508del or Delta F508) pathogenic variant is an in-frame deletion of the phenylalanine amino acid at position p.508 of the CFTR protein. It is the most common cystic fibrosis pathogenic variant that accounts for approximately 70% of alleles in affected patients and causes a severe phenotype due to deleterious effects on CFTR protein maturation and function (PMID: 23857699 (2013), 23974870 (2013), 25148434 (2014), and 26581802 (2016)). Based on the available information, this variant is classified as pathogenic. (less)
|
|
Pathogenic
(Feb 15, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
Revvity Omics, Revvity
Accession: SCV002019253.3
First in ClinVar: Nov 29, 2021 Last updated: Feb 04, 2024 |
|
|
Pathogenic
(Jan 31, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
germline
|
Labcorp Genetics (formerly Invitae), Labcorp
Accession: SCV000074347.14
First in ClinVar: Jul 03, 2013 Last updated: Feb 28, 2024 |
Comment:
This variant, c.1521_1523del, results in the deletion of 1 amino acid(s) of the CFTR protein (p.Phe508del), but otherwise preserves the integrity of the reading frame. … (more)
This variant, c.1521_1523del, results in the deletion of 1 amino acid(s) of the CFTR protein (p.Phe508del), but otherwise preserves the integrity of the reading frame. This variant is present in population databases (rs199826652, gnomAD 1.2%), including at least one homozygous and/or hemizygous individual. This variant has been observed in individual(s) with cystic fibrosis and is the most common cause of the condition (PMID: 2475911, 15371902, 23974870). It has also been observed to segregate with disease in related individuals. This variant is also known as ∆F508. ClinVar contains an entry for this variant (Variation ID: 7105). Algorithms developed to predict the effect of variants on protein structure and function are not available or were not evaluated for this variant. Experimental studies have shown that this variant affects CFTR function (PMID: 2475911, 23974870). For these reasons, this variant has been classified as Pathogenic. (less)
|
|
Pathogenic
(Mar 25, 2024)
|
criteria provided, single submitter
Method: research
|
Cystic fibrosis
Affected status: unknown
Allele origin:
germline
|
Center for Genomic Medicine, King Faisal Specialist Hospital and Research Center
Accession: SCV004805438.2
First in ClinVar: Mar 30, 2024 Last updated: Apr 06, 2024 |
|
|
Pathogenic
(Mar 30, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
germline
|
Molecular Genetics, Royal Melbourne Hospital
Additional submitter:
Shariant Australia, Australian Genomics
Accession: SCV002503785.2
First in ClinVar: Apr 23, 2022 Last updated: Apr 15, 2024 |
Comment:
This sequence change is an inframe deletion of 3 bp predicted to cause the deletion of phenylalanine at position 508 of the CFTR protein, p.(Phe508del). … (more)
This sequence change is an inframe deletion of 3 bp predicted to cause the deletion of phenylalanine at position 508 of the CFTR protein, p.(Phe508del). The region deleted is highly conserved (100 vertebrates, UCSC) in a nonrepeat region, and is located in the ABC transporter domain. The variant is present in a large population cohort at a frequency of 0.7% (rs1297060838, 2,027/282,630 alleles, 1 homozygote in gnomAD v2.1). It is the most commonly reported pathogenic variant in CFTR, and is assigned a practice guideline pathogenic classification (ClinVar ID: 7105). It has been identified in a homozygous state and compound heterozygous with a second pathogenic allele in cystic fibrosis cases (PMID: 8092189, 1379413, 2570460). Additionally, a Cftr Phe508del/Phe508del mouse model lacks CFTR in the apical membrane, were chloride ion-impermeable, and displayed several abnormalities found in the human disease (PMID: 7560099). Based on the classification scheme RMH ACMG Guidelines v1.2.1, this variant is classified as PATHOGENIC. Following criteria are met: PM3_VeryStrong, PS3, PM4_Supporting. (less)
|
|
Pathogenic
(Nov 03, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: unknown
Allele origin:
germline
|
Laboratory for Molecular Medicine, Mass General Brigham Personalized Medicine
Accession: SCV000221179.6
First in ClinVar: Apr 08, 2015 Last updated: Apr 20, 2024 |
Comment:
The p.Phe508del variant in CFTR (also known as ΔF508) is a deletion of a single amino acid at position 508 and is well-established as a … (more)
The p.Phe508del variant in CFTR (also known as ΔF508) is a deletion of a single amino acid at position 508 and is well-established as a pathogenic variant for autosomal recessive cystic fibrosis (Kerem 1989 PMID:2570460, Fuller 1992 PMID:1381146, Southern 1997 PMID:9135274, Grody 2001 PMID:11280952, Sosnay 2013 PMID:23974870). This is the most common pathogenic variant reported in CFTR and has been classified as Pathogenic by the ACMG practice guideline for cystic fibrosis carrier screening and the ClinGen-approved CFTR2 expert panel (ClinVar Variation ID 7105). In summary, this variant meets criteria to be classified as pathogenic for autosomal recessive cystic fibrosis. ACMG/AMP Criteria applied: PM3_Very Strong, PP1_Strong, PS3, PM4_Supporting. (less)
|
|
Pathogenic
(Mar 06, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
germline
|
Ambry Genetics
Accession: SCV000741228.5
First in ClinVar: Apr 15, 2018 Last updated: May 01, 2024 |
Comment:
The c.1521_1523delCTT (p.F508del) alteration is located in coding exon 11 of the CFTR gene, results from an in-frame CTT deletion at nucleotide positions 1521 to … (more)
The c.1521_1523delCTT (p.F508del) alteration is located in coding exon 11 of the CFTR gene, results from an in-frame CTT deletion at nucleotide positions 1521 to 1523. This results in the deletion of a phenylalanine residue at codon 508. Based on data from gnomAD, the c.1521_1523delCTT allele has an overall frequency of 0.717% (2027/282630) total alleles studied. The highest observed frequency was 1.238% (1598/129034) of European (non-Finnish) alleles. This mutation accounts for approximately 70% of cystic fibrosis chromosomes worldwide and is associated with elevated sweat chloride levels, lung disease, pancreatic insufficiency, and Pseudomonas infection (Sosnay, 2013). Disease expression is variable, even among individuals homozygous for p.F508del (Bronsveld, 2001). In vitro functional studies showed this mutation results in significantly reduced chloride conductance (Sosnay, 2013). It is a class II mutation which results in a misfolded CFTR protein that is subsequently degraded (Esposito, 2016). This alteration is predicted to be deleterious by in silico analysis. Based on the available evidence, this alteration is classified as pathogenic. (less)
|
|
Likely pathogenic
(Feb 01, 2024)
|
criteria provided, single submitter
Method: curation
|
Cystic fibrosis
Affected status: no
Allele origin:
germline
|
Laboratory of Medical Genetics, National & Kapodistrian University of Athens
Accession: SCV005051724.1
First in ClinVar: Jun 17, 2024 Last updated: Jun 17, 2024 |
|
|
Pathogenic
(Jul 31, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
Center for Genomic Medicine, Rigshospitalet, Copenhagen University Hospital
Accession: SCV004242533.2
First in ClinVar: Feb 14, 2024 Last updated: Aug 04, 2024 |
|
|
Pathogenic
(Jan 11, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Clinical Genetics Laboratory, Skane University Hospital Lund
Accession: SCV005197698.1
First in ClinVar: Aug 25, 2024 Last updated: Aug 25, 2024 |
|
|
Pathogenic
(Oct 04, 2024)
|
criteria provided, single submitter
Method: research
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Al Jalila Children’s Genomics Center, Al Jalila Childrens Speciality Hospital
Accession: SCV002818128.2
First in ClinVar: Jan 07, 2023 Last updated: Dec 07, 2024 |
Comment:
PVS1, PM3_VeryStrong, PS3, PP4
|
|
Pathogenic
(Oct 28, 2016)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: not provided
Allele origin:
germline
|
Center for Pediatric Genomic Medicine, Children's Mercy Hospital and Clinics
Accession: SCV000511517.1
First in ClinVar: Mar 08, 2017 Last updated: Mar 08, 2017 |
|
|
Pathogenic
(Dec 30, 2017)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
unknown
|
Department Of Genetics, Sultan Qaboos University Hospital, Sultan Qaboos University
Accession: SCV000891676.1
First in ClinVar: Jan 22, 2019 Last updated: Jan 22, 2019 |
Geographic origin: Middle East
|
|
Pathogenic
(Jul 30, 2018)
|
criteria provided, single submitter
Method: clinical testing
|
Not Provided
Affected status: yes
Allele origin:
germline
|
GeneDx
Accession: SCV000329246.6
First in ClinVar: Dec 06, 2016 Last updated: Apr 17, 2019 |
Comment:
The c.1521_1523delCTT pathogenic variant in the CFTR gene (also known as p.Phe508del or delta F508) is the most common variant identified in the CFTR gene, … (more)
The c.1521_1523delCTT pathogenic variant in the CFTR gene (also known as p.Phe508del or delta F508) is the most common variant identified in the CFTR gene, with up to 90% of individuals with cystic fibrosis (CF) having at least one copy of the c.1521_1523delCTT variant (Cai et al., 2011). The c.1521_1523delCTT variant results in an in-frame deletion of a single Phenylalanine residue at codon 508. Individuals who are homozygous for the c.1521_1523delCTT variant demonstrate the classic features of CF, whereas individuals compound heterozygous for the c.1521_1523delCTT variant and another CFTR variant may have a modified disease phenotype (Ong et al., 2017). Heterozygous carriers of the c.1521_1523delCTT variant are usually asymptomatic, however, may be at increased risk for developing a CFTR-related disorder, as an increased prevalence of single CFTR pathogenic variants has been observed among individuals with chronic pulmonary conditions, CAVD and pancreatitis (Cuppens et al., 2004; Bombieri et al., 2011). We interpret the c.1521_1523delCTT variant as a pathogenic variant. (less)
|
|
Pathogenic
(Jan 17, 2020)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
inherited
|
Institute of Human Genetics Munich, Klinikum Rechts Der Isar, TU München
Accession: SCV001149705.1
First in ClinVar: Feb 03, 2020 Last updated: Feb 03, 2020 |
Zygosity: Homozygote
Sex: male
Tissue: blood
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Congenital bilateral aplasia of vas deferens from CFTR mutation
Cystic fibrosis
Affected status: unknown
Allele origin:
germline
|
Baylor Genetics
Accession: SCV001163504.1
First in ClinVar: Mar 01, 2020 Last updated: Mar 01, 2020 |
|
|
Pathogenic
(Jun 04, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
unknown
|
Equipe Genetique des Anomalies du Developpement, Université de Bourgogne
Accession: SCV000883108.1
First in ClinVar: Jan 22, 2019 Last updated: Jan 22, 2019 |
Secondary finding: yes
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: research
|
Cystic fibrosis
Affected status: no
Allele origin:
germline
|
UNC Molecular Genetics Laboratory, University of North Carolina at Chapel Hill
Study: NSIGHT-NC NEXUS
Accession: SCV001251533.1 First in ClinVar: May 31, 2020 Last updated: May 31, 2020
Comment:
carrier finding
|
Comment:
The CFTR c.1521_1523delCTT (p.F508del) variant is the most common pathogenic CFTR variant (PMID: 20301428, 2233932).
Number of individuals with the variant: 2
|
|
Pathogenic
(May 03, 2020)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: no
Allele origin:
unknown
|
Genomic Research Center, Shahid Beheshti University of Medical Sciences
Accession: SCV001251746.1
First in ClinVar: May 31, 2020 Last updated: May 31, 2020 |
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Centogene AG - the Rare Disease Company
Accession: SCV001424387.1
First in ClinVar: Jul 27, 2020 Last updated: Jul 27, 2020 |
|
|
Pathogenic
(Jul 22, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: no
Allele origin:
germline
|
Genome-Nilou Lab
Accession: SCV001810348.1
First in ClinVar: Sep 08, 2021 Last updated: Sep 08, 2021 |
Sex: mixed
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
inherited
|
Kasturba Medical College, Manipal, Kasturba Medical College, Manipal, Manipal Academy of Higher Education, Manipal, India
Accession: SCV002053836.1
First in ClinVar: Jan 08, 2022 Last updated: Jan 08, 2022 |
|
|
Pathogenic
(Dec 30, 2021)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Greenwood Genetic Center Diagnostic Laboratories, Greenwood Genetic Center
Accession: SCV002061800.2
First in ClinVar: Jan 22, 2022 Last updated: Feb 05, 2022 |
Comment:
PS3, PP1, PM1, PM3, PM4
|
|
Pathogenic
(Feb 14, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
DASA
Accession: SCV002097285.1
First in ClinVar: Feb 20, 2022 Last updated: Feb 20, 2022 |
Comment:
Well-established in vitro or in vivo functional studies supportive of a damaging effect on the gene or gene product (PMID: 30030066; 27738188) - PS3. This … (more)
Well-established in vitro or in vivo functional studies supportive of a damaging effect on the gene or gene product (PMID: 30030066; 27738188) - PS3. This sequence change has been observed in affected individual(s) and ClinVar contains an entry for this variant (Clinvar ID: 7105; PMID: 30089726; 29614238; 29668297; 29944384) - PS4. The p.(Phe508del) was detected in trans with a pathogenic variant (PMID: 30089726; 29614238) - PM3_very strong. Protein length variants as a result of in-frame deletions/insertions in a nonrepeat region or stop-loss variants - PM4 and allele frequency is greater than expected for disorder - BS1. In summary, the currently available evidence indicates that the variant is pathogenic. (less)
Number of individuals with the variant: 5
Sex: mixed
Geographic origin: Brazil
|
|
Pathogenic
(Mar 30, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Not provided
Affected status: yes
Allele origin:
germline
|
AiLife Diagnostics, AiLife Diagnostics
Accession: SCV002502414.1
First in ClinVar: Apr 23, 2022 Last updated: Apr 23, 2022 |
Number of individuals with the variant: 5
Secondary finding: no
|
|
Pathogenic
(Oct 11, 2019)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
germline
|
Genome Diagnostics Laboratory, The Hospital for Sick Children
Accession: SCV002507372.1
First in ClinVar: May 16, 2022 Last updated: May 16, 2022 |
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Congenital bilateral aplasia of vas deferens from CFTR mutation
Cystic fibrosis (Autosomal recessive inheritance)
Affected status: yes
Allele origin:
inherited
|
Suma Genomics
Accession: SCV002543782.1
First in ClinVar: Jul 09, 2022 Last updated: Jul 09, 2022 |
|
|
Pathogenic
(Aug 30, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
MGZ Medical Genetics Center
Accession: SCV002579737.1
First in ClinVar: Oct 15, 2022 Last updated: Oct 15, 2022
Comment:
ACMG criteria applied: PM3_VSTR, PS3, PS4, PM4, PP4
|
Number of individuals with the variant: 30
Sex: female
|
|
Pathogenic
(Feb 23, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
unknown
|
3billion
Accession: SCV003841941.1
First in ClinVar: Mar 18, 2023 Last updated: Mar 18, 2023 |
Comment:
The variant is observed at an extremely low frequency in the gnomAD v2.1.1 dataset (total allele frequency: 0.717%). Inframe deletion located in a nonrepeat region … (more)
The variant is observed at an extremely low frequency in the gnomAD v2.1.1 dataset (total allele frequency: 0.717%). Inframe deletion located in a nonrepeat region was predicted to change the length of the protein and disrupt normal protein function. The variant has been reported multiple times as an established pathogenic variant (ClinVar ID: VCV000007105 / PMID: 2475911 / 3billion dataset). Therefore, this variant is classified as Pathogenic according to the recommendation of ACMG/AMP guideline. (less)
Clinical Features:
Productive cough (present) , Elevated sweat chloride (present) , Hypochloremia (present) , Exocrine pancreatic insufficiency (present) , Asthenia (present) , Growth delay (present)
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Congenital bilateral aplasia of vas deferens from CFTR mutation
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Lifecell International Pvt. Ltd
Accession: SCV003925476.1
First in ClinVar: May 20, 2023 Last updated: May 20, 2023 |
Comment:
A Heterozygous inframe indel variant c.1520_1522delTCT in Exon 11 of the CFTR gene that results in the amino acid substitution p.Phe508del was identified. The observed … (more)
A Heterozygous inframe indel variant c.1520_1522delTCT in Exon 11 of the CFTR gene that results in the amino acid substitution p.Phe508del was identified. The observed variant has a minor allele frequency of 0.00707/0.00800% in gnomAD exomes and genomes, respectively. The severity of the impact of this variant on the protein is medium, based on the effect of the protein and REVEL score . Rare Exome Variant Ensemble Learner (REVEL) is an ensembl method for predicting the pathogenicity of missense variants based on a combination of scores from 13 individual tools: MutPred, FATHMM v2.3, VEST 3.0, PolyPhen-2, SIFT, PROVEAN, MutationAssessor, MutationTaster, LRT, GERP++, SiPhy, phyloP, and phastCons. The REVEL score for an individual missense variant can range from 0 to 1, with higher scores reflecting greater likelihood that the variant is disease-causing. ClinVar has also classified this variant as Pathogenic. (Variant ID 7105). This variant has been previously reported for Indian patients with congenital absence of the vas deferens by Sharma H et al., 2014. Based on the above evidence this variant has been classified as Pathogenic according to the ACMG guidelines. (less)
Zygosity: Compound Heterozygote
Ethnicity/Population group: Asian
Geographic origin: India
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Suma Genomics
Accession: SCV004037030.1
First in ClinVar: Sep 30, 2023 Last updated: Sep 30, 2023 |
Zygosity: Homozygote
Age: 0-9 years
Sex: female
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
CYSTIC FIBROSIS
Affected status: yes
Allele origin:
germline
|
Rady Children's Institute for Genomic Medicine, Rady Children's Hospital San Diego
Accession: SCV004046363.1
First in ClinVar: Oct 21, 2023 Last updated: Oct 21, 2023 |
Comment:
This variant has been previously reported as the most common pathogenic variant in the CFTR gene, accounting for an estimated 30%-80% of pathogenic variants in … (more)
This variant has been previously reported as the most common pathogenic variant in the CFTR gene, accounting for an estimated 30%-80% of pathogenic variants in cystic fibrosis (CF) (PMID: 20301428). Functional studies have demonstrated that this variant disrupts the normal function of the protein (PMID: 2475911). It is present in the heterozygous state in the gnomAD population database at a frequency of 0.72% (2027/282630) and thus is presumed to be rare. Based on the available evidence, the c.1521_1523del (p.Phe508del) variant is classified as Pathogenic. (less)
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: not provided
|
Bronchiectasis with or without elevated sweat chloride 1
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Institute of Human Genetics, University Hospital of Duesseldorf
Accession: SCV004171185.1
First in ClinVar: Dec 02, 2023 Last updated: Dec 02, 2023 |
|
|
Pathogenic
(Feb 04, 2022)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Genetics and Molecular Pathology, SA Pathology
Additional submitter:
Shariant Australia, Australian Genomics
Accession: SCV002761398.2
First in ClinVar: Dec 17, 2022 Last updated: Dec 17, 2023 |
Comment:
This sequence change is an inframe deletion of 3 bp predicted to cause the deletion of phenylalanine at position 508 of the CFTR protein (p.Phe508del). … (more)
This sequence change is an inframe deletion of 3 bp predicted to cause the deletion of phenylalanine at position 508 of the CFTR protein (p.Phe508del). The region deleted is highly conserved (100 vertebrates, UCSC) in a nonrepeat region, and is located in the ABC transporter domain. The variant is present in a large population cohort at a frequency of 0.7% (rs1297060838, 2,027/282,630 alleles, 1 homozygote in gnomAD v2.1). It is the most commonly reported pathongenic variant in CFTR, and is assigned a practice quideline pathogenic classification in ClinVar (ID: 7105). It has been identified in a homozygous state and compound heterozygous with a second pathogenic allele in cystic fibrosis cases (PMID: 8092189, 1379413, 2570460). Additionally, a Cftr Phe508del/Phe508del mouse model lack CFTR in the apical membrane, were chloride ion-impermeable, and displayed several abnormalities found in the human disease (PMID: 7560099). Based on the classification scheme RMH ACMG Guidelines v1.2.1, this variant is classified as PATHOGENIC. Following criteria are met: PM3_VeryStrong, PS3, PM4_Supporting. (less)
|
|
Pathogenic
(Mar 01, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Hereditary pancreatitis
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
germline
|
Neuberg Centre For Genomic Medicine, NCGM
Accession: SCV004176446.1
First in ClinVar: Dec 17, 2023 Last updated: Dec 17, 2023 |
Comment:
The inframe deletion c.1521_1523del (p.Phe508del) variant in the CFTR gene has been reported previously in multiple individuals in homozygous/compound heterozygous state affected with Cystic fibrosis … (more)
The inframe deletion c.1521_1523del (p.Phe508del) variant in the CFTR gene has been reported previously in multiple individuals in homozygous/compound heterozygous state affected with Cystic fibrosis related disorders (Sosnay et al., 2013; Terlizzi et al., 2021). The p.Phe508del variant is the most frequent deletion that occurs in ~85% of Cystic fibrosis patients worldwide and is described to affect CFTR (class II) protein processing (Awatade et al. 2019). Experimental studies have shown that this variant affects CFTR function (Zeiher et al. 1995). The p.Phe508del variant is reported with an allele frequency of 0.7% in the gnomAD exomes database and is novel (not in any individuals) in the 1000 Genomes database. This variant has been reported to the ClinVar database as Pathogenic (multiple submissions). This p.Phe508del causes the deletion of the amino acid Phenylalanine at position 508. For these reasons, this variant has been classified as Pathogenic. (less)
Clinical Features:
Abnormality of the pancreas (present)
|
|
Pathogenic
(Oct 19, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: unknown
Allele origin:
germline
|
ARUP Laboratories, Molecular Genetics and Genomics, ARUP Laboratories
Accession: SCV002048630.7
First in ClinVar: Jan 08, 2022 Last updated: Feb 20, 2024 |
Comment:
The CFTR c.1521_1523del; p.Phe508del (F508del) variant is the most common pathogenic CFTR variant that has been reported in Caucasians (Sosnay 2013, CFTR2 database). This variant … (more)
The CFTR c.1521_1523del; p.Phe508del (F508del) variant is the most common pathogenic CFTR variant that has been reported in Caucasians (Sosnay 2013, CFTR2 database). This variant is considered to cause cystic fibrosis when identified with another pathogenic variant on the opposite chromosome. REFERENCES CFTR2 database: http://cftr2.org/ Sosnay P et al. Defining the disease liability of variants in the cystic fibrosis transmembrane conductance regulator gene. Nat Genet. 2013;45(10):1160-7. PMID: 23974870. (less)
|
|
Pathogenic
(Feb 15, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Bronchiectasis with or without elevated sweat chloride 1
(Autosomal dominant inheritance)
Affected status: yes
Allele origin:
unknown
|
Institute of Human Genetics, University of Leipzig Medical Center
Accession: SCV004698102.1
First in ClinVar: Mar 10, 2024 Last updated: Mar 10, 2024 |
Clinical Features:
Elevated sweat chloride (present) , Bronchiectasis (present)
Sex: female
|
|
Pathogenic
(May 31, 2023)
|
criteria provided, single submitter
Method: clinical testing
|
Not provided
Affected status: unknown
Allele origin:
germline
|
Mayo Clinic Laboratories, Mayo Clinic
Accession: SCV001713417.3
First in ClinVar: Jun 15, 2021 Last updated: Jun 02, 2024 |
Number of individuals with the variant: 318
|
|
Pathogenic
(Jan 07, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
Affected status: unknown
Allele origin:
unknown
|
Baylor Genetics
Accession: SCV001527339.4
First in ClinVar: Mar 22, 2021 Last updated: Jun 09, 2024 |
|
|
Pathogenic
(Mar 30, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Bronchiectasis with or without elevated sweat chloride 1
Affected status: unknown
Allele origin:
unknown
|
Baylor Genetics
Accession: SCV004211619.2
First in ClinVar: Dec 30, 2023 Last updated: Jun 17, 2024 |
|
|
Pathogenic
(-)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Neuberg Centre For Genomic Medicine, NCGM
Accession: SCV004101520.2
First in ClinVar: Nov 11, 2023 Last updated: Jul 15, 2024 |
Comment:
The observed inframe deletion c.1521_1523del (p.Phe508del) variant in the CFTR gene has been reported previously in both homozygous and compound heterozygous states in multiple individuals … (more)
The observed inframe deletion c.1521_1523del (p.Phe508del) variant in the CFTR gene has been reported previously in both homozygous and compound heterozygous states in multiple individuals affected with cystic fibrosis (Sosnay et al., 2013; Terlizzi et al., 2021). Experimental studies have shown that this variant affects CFTR function (Zeiher et al. 1995). The p.Phe508del variant is reported with an allele frequency of 0.7% in the gnomAD Exomes. This variant has been submitted to the ClinVar database as Pathogenic (multiple submissions). This p.Phe508del causes deletion of amino acid Phenylalanine at position 508. This variant is predicted to cause loss of normal protein function through protein truncation. Loss of function variants have been previously reported to be disease causing. For these reasons, this variant has been classified as Pathogenic. (less)
|
|
Pathogenic
(Sep 09, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
unknown
|
Institute of Human Genetics, University of Leipzig Medical Center
Accession: SCV002072562.3
First in ClinVar: Feb 05, 2022 Last updated: Oct 13, 2024 |
Comment:
Criteria applied: PM3_VSTR,PS3,PM4; Identified as compund heterozygous with NM_000492.4:c.350G>A
Clinical Features:
Decreased stool elastase level (present) , Increased circulating trypsinogen (present) , Steatorrhea (present)
Sex: male
|
|
Pathogenic
(Aug 01, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
CeGaT Center for Human Genetics Tuebingen
Accession: SCV001246813.26
First in ClinVar: May 12, 2020 Last updated: Oct 20, 2024 |
Comment:
CFTR: PM3:Very Strong, PS3:Moderate, PM2:Supporting, PM4:Supporting
Number of individuals with the variant: 73
|
|
Pathogenic
(Jan 24, 2024)
|
criteria provided, single submitter
Method: clinical testing
|
Cystic fibrosis
(Autosomal recessive inheritance)
Affected status: yes
Allele origin:
germline
|
Pittsburgh Clinical Genomics Laboratory, University of Pittsburgh Medical Center
Accession: SCV005397656.1
First in ClinVar: Nov 17, 2024 Last updated: Nov 17, 2024 |
Comment:
This sequence variant is an in-frame deletion of 3 nucleotides spanning positions 1521 through 1523 of the coding sequence of the CFTR gene that removes … (more)
This sequence variant is an in-frame deletion of 3 nucleotides spanning positions 1521 through 1523 of the coding sequence of the CFTR gene that removes Phe508 of the CF transmembrane conductance regulator protein. This is a previously reported (ClinVar 7105), well characterized variant (PMID: 15371902) that is the most common cystic fibrosis-associated variant in the general population (PMID: 23974870). The variant is also known as deltaF508 and similar identifiers in the literature and public databases. This variant is present in 2976 of 403344 alleles (0.7378%) in the gnomAD population dataset. Experimental evidence shows that function of the variant protein is significantly inhibited (PMID: 2475911). Based upon the evidence, we consider this variant to be pathogenic. ACMG Criteria: PM4, PS3, PS4 (less)
|
|
Pathogenic
(Jun 10, 2016)
|
no assertion criteria provided
Method: research
|
Cystic fibrosis
Affected status: unknown
Allele origin:
maternal
|
Division of Human Genetics, Children's Hospital of Philadelphia
Study: CSER-PediSeq
Accession: SCV000536740.1 First in ClinVar: Apr 03, 2017 Last updated: Apr 03, 2017 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Diagnostic Laboratory, Department of Genetics, University Medical Center Groningen
Study: VKGL Data-share Consensus
Accession: SCV001744105.3 First in ClinVar: Jul 07, 2021 Last updated: Sep 08, 2021 |
|
|
Pathogenic
(Mar 17, 2017)
|
no assertion criteria provided
Method: clinical testing
|
CFTR-related disorders
Affected status: unknown
Allele origin:
germline
|
Natera, Inc.
Accession: SCV002080609.1
First in ClinVar: Feb 13, 2022 Last updated: Feb 13, 2022 |
|
|
Pathogenic
(Nov 02, 2023)
|
no assertion criteria provided
Method: clinical testing
|
Cystic fibrosis
Affected status: yes
Allele origin:
germline
|
Zotz-Klimas Genetics Lab, MVZ Zotz Klimas
Accession: SCV004101106.1
First in ClinVar: Nov 11, 2023 Last updated: Nov 11, 2023 |
|
|
Pathogenic
(May 17, 2015)
|
no assertion criteria provided
Method: literature only
|
CYSTIC FIBROSIS
Affected status: not provided
Allele origin:
germline
|
OMIM
Accession: SCV000027724.10
First in ClinVar: Apr 04, 2013 Last updated: Jun 09, 2024 |
Comment on evidence:
In individuals with cystic fibrosis (CF; 219700), Kerem et al. (1989) identified deletion of 3 basepairs in exon 10 of the CFTR gene, leading to … (more)
In individuals with cystic fibrosis (CF; 219700), Kerem et al. (1989) identified deletion of 3 basepairs in exon 10 of the CFTR gene, leading to deletion of phenylalanine at codon 508 (delta-F508). The exon in which the delta-F508 mutation occurs has been corrected to exon 11; see, e.g., Sharma et al. (2014). The European Working Group on CF Genetics (1990) published information on the distribution of the delta-F508 mutation in Europe. The data, illustrated with a useful map, indicated a striking cline across Europe from low values of 30% in the southeast (in Turkey) to high values in the northwest (e.g., 88% in Denmark). The group suggested that the spread of the CF gene might have accompanied the migrations of early farmers starting from the Middle East and slowly progressing toward the northwest of Europe. The diffusion of the gene may have been favored by the selective advantage conferred by the gene. Strong association with the so-called haplotype B was demonstrated. The possibility of 'hitchhiking,' i.e., the influence of neighboring genes was discussed. Rozen et al. (1990) found the delta-F508 mutation in 71% of CF chromosomes from urban Quebec province French Canadian families, 55% of those from Saguenay-Lac-Saint-Jean region families and in 70% of those from Louisiana Acadian families. De Braekeleer (1991) estimated that the frequency at birth of cystic fibrosis is 1/926 in the Saguenay-Lac-Saint-Jean region, giving a carrier rate of 1/15. For the same region, Daigneault et al. (1991) reported a prevalence of CF at birth of 1/902 liveborns, and a carrier rate of 1/15. Rozen et al. (1992) found that the delta-F508 mutation was present in 58% of Saguenay-Lac-Saint-Jean CF families, with the G-to-T donor splice site mutation after codon 621 being found in 23%, and the A455E mutation (602421.0007) in 8%. The latter 2 mutations were not found in urban Quebec families. This provided further evidence of the role of founder effect. Among 293 patients, Kerem et al. (1990) found that those who were homozygous for the F508 deletion had received a diagnosis of cystic fibrosis at an earlier age and had a greater frequency of pancreatic insufficiency. Pancreatic insufficiency was present in 99% of the homozygous patients, 72% of those heterozygous for the deletion, and only 36% of patients with other mutations. Wauters et al. (1991) studied the frequency of the delta-F508 mutation among Belgian patients with CF. The mutation was present in 80% of CF chromosomes from 36 unrelated families. Ninety-three percent of the CF chromosomes carrying the delta-F508 mutation also carried haplotype B in this population. Gille et al. (1991) described a strategy for efficient heterozygote screening for the delta-F508 mutation. They showed that PCR could detect a heterozygote in a pool of up to 49 unrelated DNA samples. Lerer et al. (1992) reported that the delta-F508 mutation accounts for 33.8% of Jewish CF alleles. The Basque population is thought to be one of the oldest in Europe, having been established in western Europe during the late Paleolithic Age. Euskera, the Basque language, is thought to be pre-Indo-European, originating from the first settlers of Europe. The variable distribution of the delF508 mutation in Europe, with higher frequencies in northern Europe and lower frequencies in southern Europe, has been attributed to a spread of the mutation by early farmers migrating from the Middle East during the Neolithic period. However, a very high frequency of this mutation was found in the Basque Provinces, where the incidence of CF is approximately 1 in 4,500. In a study of 45 CF families from the Basque Provinces, Casals et al. (1992) found that the frequency of the delF508 mutation was 87% in the chromosomes of individuals of pure Basque extraction and 58% in those of mixed Basque origin. Casals et al. (1992) proposed that the delF508 mutation was present in Europe more than 10,000 years ago, preceding the agricultural migrations which diluted the mutation rather than introducing it. Ballabio et al. (1990) described an allele-specific amplification method for diagnosing the phenylalanine-508 deletion. Among Pueblo and Navajo Native Americans of the U.S. Southwest, Grebe et al. (1992) found no instance of the delF508 mutation in 12 affected individuals. Clinically, 6 of the affected individuals had growth deficiency and 5 (all from the Zuni Pueblo) had a severe CF phenotype. Four of the 6 Zunis with CF were also microcephalic, a finding not previously noted in CF patients. In an analysis of 640 Spanish cystic fibrosis families, Casals et al. (1997) found that 75 mutations accounted for 90.2% of CF chromosomes - an extraordinarily high heterozygosity. The frequency of the delta-F508 mutation was 53.2%. The next most frequent mutation was gly542 to ter (602421.0009) with a frequency of 8.43%. Using 3 intragenic microsatellites of the CFTR gene located in introns, Russo et al. (1995) evaluated linkage disequilibrium between each marker and various CF mutations on a total of 377 CF and 358 normal chromosomes from Italian subjects. Results were considered consistent with the hypothesis that all del508 chromosomes derived from a single mutational event. The same hypothesis was valid for 3 other mutations which might have originated more recently than del508. Grebe et al. (1994) performed molecular genetic analyses on 129 Hispanic individuals with cystic fibrosis in the southwestern United States. Only 46% (59 of 129) carried mutation F508del (frequency in the general population 67.1%). In 69 Italian patients with CF due to homozygosity for the delF508 mutation, De Rose et al. (2005) found that those who also carried the R131 allele of the immunoglobulin Fc-gamma receptor II gene (FCGR2A; see 146790.0001) had a 4-fold increased risk of acquiring chronic Pseudomonas aeruginosa infection (p = 0.042). De Rose et al. (2005) suggested that FCGR2A locus variability contributes to this infection susceptibility in CF patients. In a 62-year-old woman with idiopathic bronchiectasis (BESC1; 211400) and elevated sweat chloride but normal nasal potential difference, who carried a heterozygous F508del CFTR mutation, Fajac et al. (2008) also identified heterozygosity for a missense mutation in the SCNN1B gene (600760.0015). The patient had a forced expiratory volume in 1 second (FEV1) that was 89% of predicted. Fajac et al. (2008) concluded that variants in SCNN1B may be deleterious for sodium channel function and lead to bronchiectasis, especially in patients who also carry a mutation in the CFTR gene. Okiyoneda et al. (2010) identified the components of the peripheral protein quality control network that removes unfolded CFTR containing the F508del mutation from the plasma membrane. Based on their results and proteostatic mechanisms at different subcellular locations, Okiyoneda et al. (2010) proposed a model in which the recognition of unfolded cytoplasmic regions of CFTR is mediated by HSC70 (600816) in concert with DNAJA1 (602837) and possibly by the HSP90 machinery (140571). Prolonged interaction with the chaperone-cochaperone complex recruits CHIP (607207)-UBCH5C (602963) and leads to ubiquitination of conformationally damaged CFTR. This ubiquitination is probably influenced by other E3 ligases and deubiquitinating enzyme activities, culminating in accelerated endocytosis and lysosomal delivery mediated by Ub-binding clathrin adaptors and the endosomal sorting complex required for transport (ESCRT) machinery, respectively. In an accompanying perspective, Hutt and Balch (2010) commented that the 'yin-yang' balance maintained by the proteostasis network is critical for normal cellular, tissue, and organismal physiology. Among 1,482 Schmiedeleut (S-leut) Hutterites from the United States, Chong et al. (2012) found 32 heterozygotes and no homozygotes for the phe508del mutation in the CFTR gene, for a frequency of 0.022, or 1 in 45.5. This frequency is lower than that for the general population for this mutation, which is 1 in 30. Pankow et al. (2015) reported the first comprehensive analysis of the CFTR and delta-F508 CFTR interactome and its dynamics during temperature shift and inhibition of histone deacetylases. By using a novel deep proteomic analysis method, they identified 638 individual high-confidence CFTR interactors and discovered a delta-F508 deletion-specific interactome, which is extensively remodeled upon rescue. Detailed analysis of the interactome remodeling identified key novel interactors, whose loss promote delta-F508i CFTR channel function in primary cystic fibrosis epithelia or which are critical for CFTR biogenesis. The results of Pankow et al. (2015) demonstrated that global remodeling of delta-F508 CFTR interactions is crucial for rescue, and provided comprehensive insight into the molecular disease mechanisms of cystic fibrosis caused by deletion of F508. Clinical Trials Wainwright et al. (2015) conducted two phase 3, randomized, double-blind, placebo-controlled studies that were designed to assess the effects of lumacaftor (VX-809), a CFTR corrector, in combination with ivacaftor (VX-770), a CFTR potentiator. A total of 1,108 patients 12 years of age or older who were homozygous for the Phe508del CFTR mutation were randomly assigned to receive either lumacaftor (600 mg once daily or 400 mg every 12 hours) in combination with ivacaftor (250 mg every 12 hours) or matched placebo for 24 weeks. The primary endpoint was the absolute change from baseline in the percentage of predicted forced expiratory volume in 1 second (FEV1) at week 24. In both studies, there were significant improvements in the primary endpoint. The difference between active and placebo with respect to mean absolute improvement in the percentage FEV1 ranged from 2.6 to 4.0 percentage points (p less than 0.001), which corresponded to a mean relative treatment difference of 4.3 to 6.7% (p less than 0.001). Pooled analyses showed that the rate of pulmonary exacerbations was 30 to 39% lower in the treated groups than in the placebo group. In addition, the rate of events leading to hospitalization or the use of intravenous antibiotics was lower in the treated groups. The incidence of adverse events was similar in the treated and placebo groups. The rate of discontinuation due to an adverse event was 4.2% among patients who received lumacaftor-ivacaftor versus 1.6% among those who received placebo. Wainwright et al. (2015) concluded that the combination of a CFTR corrector and potentiator, designed to address the underlying cause of cystic fibrosis by targeting CFTR, can benefit the 45% of patients who are homozygous for the Phe508del mutation. (less)
|
|
risk factor
(May 17, 2015)
|
no assertion criteria provided
Method: literature only
|
BRONCHIECTASIS WITH OR WITHOUT ELEVATED SWEAT CHLORIDE 1, MODIFIER OF
Affected status: not provided
Allele origin:
germline
|
OMIM
Accession: SCV000053487.10
First in ClinVar: Apr 04, 2013 Last updated: Jun 09, 2024 |
Comment on evidence:
In individuals with cystic fibrosis (CF; 219700), Kerem et al. (1989) identified deletion of 3 basepairs in exon 10 of the CFTR gene, leading to … (more)
In individuals with cystic fibrosis (CF; 219700), Kerem et al. (1989) identified deletion of 3 basepairs in exon 10 of the CFTR gene, leading to deletion of phenylalanine at codon 508 (delta-F508). The exon in which the delta-F508 mutation occurs has been corrected to exon 11; see, e.g., Sharma et al. (2014). The European Working Group on CF Genetics (1990) published information on the distribution of the delta-F508 mutation in Europe. The data, illustrated with a useful map, indicated a striking cline across Europe from low values of 30% in the southeast (in Turkey) to high values in the northwest (e.g., 88% in Denmark). The group suggested that the spread of the CF gene might have accompanied the migrations of early farmers starting from the Middle East and slowly progressing toward the northwest of Europe. The diffusion of the gene may have been favored by the selective advantage conferred by the gene. Strong association with the so-called haplotype B was demonstrated. The possibility of 'hitchhiking,' i.e., the influence of neighboring genes was discussed. Rozen et al. (1990) found the delta-F508 mutation in 71% of CF chromosomes from urban Quebec province French Canadian families, 55% of those from Saguenay-Lac-Saint-Jean region families and in 70% of those from Louisiana Acadian families. De Braekeleer (1991) estimated that the frequency at birth of cystic fibrosis is 1/926 in the Saguenay-Lac-Saint-Jean region, giving a carrier rate of 1/15. For the same region, Daigneault et al. (1991) reported a prevalence of CF at birth of 1/902 liveborns, and a carrier rate of 1/15. Rozen et al. (1992) found that the delta-F508 mutation was present in 58% of Saguenay-Lac-Saint-Jean CF families, with the G-to-T donor splice site mutation after codon 621 being found in 23%, and the A455E mutation (602421.0007) in 8%. The latter 2 mutations were not found in urban Quebec families. This provided further evidence of the role of founder effect. Among 293 patients, Kerem et al. (1990) found that those who were homozygous for the F508 deletion had received a diagnosis of cystic fibrosis at an earlier age and had a greater frequency of pancreatic insufficiency. Pancreatic insufficiency was present in 99% of the homozygous patients, 72% of those heterozygous for the deletion, and only 36% of patients with other mutations. Wauters et al. (1991) studied the frequency of the delta-F508 mutation among Belgian patients with CF. The mutation was present in 80% of CF chromosomes from 36 unrelated families. Ninety-three percent of the CF chromosomes carrying the delta-F508 mutation also carried haplotype B in this population. Gille et al. (1991) described a strategy for efficient heterozygote screening for the delta-F508 mutation. They showed that PCR could detect a heterozygote in a pool of up to 49 unrelated DNA samples. Lerer et al. (1992) reported that the delta-F508 mutation accounts for 33.8% of Jewish CF alleles. The Basque population is thought to be one of the oldest in Europe, having been established in western Europe during the late Paleolithic Age. Euskera, the Basque language, is thought to be pre-Indo-European, originating from the first settlers of Europe. The variable distribution of the delF508 mutation in Europe, with higher frequencies in northern Europe and lower frequencies in southern Europe, has been attributed to a spread of the mutation by early farmers migrating from the Middle East during the Neolithic period. However, a very high frequency of this mutation was found in the Basque Provinces, where the incidence of CF is approximately 1 in 4,500. In a study of 45 CF families from the Basque Provinces, Casals et al. (1992) found that the frequency of the delF508 mutation was 87% in the chromosomes of individuals of pure Basque extraction and 58% in those of mixed Basque origin. Casals et al. (1992) proposed that the delF508 mutation was present in Europe more than 10,000 years ago, preceding the agricultural migrations which diluted the mutation rather than introducing it. Ballabio et al. (1990) described an allele-specific amplification method for diagnosing the phenylalanine-508 deletion. Among Pueblo and Navajo Native Americans of the U.S. Southwest, Grebe et al. (1992) found no instance of the delF508 mutation in 12 affected individuals. Clinically, 6 of the affected individuals had growth deficiency and 5 (all from the Zuni Pueblo) had a severe CF phenotype. Four of the 6 Zunis with CF were also microcephalic, a finding not previously noted in CF patients. In an analysis of 640 Spanish cystic fibrosis families, Casals et al. (1997) found that 75 mutations accounted for 90.2% of CF chromosomes - an extraordinarily high heterozygosity. The frequency of the delta-F508 mutation was 53.2%. The next most frequent mutation was gly542 to ter (602421.0009) with a frequency of 8.43%. Using 3 intragenic microsatellites of the CFTR gene located in introns, Russo et al. (1995) evaluated linkage disequilibrium between each marker and various CF mutations on a total of 377 CF and 358 normal chromosomes from Italian subjects. Results were considered consistent with the hypothesis that all del508 chromosomes derived from a single mutational event. The same hypothesis was valid for 3 other mutations which might have originated more recently than del508. Grebe et al. (1994) performed molecular genetic analyses on 129 Hispanic individuals with cystic fibrosis in the southwestern United States. Only 46% (59 of 129) carried mutation F508del (frequency in the general population 67.1%). In 69 Italian patients with CF due to homozygosity for the delF508 mutation, De Rose et al. (2005) found that those who also carried the R131 allele of the immunoglobulin Fc-gamma receptor II gene (FCGR2A; see 146790.0001) had a 4-fold increased risk of acquiring chronic Pseudomonas aeruginosa infection (p = 0.042). De Rose et al. (2005) suggested that FCGR2A locus variability contributes to this infection susceptibility in CF patients. In a 62-year-old woman with idiopathic bronchiectasis (BESC1; 211400) and elevated sweat chloride but normal nasal potential difference, who carried a heterozygous F508del CFTR mutation, Fajac et al. (2008) also identified heterozygosity for a missense mutation in the SCNN1B gene (600760.0015). The patient had a forced expiratory volume in 1 second (FEV1) that was 89% of predicted. Fajac et al. (2008) concluded that variants in SCNN1B may be deleterious for sodium channel function and lead to bronchiectasis, especially in patients who also carry a mutation in the CFTR gene. Okiyoneda et al. (2010) identified the components of the peripheral protein quality control network that removes unfolded CFTR containing the F508del mutation from the plasma membrane. Based on their results and proteostatic mechanisms at different subcellular locations, Okiyoneda et al. (2010) proposed a model in which the recognition of unfolded cytoplasmic regions of CFTR is mediated by HSC70 (600816) in concert with DNAJA1 (602837) and possibly by the HSP90 machinery (140571). Prolonged interaction with the chaperone-cochaperone complex recruits CHIP (607207)-UBCH5C (602963) and leads to ubiquitination of conformationally damaged CFTR. This ubiquitination is probably influenced by other E3 ligases and deubiquitinating enzyme activities, culminating in accelerated endocytosis and lysosomal delivery mediated by Ub-binding clathrin adaptors and the endosomal sorting complex required for transport (ESCRT) machinery, respectively. In an accompanying perspective, Hutt and Balch (2010) commented that the 'yin-yang' balance maintained by the proteostasis network is critical for normal cellular, tissue, and organismal physiology. Among 1,482 Schmiedeleut (S-leut) Hutterites from the United States, Chong et al. (2012) found 32 heterozygotes and no homozygotes for the phe508del mutation in the CFTR gene, for a frequency of 0.022, or 1 in 45.5. This frequency is lower than that for the general population for this mutation, which is 1 in 30. Pankow et al. (2015) reported the first comprehensive analysis of the CFTR and delta-F508 CFTR interactome and its dynamics during temperature shift and inhibition of histone deacetylases. By using a novel deep proteomic analysis method, they identified 638 individual high-confidence CFTR interactors and discovered a delta-F508 deletion-specific interactome, which is extensively remodeled upon rescue. Detailed analysis of the interactome remodeling identified key novel interactors, whose loss promote delta-F508i CFTR channel function in primary cystic fibrosis epithelia or which are critical for CFTR biogenesis. The results of Pankow et al. (2015) demonstrated that global remodeling of delta-F508 CFTR interactions is crucial for rescue, and provided comprehensive insight into the molecular disease mechanisms of cystic fibrosis caused by deletion of F508. Clinical Trials Wainwright et al. (2015) conducted two phase 3, randomized, double-blind, placebo-controlled studies that were designed to assess the effects of lumacaftor (VX-809), a CFTR corrector, in combination with ivacaftor (VX-770), a CFTR potentiator. A total of 1,108 patients 12 years of age or older who were homozygous for the Phe508del CFTR mutation were randomly assigned to receive either lumacaftor (600 mg once daily or 400 mg every 12 hours) in combination with ivacaftor (250 mg every 12 hours) or matched placebo for 24 weeks. The primary endpoint was the absolute change from baseline in the percentage of predicted forced expiratory volume in 1 second (FEV1) at week 24. In both studies, there were significant improvements in the primary endpoint. The difference between active and placebo with respect to mean absolute improvement in the percentage FEV1 ranged from 2.6 to 4.0 percentage points (p less than 0.001), which corresponded to a mean relative treatment difference of 4.3 to 6.7% (p less than 0.001). Pooled analyses showed that the rate of pulmonary exacerbations was 30 to 39% lower in the treated groups than in the placebo group. In addition, the rate of events leading to hospitalization or the use of intravenous antibiotics was lower in the treated groups. The incidence of adverse events was similar in the treated and placebo groups. The rate of discontinuation due to an adverse event was 4.2% among patients who received lumacaftor-ivacaftor versus 1.6% among those who received placebo. Wainwright et al. (2015) concluded that the combination of a CFTR corrector and potentiator, designed to address the underlying cause of cystic fibrosis by targeting CFTR, can benefit the 45% of patients who are homozygous for the Phe508del mutation. (less)
|
|
Pathogenic
(Sep 26, 2024)
|
no assertion criteria provided
Method: clinical testing
|
CFTR-related condition
Affected status: unknown
Allele origin:
germline
|
PreventionGenetics, part of Exact Sciences
Accession: SCV004105952.3
First in ClinVar: Nov 20, 2023 Last updated: Oct 08, 2024 |
Comment:
The CFTR c.1521_1523delCTT variant is predicted to result in an in-frame deletion (p.Phe508del). This variant, frequently described as ΔF508, is known to disrupt protein function … (more)
The CFTR c.1521_1523delCTT variant is predicted to result in an in-frame deletion (p.Phe508del). This variant, frequently described as ΔF508, is known to disrupt protein function and is the most common cause of autosomal recessive cystic fibrosis (Riordan et al. 1989. PubMed ID: 2475911; Watson et al. 2004. PubMed ID: 15371902; Sosnay et al. 2013. PubMed ID: 23974870). This variant is reported in 1.2% of alleles in individuals of European (Non-Finnish) descent. In summary, we classify this variant as pathogenic. (less)
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
unknown
|
Department of Pathology and Laboratory Medicine, Sinai Health System
Additional submitter:
Franklin by Genoox
Study: The Canadian Open Genetics Repository (COGR)
Accession: SCV001553614.1 First in ClinVar: Apr 13, 2021 Last updated: Apr 13, 2021 |
Comment:
The CFTR p.F508del variant is the most common variant known to cause cystic fibrosis (CF); this variant acounts for ~70% of CFTR variants and is … (more)
The CFTR p.F508del variant is the most common variant known to cause cystic fibrosis (CF); this variant acounts for ~70% of CFTR variants and is present in approximately 85% of CF patients worldwide (Maiuri_2015_PMID:26046070). The variant was identified in dbSNP (ID: rs113993960) and ClinVar (classified as pathogenic by the American College of Medical Genetics and Genomics, Laboratory for Molecular Medicine and 20+ other laboratories). The variant was identified in control databases in 2027 of 282630 chromosomes (1 homozygous) at a frequency of 0.007172 (Genome Aggregation Database March 6, 2019, v2.1.1). The variant was observed in the following populations: European (non-Finnish) in 1598 of 129034 chromosomes (freq: 0.01238), Other in 49 of 7214 chromosomes (freq: 0.006792), Ashkenazi Jewish in 58 of 10368 chromosomes (freq: 0.005594), Latino in 135 of 35426 chromosomes (freq: 0.003811), African in 65 of 24958 chromosomes (freq: 0.002604), European (Finnish) in 61 of 25074 chromosomes (freq: 0.002433) and South Asian in 61 of 30608 chromosomes (freq: 0.001993), but was not observed in the East Asian population. This variant is an in-frame deletion resulting in the removal of a phenylalanine (F) residue at codon 508; the deletion of p.F508 results in a misfolded mutant protein that is prematurely degraded before it reaches the plasma membrane (Maiuri_2015_PMID:26046070). In summary, based on the above information this variant meets our laboratory’s criteria to be classified as pathogenic. (less)
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Genome Diagnostics Laboratory, University Medical Center Utrecht
Additional submitter:
Diagnostic Laboratory, Department of Genetics, University Medical Center Groningen
Study: VKGL Data-share Consensus
Accession: SCV001929598.1 First in ClinVar: Sep 26, 2021 Last updated: Sep 26, 2021 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: clinical testing
|
not provided
Affected status: yes
Allele origin:
germline
|
Genome Diagnostics Laboratory, Amsterdam University Medical Center
Additional submitter:
Diagnostic Laboratory, Department of Genetics, University Medical Center Groningen
Study: VKGL Data-share Consensus
Accession: SCV002035293.1 First in ClinVar: Dec 18, 2021 Last updated: Dec 18, 2021 |
|
|
Pathogenic
(Oct 11, 2019)
|
no assertion criteria provided
Method: clinical testing
|
CFTR-related disorders
Affected status: unknown
Allele origin:
germline
|
Genome Diagnostics Laboratory, The Hospital for Sick Children
Accession: SCV002507456.1
First in ClinVar: May 16, 2022 Last updated: May 16, 2022 |
|
|
Pathogenic
(-)
|
no assertion criteria provided
Method: research
|
Cystic fibrosis
Affected status: yes
Allele origin:
unknown
|
Genomics And Bioinformatics Analysis Resource, Columbia University
Accession: SCV004024086.1
First in ClinVar: Aug 13, 2023 Last updated: Aug 13, 2023
Comment:
Homozygous
|
|
|
not provided
(-)
|
no classification provided
Method: not provided
|
not provided
Affected status: not provided
Allele origin:
germline
|
SNPedia
Accession: SCV000090450.1
First in ClinVar: Oct 22, 2013 Last updated: Oct 22, 2013 |
|
|
not provided
(-)
|
no classification provided
Method: phenotyping only
|
Cystic fibrosis
Affected status: unknown
Allele origin:
unknown
|
GenomeConnect, ClinGen
Accession: SCV000607274.3
First in ClinVar: Apr 03, 2017 Last updated: May 20, 2023 |
Comment:
Variant reported in multiple GenomeConnect participants by multiple clinical testing laboratories. Variant interpreted as Pathogenic by all laboratories and reported most recently on 10/28/2022 by … (more)
Variant reported in multiple GenomeConnect participants by multiple clinical testing laboratories. Variant interpreted as Pathogenic by all laboratories and reported most recently on 10/28/2022 by ARUP Laboratories, INC, 06/29/2018 by Genetic Services Laboratory, University of Chicago, and 08/20/2015 by Mayo Clinic Genetic Testing Laboratories. GenomeConnect assertions are reported exactly as they appear on the patient-provided report from the testing laboratory. GenomeConnect staff make no attempt to reinterpret the clinical significance of the variant. (less)
Observation 1:
Clinical Features:
Myopia (present) , Abnormal curvature of the vertebral column (present)
Indication for testing: Carrier Screening
Zygosity: Single Heterozygote
Age: 30-39 years
Sex: female
Method: Genotyping Panel
Testing laboratory: Mayo Clinic Laboratories,Mayo Clinic
Date variant was reported to submitter: 2015-08-20
Testing laboratory interpretation: Pathogenic
Observation 2:
Clinical Features:
Cardiomyopathy (present) , Attention deficit hyperactivity disorder (present) , Attention deficit hyperactivity disorder (present)
Indication for testing: Diagnostic
Zygosity: Single Heterozygote
Age: 10-19 years
Sex: female
Method: Exome Sequencing
Testing laboratory: Genetic Services Laboratory, University of Chicago
Date variant was reported to submitter: 2018-06-29
Testing laboratory interpretation: Pathogenic
Observation 3:
Clinical Features:
Premature birth (present) , Hyperthyroidism (present) , Hypertonia (present) , Memory impairment (present) , Increased susceptibility to fractures (present) , Abnormal muscle physiology (present) , … (more)
Premature birth (present) , Hyperthyroidism (present) , Hypertonia (present) , Memory impairment (present) , Increased susceptibility to fractures (present) , Abnormal muscle physiology (present) , Abnormality of the somatic nervous system (present) , Asthma (present) , Abnormality of the respiratory system (present) , Abnormal pattern of respiration (present) , Abnormal esophagus morphology (present) , Abnormal stomach morphology (present) , Abnormality of the pancreas (present) , Abnormality of the liver (present) , Abnormal intestine morphology (present) , Abnormality of urine homeostasis (present) , Abnormal inflammatory response (present) , Recurrent infections (present) , Abnormal thrombosis (present) , Abnormality of coagulation (present) , Bruising susceptibility (present) , Epistaxis (present) , Abnormal erythrocyte morphology (present) , Abnormal leukocyte morphology (present) (less)
Zygosity: Single Heterozygote
Age: 30-39 years
Sex: male
Method: Single Gene Sequencing
Testing laboratory: ARUP Laboratories, Molecular Genetics and Genomics, ARUP Laboratories
Date variant was reported to submitter: 2022-10-28
Testing laboratory interpretation: Pathogenic
|
|
not provided
(-)
|
no classification provided
Method: literature only
|
Cystic fibrosis
Affected status: unknown
Allele origin:
unknown
|
GeneReviews
Accession: SCV001622798.2
First in ClinVar: May 23, 2021 Last updated: Oct 01, 2022 |
|
|
not provided
(-)
|
no classification provided
Method: literature only
|
Hereditary pancreatitis
Affected status: yes
Allele origin:
germline
|
GeneReviews
Accession: SCV000153744.3
First in ClinVar: May 30, 2014 Last updated: Oct 01, 2022 |
|
|
click to load more click to collapse |
Germline Functional Evidence
Functional
Help
The functional consequence of the variant, based on experimental evidence and provided by the submitter. consequence |
Method
Help
A brief description of the method used to determine the functional consequence of the variant. A citation for the method is included, when provided by the submitter. |
Result
Help
A brief description of the result of this method for this variant. |
Submitter
Help
The submitting organization for this submitted (SCV) record. This column also includes the SCV accession and version number, the date this SCV first appeared in ClinVar, and the date that this SCV was last updated in ClinVar. |
More information
Help
This column includes more information supporting functional evidence for the germline classification, including citations, the comment on classification, and detailed evidence provided as observations of the variant by the submitter. |
---|---|---|---|---|
loss_of_function_variant
|
Foundation for Research in Genetics and Endocrinology, FRIGE's Institute of Human Genetics
Accession: SCV001161676.1
|
|
Citations for germline classification of this variant
HelpTitle | Author | Journal | Year | Link |
---|---|---|---|---|
Cystic Fibrosis. | Adam MP | - | 2024 | PMID: 20301428 |
The genetic structure of the Turkish population reveals high levels of variation and admixture. | Kars ME | Proceedings of the National Academy of Sciences of the United States of America | 2021 | PMID: 34426522 |
Ex vivo model predicted in vivo efficacy of CFTR modulator therapy in a child with rare genotype. | Terlizzi V | Molecular genetics & genomic medicine | 2021 | PMID: 33713579 |
Impact of integrated translational research on clinical exome sequencing. | Klee EW | Genetics in medicine : official journal of the American College of Medical Genetics | 2021 | PMID: 33144682 |
EX18_21 large duplication: A novel pathogenic mutation of the CFTR gene for cystic fibrosis. | Niemyjski EA | Pediatric pulmonology | 2021 | PMID: 33118704 |
Prenatal Diagnosis for Primary Immunodeficiency Disorders-An Overview of the Indian Scenario. | Yadav RM | Frontiers in immunology | 2020 | PMID: 33365035 |
Pituitary stalk interruption syndrome is characterized by genetic heterogeneity. | Brauner R | PloS one | 2020 | PMID: 33270637 |
Genomic testing in 1019 individuals from 349 Pakistani families results in high diagnostic yield and clinical utility. | Cheema H | NPJ genomic medicine | 2020 | PMID: 33083013 |
Pseudo-Bartter syndrome in Chinese children with cystic fibrosis: Clinical features and genotypic findings. | Shen Y | Pediatric pulmonology | 2020 | PMID: 32761997 |
Analysis of CFTR Mutation Spectrum in Ethnic Russian Cystic Fibrosis Patients. | Petrova NV | Genes | 2020 | PMID: 32429104 |
Precision medicine integrating whole-genome sequencing, comprehensive metabolomics, and advanced imaging. | Hou YC | Proceedings of the National Academy of Sciences of the United States of America | 2020 | PMID: 31980526 |
Pancreatitis Overview. | Adam MP | - | 2020 | PMID: 24624459 |
Peculiarities of the m.3243A>G variant in MT-TL1 leave medicine unprecise. | Finsterer J | Molecular genetics and metabolism reports | 2019 | PMID: 31788424 |
Optimizing clinical exome design and parallel gene-testing for recessive genetic conditions in preconception carrier screening: Translational research genomic data from 14,125 exomes. | Capalbo A | PLoS genetics | 2019 | PMID: 31589614 |
Cystic Fibrosis Mutation Spectrum in North Macedonia: A Step Toward Personalized Therapy. | Terzic M | Balkan journal of medical genetics : BJMG | 2019 | PMID: 31523618 |
Harmonizing Clinical Sequencing and Interpretation for the eMERGE III Network. | eMERGE Consortium. Electronic address: [email protected] | American journal of human genetics | 2019 | PMID: 31447099 |
CFTR gene variants: a predisposition factor to aquagenic palmoplantar keratoderma. | Raynal C | The British journal of dermatology | 2019 | PMID: 31310009 |
Identification of a novel large deletion and other copy number variations in the CFTR gene in patients with Cystic Fibrosis from a multiethnic population. | Martins RDS | Molecular genetics & genomic medicine | 2019 | PMID: 31199594 |
Cystic fibrosis presentation in del. F508 and p. Tyr109Glyfs compound heterozygote CFTR state: a case report. | Turkalj M | Croatian medical journal | 2019 | PMID: 31187952 |
Lessons Learned from Large-Scale, First-Tier Clinical Exome Sequencing in a Highly Consanguineous Population. | Monies D | American journal of human genetics | 2019 | PMID: 31130284 |
Phenotypic spectrum and genetic heterogeneity of cystic fibrosis in Sri Lanka. | Indika NLR | BMC medical genetics | 2019 | PMID: 31126253 |
Sequencing as a first-line methodology for cystic fibrosis carrier screening. | Beauchamp KA | Genetics in medicine : official journal of the American College of Medical Genetics | 2019 | PMID: 31036917 |
Development of a Novel Next-Generation Sequencing Assay for Carrier Screening in Old Order Amish and Mennonite Populations of Pennsylvania. | Crowgey EL | The Journal of molecular diagnostics : JMD | 2019 | PMID: 31028937 |
Secondary actionable findings identified by exome sequencing: expected impact on the organisation of care from the study of 700 consecutive tests. | Thauvin-Robinet C | European journal of human genetics : EJHG | 2019 | PMID: 31019283 |
Interpretation of Genomic Sequencing Results in Healthy and Ill Newborns: Results from the BabySeq Project. | Ceyhan-Birsoy O | American journal of human genetics | 2019 | PMID: 30609409 |
Functional analysis of the p.[Arg74Trp;Val201Met;Asp1270Asn]/p.Phe508del CFTR mutation genotype in human native colon. | Schucht S | Molecular genetics & genomic medicine | 2019 | PMID: 30600599 |
Phenotypic spectrum of patients with cystic fibrosis and cystic fibrosis-related disease carrying p.Arg117His. | Keenan K | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2019 | PMID: 30279124 |
R560S: A class II CFTR mutation that is not rescued by current modulators. | Awatade NT | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2019 | PMID: 30030066 |
Cystic fibrosis in Tunisian children: a review of 32 children. | Boussetta K | African health sciences | 2018 | PMID: 30602999 |
High-frequency actionable pathogenic exome variants in an average-risk cohort. | Rego S | Cold Spring Harbor molecular case studies | 2018 | PMID: 30487145 |
Ivacaftor-induced sweat chloride reductions correlate with increases in airway surface liquid pH in cystic fibrosis. | Abou Alaiwa MH | JCI insight | 2018 | PMID: 30089726 |
Clinical Characteristics and Predictors of Reduced Survival for Adult-diagnosed Cystic Fibrosis. Analysis of the Canadian CF Registry. | Desai S | Annals of the American Thoracic Society | 2018 | PMID: 29944384 |
Functional Assays Are Essential for Interpretation of Missense Variants Associated with Variable Expressivity. | Raraigh KS | American journal of human genetics | 2018 | PMID: 29805046 |
PLCB3 Loss of Function Reduces Pseudomonas aeruginosa-Dependent IL-8 Release in Cystic Fibrosis. | Rimessi A | American journal of respiratory cell and molecular biology | 2018 | PMID: 29668297 |
Changes in Lung Clearance Index in Preschool-aged Patients with Cystic Fibrosis Treated with Ivacaftor (GOAL): A Clinical Trial. | Ratjen F | American journal of respiratory and critical care medicine | 2018 | PMID: 29614238 |
Spectrum of CFTR gene sequence variants in a northern Portugal population. | Grangeia A | Pulmonology | 2018 | PMID: 29589582 |
First experience in Switzerland in Phe508del homozygous cystic fibrosis patients with end-stage pulmonary disease enrolled in a lumacaftor-ivacaftor therapy trial - preliminary results. | Murer C | Swiss medical weekly | 2018 | PMID: 29451946 |
The Personal Genome Project Canada: findings from whole genome sequences of the inaugural 56 participants. | Reuter MS | CMAJ : Canadian Medical Association journal = journal de l'Association medicale canadienne | 2018 | PMID: 29431110 |
Effects of Lumacaftor-Ivacaftor Therapy on Cystic Fibrosis Transmembrane Conductance Regulator Function in Phe508del Homozygous Patients with Cystic Fibrosis. | Graeber SY | American journal of respiratory and critical care medicine | 2018 | PMID: 29327948 |
Reproductive genetic carrier screening for cystic fibrosis, fragile X syndrome, and spinal muscular atrophy in Australia: outcomes of 12,000 tests. | Archibald AD | Genetics in medicine : official journal of the American College of Medical Genetics | 2018 | PMID: 29261177 |
Lumacaftor/ivacaftor in patients with cystic fibrosis and advanced lung disease homozygous for F508del-CFTR. | Taylor-Cousar JL | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2018 | PMID: 29126871 |
Tezacaftor/Ivacaftor in Subjects with Cystic Fibrosis and F508del/F508del-CFTR or F508del/G551D-CFTR. | Donaldson SH | American journal of respiratory and critical care medicine | 2018 | PMID: 28930490 |
Tezacaftor-Ivacaftor in Patients with Cystic Fibrosis Homozygous for Phe508del. | Taylor-Cousar JL | The New England journal of medicine | 2017 | PMID: 29099344 |
Tezacaftor-Ivacaftor in Residual-Function Heterozygotes with Cystic Fibrosis. | Rowe SM | The New England journal of medicine | 2017 | PMID: 29099333 |
A Link Between a Common Mutation in CFTR and Impaired Innate and Adaptive Viral Defense. | Svedin E | The Journal of infectious diseases | 2017 | PMID: 28968805 |
Patients with Cystic Fibrosis and a G551D or Homozygous F508del Mutation: Similar Lung Function Decline. | Sawicki GS | American journal of respiratory and critical care medicine | 2017 | PMID: 28617084 |
Efficacy and safety of lumacaftor and ivacaftor in patients aged 6-11 years with cystic fibrosis homozygous for F508del-CFTR: a randomised, placebo-controlled phase 3 trial. | Ratjen F | The Lancet. Respiratory medicine | 2017 | PMID: 28606620 |
A comprehensive strategy for exome-based preconception carrier screening. | Sallevelt SCEH | Genetics in medicine : official journal of the American College of Medical Genetics | 2017 | PMID: 28492530 |
Real-life initiation of lumacaftor/ivacaftor combination in adults with cystic fibrosis homozygous for the Phe508del CFTR mutation and severe lung disease. | Hubert D | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2017 | PMID: 28325531 |
Applying Cystic Fibrosis Transmembrane Conductance Regulator Genetics and CFTR2 Data to Facilitate Diagnoses. | Sosnay PR | The Journal of pediatrics | 2017 | PMID: 28129809 |
Lumacaftor/Ivacaftor Treatment of Patients with Cystic Fibrosis Heterozygous for F508del-CFTR. | Rowe SM | Annals of the American Thoracic Society | 2017 | PMID: 27898234 |
Lumacaftor/Ivacaftor in Patients Aged 6-11 Years with Cystic Fibrosis and Homozygous for F508del-CFTR. | Milla CE | American journal of respiratory and critical care medicine | 2017 | PMID: 27805836 |
Genotype-phenotype correlation and functional studies in patients with cystic fibrosis bearing CFTR complex alleles. | Terlizzi V | Journal of medical genetics | 2017 | PMID: 27738188 |
Primary immunodeficiency diseases: Genomic approaches delineate heterogeneous Mendelian disorders. | Stray-Pedersen A | The Journal of allergy and clinical immunology | 2017 | PMID: 27577878 |
The Etiology and Clinical Course of Chronic Pancreatitis in Children With Early Onset of the Disease. | Wejnarska K | Journal of pediatric gastroenterology and nutrition | 2016 | PMID: 27673710 |
Analysis of cystic fibrosis-associated P67L CFTR illustrates barriers to personalized therapeutics for orphan diseases. | Sabusap CM | JCI insight | 2016 | PMID: 27660821 |
Molecular Genetics of Cystic Fibrosis Transmembrane Conductance Regulator: Genotype and Phenotype. | Sosnay PR | Pediatric clinics of North America | 2016 | PMID: 27469177 |
Characterizing responses to CFTR-modulating drugs using rectal organoids derived from subjects with cystic fibrosis. | Dekkers JF | Science translational medicine | 2016 | PMID: 27334259 |
Efficacy and safety of lumacaftor/ivacaftor combination therapy in patients with cystic fibrosis homozygous for Phe508del CFTR by pulmonary function subgroup: a pooled analysis. | Elborn JS | The Lancet. Respiratory medicine | 2016 | PMID: 27298017 |
Genophenotypic Analysis of Pediatric Patients With Acute Recurrent and Chronic Pancreatitis. | Palermo JJ | Pancreas | 2016 | PMID: 27171515 |
Molecular screening of CFTR gene in Egyptian patients with congenital bilateral absence of the vas deferens: a preliminary study. | Fathy M | Andrologia | 2016 | PMID: 26989879 |
Manipulating proteostasis to repair the F508del-CFTR defect in cystic fibrosis. | Esposito S | Molecular and cellular pediatrics | 2016 | PMID: 26976279 |
The novel complex allele [A238V;F508del] of the CFTR gene: clinical phenotype and possible implications for cystic fibrosis etiological therapies. | Diana A | Journal of human genetics | 2016 | PMID: 26911355 |
c.3623G > A mutation encodes a CFTR protein with impaired channel function. | Zhang X | Respiratory research | 2016 | PMID: 26800689 |
Pharmacological Correction of Cystic Fibrosis: Molecular Mechanisms at the Plasma Membrane to Augment Mutant CFTR Function. | Arora K | Current drug targets | 2016 | PMID: 26648081 |
Channel Gating Regulation by the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) First Cytosolic Loop. | Ehrhardt A | The Journal of biological chemistry | 2016 | PMID: 26627831 |
Lumacaftor alone and combined with ivacaftor: preclinical and clinical trial experience of F508del CFTR correction. | Brewington JJ | Expert review of respiratory medicine | 2016 | PMID: 26581802 |
∆F508 CFTR interactome remodelling promotes rescue of cystic fibrosis. | Pankow S | Nature | 2015 | PMID: 26618866 |
Newborn Screening for Cystic Fibrosis in California. | Kharrazi M | Pediatrics | 2015 | PMID: 26574590 |
Deletion of Phenylalanine 508 in the First Nucleotide-binding Domain of the Cystic Fibrosis Transmembrane Conductance Regulator Increases Conformational Exchange and Inhibits Dimerization. | Chong PA | The Journal of biological chemistry | 2015 | PMID: 26149808 |
MELAS syndrome: Clinical manifestations, pathogenesis, and treatment options. | El-Hattab AW | Molecular genetics and metabolism | 2015 | PMID: 26095523 |
Genotype-phenotype relationship in Iranian patients with cystic fibrosis. | Najafi M | The Turkish journal of gastroenterology : the official journal of Turkish Society of Gastroenterology | 2015 | PMID: 26006199 |
Lumacaftor-Ivacaftor in Patients with Cystic Fibrosis Homozygous for Phe508del CFTR. | Wainwright CE | The New England journal of medicine | 2015 | PMID: 25981758 |
Should diffuse bronchiectasis still be considered a CFTR-related disorder? | Bergougnoux A | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2015 | PMID: 25797027 |
Impact of the F508del mutation on ovine CFTR, a Cl- channel with enhanced conductance and ATP-dependent gating. | Cai Z | The Journal of physiology | 2015 | PMID: 25763566 |
Relationship between CFTR and CTRC variants and the clinical phenotype in late-onset cystic fibrosis disease with chronic pancreatitis. | Tomaiuolo AC | The Journal of molecular diagnostics : JMD | 2015 | PMID: 25636364 |
Necrotising pneumonia and bronchiectasis in a previously healthy 30-year-old man. | Blauvelt DG | BMJ case reports | 2015 | PMID: 25608981 |
The major cystic fibrosis causing mutation exhibits defective propensity for phosphorylation. | Pasyk S | Proteomics | 2015 | PMID: 25330774 |
Function, pharmacological correction and maturation of new Indian CFTR gene mutations. | Sharma H | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2015 | PMID: 25042876 |
[Phenotypic variability of cystic fibrosis: case report of twins with F508/F508 mutation]. | Hernández-Amaris MF | Revista chilena de pediatria | 2014 | PMID: 25697321 |
Cystic fibrosis transmembrane conductance regulator (CFTR) potentiators protect G551D but not ΔF508 CFTR from thermal instability. | Liu X | Biochemistry | 2014 | PMID: 25148434 |
A CFTR corrector (lumacaftor) and a CFTR potentiator (ivacaftor) for treatment of patients with cystic fibrosis who have a phe508del CFTR mutation: a phase 2 randomised controlled trial. | Boyle MP | The Lancet. Respiratory medicine | 2014 | PMID: 24973281 |
Heterogeneous spectrum of mutations in CFTR gene from Indian patients with congenital absence of the vas deferens and their association with cystic fibrosis genetic modifiers. | Sharma H | Molecular human reproduction | 2014 | PMID: 24958810 |
Understanding how cystic fibrosis mutations disrupt CFTR function: from single molecules to animal models. | Wang Y | The international journal of biochemistry & cell biology | 2014 | PMID: 24727426 |
Mutation Analysis of Exons 10 and 17a of CFTR Gene in Patients with Cystic Fibrosis in Kermanshah Province, Western Iran. | Sahami A | Journal of reproduction & infertility | 2014 | PMID: 24696795 |
Association of cystic fibrosis transmembrane-conductance regulator gene mutation with negative outcome of intracytoplasmic sperm injection pregnancy in cases of congenital bilateral absence of vas deferens. | Lu S | Fertility and sterility | 2014 | PMID: 24559724 |
The relative frequency of CFTR mutation classes in European patients with cystic fibrosis. | De Boeck K | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2014 | PMID: 24440181 |
Cystic fibrosis as a rare cause of apple peel syndrome. | Broekaert IJ | Klinische Padiatrie | 2014 | PMID: 24435787 |
Lethal course of meconium ileus in preterm twins revealing a novel cystic fibrosis mutation (p.Cys524Tyr). | Puzik A | BMC pediatrics | 2014 | PMID: 24433235 |
The m.3243A>G mitochondrial DNA mutation and related phenotypes. A matter of gender? | Mancuso M | Journal of neurology | 2014 | PMID: 24375076 |
Effect of ivacaftor on CFTR forms with missense mutations associated with defects in protein processing or function. | Van Goor F | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2014 | PMID: 23891399 |
Defining the disease liability of variants in the cystic fibrosis transmembrane conductance regulator gene. | Sosnay PR | Nature genetics | 2013 | PMID: 23974870 |
A conservative assessment of the major genetic causes of idiopathic chronic pancreatitis: data from a comprehensive analysis of PRSS1, SPINK1, CTRC and CFTR genes in 253 young French patients. | Masson E | PloS one | 2013 | PMID: 23951356 |
The silent codon change I507-ATC->ATT contributes to the severity of the ΔF508 CFTR channel dysfunction. | Lazrak A | FASEB journal : official publication of the Federation of American Societies for Experimental Biology | 2013 | PMID: 23907436 |
Early acute pancreatitis in a child with compound heterozygosis ∆F508/R1438W/Y1032C cystic fibrosis: a case report. | Leonardi S | Journal of medical case reports | 2013 | PMID: 23883480 |
Screening for F508del as a first step in the molecular diagnosis of cystic fibrosis. | Marson FA | Jornal brasileiro de pneumologia : publicacao oficial da Sociedade Brasileira de Pneumologia e Tisilogia | 2013 | PMID: 23857699 |
Analysis of CFTR Gene Variants in Idiopathic Bronchiectasis in Serbian Children. | Milosevic K | Pediatric allergy, immunology, and pulmonology | 2013 | PMID: 23781395 |
Clinical and morphological characteristics of sporadic genetically determined pancreatitis as compared to idiopathic pancreatitis: higher risk of pancreatic cancer in CFTR variants. | Hamoir C | Digestion | 2013 | PMID: 23751316 |
A novel case of diabetic muscle necrosis in a patient with cystic fibrosis-related diabetes. | Chalasani S | Clinical medicine & research | 2013 | PMID: 23656801 |
Regulation of cystic fibrosis transmembrane conductance regulator by microRNA-145, -223, and -494 is altered in ΔF508 cystic fibrosis airway epithelium. | Oglesby IK | Journal of immunology (Baltimore, Md. : 1950) | 2013 | PMID: 23436935 |
Atypical form of transient reactive papulotranslucent acrokeratoderma in a cystic fibrosis carrier. | Baquerizo K | Journal of cutaneous pathology | 2013 | PMID: 23379606 |
CFTR p.Arg117His associated with CBAVD and other CFTR-related disorders. | Thauvin-Robinet C | Journal of medical genetics | 2013 | PMID: 23378603 |
Impaired CFTR function in mild cystic fibrosis associated with the S977F/T5TG12complex allele in trans with F508del mutation. | Sorio C | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2013 | PMID: 23361109 |
Correctors of ΔF508 CFTR restore global conformational maturation without thermally stabilizing the mutant protein. | He L | FASEB journal : official publication of the Federation of American Societies for Experimental Biology | 2013 | PMID: 23104983 |
CFTR mutations altering CFTR fragmentation. | Tosoni K | The Biochemical journal | 2013 | PMID: 23067305 |
An empirical estimate of carrier frequencies for 400+ causal Mendelian variants: results from an ethnically diverse clinical sample of 23,453 individuals. | Lazarin GA | Genetics in medicine : official journal of the American College of Medical Genetics | 2013 | PMID: 22975760 |
CFTR, SPINK1, CTRC and PRSS1 variants in chronic pancreatitis: is the role of mutated CFTR overestimated? | Rosendahl J | Gut | 2013 | PMID: 22427236 |
Effect of maternal cystic fibrosis genotype on diabetes in pregnancy. | Giacobbe LE | Obstetrics and gynecology | 2012 | PMID: 23168765 |
The ΔF508-CFTR mutation inhibits wild-type CFTR processing and function when co-expressed in human airway epithelia and in mouse nasal mucosa. | Tucker TA | BMC physiology | 2012 | PMID: 22999299 |
A population-based study of autosomal-recessive disease-causing mutations in a founder population. | Chong JX | American journal of human genetics | 2012 | PMID: 22981120 |
Thermal instability of ΔF508 cystic fibrosis transmembrane conductance regulator (CFTR) channel function: protection by single suppressor mutations and inhibiting channel activity. | Liu X | Biochemistry | 2012 | PMID: 22680785 |
Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations in pancreatitis. | Ooi CY | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2012 | PMID: 22658665 |
The cystic-fibrosis-associated ΔF508 mutation confers post-transcriptional destabilization on the C. elegans ABC transporter PGP-3. | He L | Disease models & mechanisms | 2012 | PMID: 22569626 |
The F508del mutation in cystic fibrosis transmembrane conductance regulator gene impacts bone formation. | Le Henaff C | The American journal of pathology | 2012 | PMID: 22449949 |
Management of male infertility due to congenital bilateral absence of vas deferens should not ignore the diagnosis of cystic fibrosis. | Grzegorczyk V | Andrologia | 2012 | PMID: 22390181 |
Pulmonary Mycobacterium abscessus: a canary in the cystic fibrosis coalmine. | Haverkamp MH | The Journal of infection | 2012 | PMID: 22366207 |
Cystic fibrosis transmembrane conductance regulator gene abnormalities in patients with asthma and recurrent neutrophilic bronchitis. | Goodwin J | Canadian respiratory journal | 2012 | PMID: 22332135 |
Extensive molecular analysis of patients bearing CFTR-related disorders. | Amato F | The Journal of molecular diagnostics : JMD | 2012 | PMID: 22020151 |
[CFTR F508DEL mutation and 5T allele in patients with chronic pancreatitis and pancreatic adenocarcinoma]. | Nikolić A | Acta chirurgica Iugoslavica | 2011 | PMID: 22369017 |
Evidence for alteration of calpain/calpastatin system in PBMC of cystic fibrosis patients. | Averna M | Biochimica et biophysica acta | 2011 | PMID: 21983488 |
The prevalence of common CFTR mutations in Iranian infertile men with non-CAVD obstructive azoospermia by using ARMS PCR techniques. | Safinejad K | Journal of assisted reproduction and genetics | 2011 | PMID: 21976147 |
Thermally unstable gating of the most common cystic fibrosis mutant channel (ΔF508): "rescue" by suppressor mutations in nucleotide binding domain 1 and by constitutive mutations in the cytosolic loops. | Wang W | The Journal of biological chemistry | 2011 | PMID: 21965669 |
F508del-CFTR increases intracellular Ca(2+) signaling that causes enhanced calcium-dependent Cl(-) conductance in cystic fibrosis. | Martins JR | Biochimica et biophysica acta | 2011 | PMID: 21907281 |
Application of high-resolution single-channel recording to functional studies of cystic fibrosis mutants. | Cai Z | Methods in molecular biology (Clifton, N.J.) | 2011 | PMID: 21594800 |
Common CFTR haplotypes and susceptibility to chronic pancreatitis and congenital bilateral absence of the vas deferens. | Steiner B | Human mutation | 2011 | PMID: 21520337 |
The most common cystic fibrosis-associated mutation destabilizes the dimeric state of the nucleotide-binding domains of CFTR. | Jih KY | The Journal of physiology | 2011 | PMID: 21486785 |
The ΔF508 mutation causes CFTR misprocessing and cystic fibrosis-like disease in pigs. | Ostedgaard LS | Science translational medicine | 2011 | PMID: 21411740 |
Carrier testing for severe childhood recessive diseases by next-generation sequencing. | Bell CJ | Science translational medicine | 2011 | PMID: 21228398 |
Calpain digestion and HSP90-based chaperone protection modulate the level of plasma membrane F508del-CFTR. | Averna M | Biochimica et biophysica acta | 2011 | PMID: 21111762 |
CFTR transcription defects in pancreatic sufficient cystic fibrosis patients with only one mutation in the coding region of CFTR. | Sheridan MB | Journal of medical genetics | 2011 | PMID: 21097845 |
Combined bicarbonate conductance-impairing variants in CFTR and SPINK1 variants are associated with chronic pancreatitis in patients without cystic fibrosis. | Schneider A | Gastroenterology | 2011 | PMID: 20977904 |
CFTR allelic heterogeneity in Mexican patients with cystic fibrosis: implications for molecular screening. | Chávez-Saldaña M | Revista de investigacion clinica; organo del Hospital de Enfermedades de la Nutricion | 2010 | PMID: 21416780 |
The primary folding defect and rescue of ΔF508 CFTR emerge during translation of the mutant domain. | Hoelen H | PloS one | 2010 | PMID: 21152102 |
Cell Biology. The proteome in balance. | Hutt D | Science (New York, N.Y.) | 2010 | PMID: 20705837 |
Functional analysis of F508del CFTR in native human colon. | van Barneveld A | Biochimica et biophysica acta | 2010 | PMID: 20696241 |
Integrated biophysical studies implicate partial unfolding of NBD1 of CFTR in the molecular pathogenesis of F508del cystic fibrosis. | Wang C | Protein science : a publication of the Protein Society | 2010 | PMID: 20687163 |
The cystic fibrosis-causing mutation deltaF508 affects multiple steps in cystic fibrosis transmembrane conductance regulator biogenesis. | Thibodeau PH | The Journal of biological chemistry | 2010 | PMID: 20667826 |
A synonymous single nucleotide polymorphism in DeltaF508 CFTR alters the secondary structure of the mRNA and the expression of the mutant protein. | Bartoszewski RA | The Journal of biological chemistry | 2010 | PMID: 20628052 |
[Cystic fibrosis in a woman aged seventy]. | Ras JE | Nederlands tijdschrift voor geneeskunde | 2010 | PMID: 20619026 |
Peripheral protein quality control removes unfolded CFTR from the plasma membrane. | Okiyoneda T | Science (New York, N.Y.) | 2010 | PMID: 20595578 |
MELAS with recurrent complex partial seizures, nonconvulsive status epilepticus, psychosis, and behavioral disturbances: case analysis with literature review. | Kaufman KR | Epilepsy & behavior : E&B | 2010 | PMID: 20580320 |
Cystic fibrosis transmembrane conductance regulator gene mutation and lung cancer risk. | Li Y | Lung cancer (Amsterdam, Netherlands) | 2010 | PMID: 20116881 |
Cystic fibrosis transmembrane regulator fragments with the Phe508 deletion exert a dual allosteric control over the master kinase CK2. | Pagano MA | The Biochemical journal | 2010 | PMID: 19925455 |
Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations and risk for pancreatic adenocarcinoma. | McWilliams RR | Cancer | 2010 | PMID: 19885835 |
Cystic fibrosis transmembrane conductance regulator mutations in azoospermic and oligospermic men and their partners. | Gallati S | Reproductive biomedicine online | 2009 | PMID: 20021716 |
Deletion of Phe508 in the first nucleotide-binding domain of the cystic fibrosis transmembrane conductance regulator increases its affinity for the heat shock cognate 70 chaperone. | Scott-Ward TS | The FEBS journal | 2009 | PMID: 19878303 |
Disease-causing mutations in the cystic fibrosis transmembrane conductance regulator determine the functional responses of alveolar macrophages. | Deriy LV | The Journal of biological chemistry | 2009 | PMID: 19837664 |
Clinical and molecular characterization of S1118F-CFTR. | Penmatsa H | Pediatric pulmonology | 2009 | PMID: 19774621 |
Rare F311L CFTR gene mutation in a child presented with recurrent electrolyte abnormalities and metabolic alkalosis: case report. | Lumpaopong A | Journal of the Medical Association of Thailand = Chotmaihet thangphaet | 2009 | PMID: 19459534 |
Transient correction of the basic defect in sweat glands in an individual with cystic fibrosis carrying the complex CFTR allele F508del-R553Q. | Tümmler B | Thorax | 2009 | PMID: 19176844 |
Screening for liver disease in cystic fibrosis: analysis of clinical and genetic risk factors for its development. | Fustik S | The Turkish journal of pediatrics | 2008 | PMID: 19227414 |
CFTR mutation analysis of a Caucasian father with congenital bilateral absence of vas deferens, a Taiwanese mother, and twins resulting from ICSI procedure. | Chiang HS | Journal of the Formosan Medical Association = Taiwan yi zhi | 2008 | PMID: 18796364 |
Could a defective epithelial sodium channel lead to bronchiectasis. | Fajac I | Respiratory research | 2008 | PMID: 18507830 |
Consensus on the use and interpretation of cystic fibrosis mutation analysis in clinical practice. | Castellani C | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2008 | PMID: 18456578 |
Respiratory exacerbations in childhood associated with compound heterozygosity Phe508del/Arg117His-7T of the cystic fibrosis transmembrane regulator gene. | Lee TW | Acta paediatrica (Oslo, Norway : 1992) | 2008 | PMID: 18394117 |
DeltaF508 mutation increases conformational flexibility of CFTR protein. | Wieczorek G | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2008 | PMID: 18234567 |
Diagnosis of atypical CF: a case-report to reflect. | Alghisi F | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2008 | PMID: 18180206 |
Molecular characterization of the cystic fibrosis transmembrane conductance regulator gene in congenital absence of the vas deferens. | Grangeia A | Genetics in medicine : official journal of the American College of Medical Genetics | 2007 | PMID: 17413420 |
Potential role for the common cystic fibrosis DeltaF508 mutation in Crohn's disease. | Bresso F | Inflammatory bowel diseases | 2007 | PMID: 17206681 |
[Role of deep seminal tract imaging in the diagnosis of unilateral agenesis of the vas deferens. Case report of a patient with CFTR gene mutation]. | Marcelli F | Progres en urologie : journal de l'Association francaise d'urologie et de la Societe francaise d'urologie | 2006 | PMID: 17175965 |
Autosomal dominant polycystic kidney disease coexisting with cystic fibrosis. | Xu N | Journal of nephrology | 2006 | PMID: 17048214 |
Prospective analysis of cystic fibrosis transmembrane regulator mutations in adults with bronchiectasis or pulmonary nontuberculous mycobacterial infection. | Ziedalski TM | Chest | 2006 | PMID: 17035430 |
Phenotypic discordance in three siblings affected by atypical cystic fibrosis with the F508del/D614G genotype. | Castaldo G | Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society | 2006 | PMID: 16478680 |
Mild cystic fibrosis revealed by persistent hyponatremia during the French 2003 heat wave, associated with the S1455X C-terminus CFTR mutation. | Epaud R | Clinical genetics | 2005 | PMID: 16283887 |
Analysis of most common CFTR mutations in patients affected by nasal polyps. | Kostuch M | European archives of oto-rhino-laryngology : official journal of the European Federation of Oto-Rhino-Laryngological Societies (EUFOS) : affiliated with the German Society for Oto-Rhino-Laryngology - Head and Neck Surgery | 2005 | PMID: 16075239 |
Mutation spectrum of the CFTR gene in Taiwanese patients with congenital bilateral absence of the vas deferens. | Wu CC | Human reproduction (Oxford, England) | 2005 | PMID: 15905293 |
Reduced bone density in cystic fibrosis: DeltaF508 mutation is an independent risk factor. | King SJ | The European respiratory journal | 2005 | PMID: 15640323 |
Fcgamma receptor IIA genotype and susceptibility to P. aeruginosa infection in patients with cystic fibrosis. | De Rose V | European journal of human genetics : EJHG | 2005 | PMID: 15367919 |
The necessity of complete CFTR mutational analysis of an infertile couple before in vitro fertilization. | Wong LJ | Fertility and sterility | 2004 | PMID: 15482777 |
Cystic fibrosis population carrier screening: 2004 revision of American College of Medical Genetics mutation panel. | Watson MS | Genetics in medicine : official journal of the American College of Medical Genetics | 2004 | PMID: 15371902 |
Role of Cftr genotype in the response to chronic Pseudomonas aeruginosa lung infection in mice. | van Heeckeren AM | American journal of physiology. Lung cellular and molecular physiology | 2004 | PMID: 15246977 |
Rescuing cystic fibrosis transmembrane conductance regulator (CFTR)-processing mutants by transcomplementation. | Cormet-Boyaka E | Proceedings of the National Academy of Sciences of the United States of America | 2004 | PMID: 15141088 |
Cystic fibrosis: an unusual cause of chronic pancreatitis. | Vanderbruggen K | Acta gastro-enterologica Belgica | 2003 | PMID: 14618962 |
A cystic fibrosis patient with two novel mutations in mitochondrial DNA: mild disease led to delayed diagnosis of both disorders. | Wong LJ | American journal of medical genetics | 2002 | PMID: 12400067 |
Chloride conductance and genetic background modulate the cystic fibrosis phenotype of Delta F508 homozygous twins and siblings. | Bronsveld I | The Journal of clinical investigation | 2001 | PMID: 11733566 |
[Cystic fibrosis and normal sweat chloride values: a case-report]. | Lebecque P | Revue des maladies respiratoires | 2001 | PMID: 11547256 |
Laboratory standards and guidelines for population-based cystic fibrosis carrier screening. | Grody WW | Genetics in medicine : official journal of the American College of Medical Genetics | 2001 | PMID: 11280952 |
Frequency and clinical significance of the S1235R mutation in the cystic fibrosis transmembrane conductance regulator gene: results from a collaborative study. | Monaghan KG | American journal of medical genetics | 2000 | PMID: 11186891 |
Mutations of the cystic fibrosis gene, but not cationic trypsinogen gene, are associated with recurrent or chronic idiopathic pancreatitis. | Ockenga J | The American journal of gastroenterology | 2000 | PMID: 10950058 |
Identification of cystic fibrosis mutations in Oman. | Frossard PM | Clinical genetics | 2000 | PMID: 10782933 |
Geographic distribution of cystic fibrosis transmembrane regulator gene mutations in Saudi Arabia. | Banjar H | Eastern Mediterranean health journal = La revue de sante de la Mediterranee orientale = al-Majallah al-sihhiyah li-sharq al-mutawassit | 1999 | PMID: 11924117 |
[Coexistence of cystic fibrosis and celiac disease. Description of a clinical case and review of the literature]. | Venuta A | La Pediatria medica e chirurgica : Medical and surgical pediatrics | 1999 | PMID: 10963013 |
Cystic fibrosis patients with the 3272-26A-->G mutation have mild disease, leaky alternative mRNA splicing, and CFTR protein at the cell membrane. | Beck S | Human mutation | 1999 | PMID: 10425036 |
Pitfall in the use of genotype analysis as the sole diagnostic criterion for cystic fibrosis. | Chmiel JF | Pediatrics | 1999 | PMID: 10103316 |
Phenotypic variability in five cystic fibrosis patients compound heterozygous for the Y1092X mutation. | De Braekeleer M | Human heredity | 1998 | PMID: 9618063 |
[Two cases of cystic fibrosis in Japanese/German twins]. | Hojo S | Nihon Kyobu Shikkan Gakkai zasshi | 1997 | PMID: 9493456 |
High heterogeneity for cystic fibrosis in Spanish families: 75 mutations account for 90% of chromosomes. | Casals T | Human genetics | 1997 | PMID: 9439669 |
CFTR gene mutations in adults with disseminated bronchiectasis. | Girodon E | European journal of human genetics : EJHG | 1997 | PMID: 9272738 |
[Mucoviscidosis with respiratory symptomatology in the neonatal period]. | Lamy S | Acta medica portuguesa | 1997 | PMID: 9235853 |
delta F508 in cystic fibrosis: willing but not able. | Southern KW | Archives of disease in childhood | 1997 | PMID: 9135274 |
Genealogy and geographical distribution of CFTR mutations in Saguenay Lac-Saint-Jean (Quebec, Canada). | De Braekeleer M | Annals of human biology | 1996 | PMID: 8886242 |
Complex cystic fibrosis allele R334W-R1158X results in reduced levels of correctly processed mRNA in a pancreatic sufficient patient. | Duarte A | Human mutation | 1996 | PMID: 8844211 |
Mild CF in a delta F508/R347H compound heterozygote woman: does the manifestation of this genotype differ in the two sexes? | Kosztolányi G | Clinical genetics | 1996 | PMID: 8740923 |
Cystic fibrosis transmembrane conductance regulator (CFTR) gene mutations in allergic bronchopulmonary aspergillosis. | Miller PW | American journal of human genetics | 1996 | PMID: 8659542 |
High incidence of cystic fibrosis on the Faroe Islands: a molecular and genealogical study. | Schwartz M | Human genetics | 1995 | PMID: 7789957 |
A mouse model for the delta F508 allele of cystic fibrosis. | Zeiher BG | The Journal of clinical investigation | 1995 | PMID: 7560099 |
A change in gating mode leading to increased intrinsic Cl- channel activity compensates for defective processing in a cystic fibrosis mutant corresponding to a mild form of the disease. | Champigny G | The EMBO journal | 1995 | PMID: 7540133 |
Analysis of linkage disequilibrium between different cystic fibrosis mutations and three intragenic microsatellites in the Italian population. | Russo MP | Human mutation | 1995 | PMID: 7537148 |
Normal sweat chloride values do not exclude the diagnosis of cystic fibrosis. | Stewart B | American journal of respiratory and critical care medicine | 1995 | PMID: 7533604 |
Identification of the I507 deletion by site-directed mutagenesis. | Orozco L | American journal of medical genetics | 1994 | PMID: 8092189 |
A cystic fibrosis patient with delta F508, G542X and a deletion at the D7S8 locus. | Wagner K | Human mutation | 1994 | PMID: 7517267 |
Genetic analysis of Hispanic individuals with cystic fibrosis. | Grebe TA | American journal of human genetics | 1994 | PMID: 7509564 |
GeneReviews(®) | Adam MP | - | 1993 | PMID: 20301295 |
The delta F508 mutation decreases the stability of cystic fibrosis transmembrane conductance regulator in the plasma membrane. Determination of functional half-lives on transfected cells. | Lukacs GL | The Journal of biological chemistry | 1993 | PMID: 7691813 |
Cystic fibrosis mutations in French Canadians: three CFTR mutations are relatively frequent in a Quebec population with an elevated incidence of cystic fibrosis. | Rozen R | American journal of medical genetics | 1992 | PMID: 1536179 |
Mutation analysis of the cystic fibrosis transmembrane regulator gene in Native American populations of the southwest. | Grebe TA | American journal of human genetics | 1992 | PMID: 1384321 |
CFTR! | Fuller CM | The American journal of physiology | 1992 | PMID: 1381146 |
Processing of mutant cystic fibrosis transmembrane conductance regulator is temperature-sensitive. | Denning GM | Nature | 1992 | PMID: 1380673 |
Cystic fibrosis patients bearing both the common missense mutation Gly----Asp at codon 551 and the delta F508 mutation are clinically indistinguishable from delta F508 homozygotes, except for decreased risk of meconium ileus. | Hamosh A | American journal of human genetics | 1992 | PMID: 1379413 |
Cystic fibrosis mutations delta F508 and G542X in Jewish patients. | Lerer I | Journal of medical genetics | 1992 | PMID: 1377276 |
Cystic fibrosis in the Basque country: high frequency of mutation delta F508 in patients of Basque origin. | Casals T | American journal of human genetics | 1992 | PMID: 1370875 |
A pooling strategy for heterozygote screening of the delta F508 cystic fibrosis mutation. | Gille C | Human genetics | 1991 | PMID: 1997384 |
Genetic epidemiology of cystic fibrosis in Saguenay-Lac-St-Jean (Quebec, Canada). | Daigneault J | Clinical genetics | 1991 | PMID: 1756602 |
Nine mutations in the cystic fibrosis (CF) gene account for 80% of the CF chromosomes in French patients. | Simon-Bouy B | Clinical genetics | 1991 | PMID: 1723032 |
Cystic fibrosis with three mutations in the cystic fibrosis transmembrane conductance regulator gene. | Dörk T | Human genetics | 1991 | PMID: 1715308 |
Frequency of the phenylalanine deletion (delta F508) in the CF gene of Belgian cystic fibrosis patients. | Wauters JG | Clinical genetics | 1991 | PMID: 1673094 |
Worldwide survey of the delta F508 mutation--report from the cystic fibrosis genetic analysis consortium. | - | American journal of human genetics | 1990 | PMID: 2378364 |
PCR test for cystic fibrosis deletion. | Ballabio A | Nature | 1990 | PMID: 2300168 |
Identification of mutations in regions corresponding to the two putative nucleotide (ATP)-binding folds of the cystic fibrosis gene. | Kerem BS | Proceedings of the National Academy of Sciences of the United States of America | 1990 | PMID: 2236053 |
The relation between genotype and phenotype in cystic fibrosis--analysis of the most common mutation (delta F508). | Kerem E | The New England journal of medicine | 1990 | PMID: 2233932 |
Cystic fibrosis mutations in North American populations of French ancestry: analysis of Quebec French-Canadian and Louisiana Acadian families. | Rozen R | American journal of human genetics | 1990 | PMID: 2220803 |
Gradient of distribution in Europe of the major CF mutation and of its associated haplotype. European Working Group on CF Genetics (EWGCFG). | - | Human genetics | 1990 | PMID: 2210767 |
Identification of the cystic fibrosis gene: genetic analysis. | Kerem B | Science (New York, N.Y.) | 1989 | PMID: 2570460 |
Identification of the cystic fibrosis gene: cloning and characterization of complementary DNA. | Riordan JR | Science (New York, N.Y.) | 1989 | PMID: 2475911 |
http://cftr2.org/mutation/scientific/F508del/ | - | - | - | - |
http://www.cftr2.org/ | - | - | - | - |
http://www.egl-eurofins.com/emvclass/emvclass.php?approved_symbol=CFTR | - | - | - | - |
https://cftr2.org | - | - | - | - |
https://www.pharmgkb.org/clinicalAnnotation/1447979749 | - | - | - | - |
https://www.pharmgkb.org/clinicalAnnotation/1449154729 | - | - | - | - |
https://www.pharmgkb.org/variant/PA166157525 | - | - | - | - |
click to load more click to collapse |
Text-mined citations for rs113993960 ...
HelpRecord last updated Dec 15, 2024
This date represents the last time this VCV record was updated. The update may be due to an update to one of the included submitted records (SCVs), or due to an update that ClinVar made to the variant such as adding HGVS expressions or a rs number. So this date may be different from the date of the “most recent submission” reported at the top of this page.