Clinical characteristics.

The 17q12 recurrent duplication is characterized by intellectual abilities ranging from normal to severe disability and other variable clinical manifestations. Speech delay is common, and most affected individuals have some degree of hypotonia and gross motor delay. Behavioral and psychiatric conditions reported in some affected individuals include autism spectrum disorder, schizophrenia, and behavioral abnormalities (aggression and self-injury). Seizures are present in 75%. Additional common findings include microcephaly, ocular abnormalities, and endocrine abnormalities. Short stature and renal and cardiac abnormalities are also reported in some individuals. Penetrance is incomplete and clinical findings are variable.

Diagnosis/testing.

The diagnosis is established in a proband by detection of the 1.4-megabase heterozygous recurrent duplication at chromosome 17q12 by chromosomal microarray testing or other genomic methods.

Management.

Treatment of manifestations: Those with developmental delays, cognitive disability, and/or behavioral issues should be evaluated by a neurodevelopmental pediatrician or clinical psychologist/psychiatrist. Seizures should be managed by a neurologist using standard practice. Feeding therapy as needed. Individuals with vision, endocrine, cardiac, and/or renal abnormalities should be managed by the appropriate specialist.

Surveillance: Regular assessment of psychomotor development is recommended for all children with the 17q12 recurrent duplication as well as psychological evaluation in both affected children and adults. Monitor for new-onset seizures, growth and nutritional assessment, and assessment of family needs at each visit.

Evaluation of relatives at risk: Presymptomatic diagnosis and treatment is warranted in at-risk relatives to identify as early as possible those who would benefit from close assessment/monitoring of developmental milestones in childhood or psychological assessment/intervention through adulthood.

Genetic counseling.

The 17q12 recurrent duplication is inherited in an autosomal dominant manner, with approximately 10% of duplications occurring de novo and approximately 90% inherited from a parent who is often minimally affected or phenotypically normal. Prenatal testing for an at-risk pregnancy requires prior identification of the duplication in an affected family member. Interpretation of results from prenatal testing is challenging given the inherent difficulty in accurately predicting the phenotype.

Suggestive Findings

The 17q12 recurrent duplication should be suspected in individuals with the following:

• Intellectual disability
• Developmental delays
• Seizures
• Ocular anomalies and/or vision problems
• Cardiac malformations
• Renal malformations
• Gastrointestinal abnormalities (e.g., duodenal obstruction)

Establishing the Diagnosis

The diagnosis of the 17q12 recurrent duplication is established in a proband by detection of the 1.4-Mb heterozygous duplication at chromosome 17q12 (see Table 1 and Molecular Genetics).

For this GeneReview, the 17q12 recurrent duplication is defined as the presence of a recurrent 1.4-Mb heterozygous duplication at the approximate position of chr17:36459259-37832869 in the reference genome (NCBI Build GRCh38/hg38).

Note: The phenotype of significantly larger or smaller duplications or deletions within this region may be clinically distinct from the 17q12 recurrent duplication (see Genetically Related Disorders).

For information on the 15 known genes within the 17q12 region see Molecular Genetics.

Genomic testing methods that determine the copy number of sequences can include chromosomal microarray (CMA) or targeted deletion analysis.

Note: The 17q12 recurrent duplication is submicroscopic and cannot be identified by routine analysis of G-banded chromosomes or other conventional cytogenetic banding techniques.

• CMA using oligonucleotide or SNP arrays can detect the recurrent duplication in a proband. The ability to size the duplication depends on the type of microarray used and the density of probes in the 17q12 region.
  Note: (1) Most individuals with the 17q12 recurrent duplication are identified by CMA performed in the context of developmental delay, intellectual disability, and/or autism spectrum disorders. (2) Prior to 2008, many CMA platforms did not include coverage for this region and thus may not have detected this duplication.
• Targeted duplication analysis. FISH analysis, quantitative PCR (qPCR), multiplex ligation-dependent probe amplification (MLPA), or other targeted quantitative methods may be used to test relatives of a proband who is known to have the 17q12 recurrent duplication.
  Note: (1) Targeted duplication testing is not appropriate for an individual in whom the 17q12 recurrent duplication was not detected by CMA designed to target this region. (2) It is not possible to size the duplication routinely by use of targeted methods.

Clinical Description

To date, published reports include 86 individuals with the 17q12 recurrent duplication, along with some phenotypic data [Sharp et al 2006, Mefford et al 2007, Mencarelli et al 2008, Nagamani et al 2010, Faguer et al 2011, Brandt et al 2012, Bierhals et al 2013, Girirajan et al 2013, Hardies et al 2013, Smigiel et al 2014, Casey et al 2015, Mitchell et al 2015, Rasmussen et al 2016, Kamath et al 2018, Kotalova et al 2018, Zhang et al 2021, Zhou et al 2021]. Individuals found to have this rare duplication were typically referred for testing because of intellectual disability and/or developmental delays, and occasionally because of multiple congenital anomalies. The 17q12 recurrent duplication likely also has reduced penetrance and variable expressivity since it is inherited in most instances from a parent with findings reported to be minimally abnormal or normal.

Developmental delay (DD) and intellectual disability (ID). Intellectual abilities range from normal to severe ID. The majority of affected individuals (71%) are reported to have delays or ID. However, the true incidence may be lower given variable expressivity and the ascertainment bias that is present due to the fact that most individuals who are found to have the 17q12 duplication are referred because of DD or ID. Speech delay is common (65%). Most affected individuals (49%-73%) have some degree of hypotonia and gross motor delay.

Behavioral and psychiatric conditions reported in a subset of affected individuals are autism spectrum disorder, schizophrenia, and behavioral abnormalities (including aggression, self-injurious behaviors, and compulsive disorders).

Seizures are reported in 36% of affected individuals.

Brain MRI occasionally reveals abnormalities including focal cortical dysplasia, agenesis of the corpus callosum, periventricular leukomalacia, and schizencephaly.

Microcephaly is reported in approximately 40% of individuals.

Eye and/or vision abnormalities including strabismus, astigmatism, amblyopia, cataract, coloboma, and microphthalmia occur in up to 28% of individuals.

Growth is variable. Both short (22%) and tall (6%) stature have been reported. Prenatal detection of short femur and humerus was reported in one fetus.

Endocrine abnormalities, reported in 26% of individuals, are variable and include diabetes insipidus, type 2 diabetes, growth hormone deficiency, hypoglycemia, hyponatremia and hyperkalemia, and pseudohypoaldosteronism.

Cardiac. The most common reported congenital heart defect is a small ventricular septal defect.

Renal abnormalities, present in approximately 20% of individuals, include horseshoe kidney, renal cysts, and hypoplastic kidneys.

Facial features. No specific dysmorphic features have been consistently observed. If present, dysmorphic features are nonspecific.

Other

• Tracheoesophageal fistula has been reported in three individuals.
• Duodenal atresia has been reported in three individuals.

Penetrance

The penetrance of the 17q12 recurrent duplication has not been established. Although an estimated penetrance of approximately 21% has been proposed [Rosenfeld et al 2013], the majority of 17q12 recurrent duplications are inherited from a parent who is often minimally affected or phenotypically normal, making the true penetrance difficult to ascertain.

Prevalence

In four studies of apparently unaffected controls, the 17q12 recurrent duplication was present in 1:2443 individuals [International Schizophrenia Consortium 2008, Itsara et al 2009, Shaikh et al 2009, Moreno-De-Luca et al 2010]. In a population study of 101,655 individuals from Iceland, the prevalence was 1:2,675 [Stefansson et al 2014].

In two different studies of individuals with intellectual disability, developmental delay or autism, the 17q12 recurrent duplication was reported in 5:2,034 (0.25%) individuals [Mitchell et al 2015] and 21:15,749 (0.13%) [Moreno-De-Luca et al 2010]; however, the frequency is much lower when accounting for all samples submitted in a clinical laboratory setting (19:22,231 [0.085%]) [Mitchell et al 2015].

In a cohort of individuals with schizophrenia, the 17q12 recurrent duplication was identified in 4:4,719 (0.08%) individuals [Szatkiewicz et al 2014].

Evaluations Following Initial Diagnosis

To establish the extent of disease and needs in an individual diagnosed with the 17q12 recurrent duplication, the evaluations summarized in Table 3 (if not performed as part of the evaluation that led to diagnosis) are recommended.

Treatment of Manifestations

Surveillance

Evaluation of Relatives at Risk

Consider genomic testing of sibs of a proband who is known to have the 17q12 recurrent duplication in order to refer sibs with a duplication promptly for close assessment/monitoring of developmental milestones in childhood and psychological issues through adulthood.

See Genetic Counseling for issues related to testing of at-risk relatives for genetic counseling purposes.

Therapies Under Investigation

Search ClinicalTrials.gov in the US and EU Clinical Trials Register in Europe for access to information on clinical studies for a wide range of diseases and conditions.

Mode of Inheritance

The 17q12 recurrent duplication is inherited in an autosomal dominant manner.

Risk to Family Members

Parents of a proband

• About 90% of individuals with a 17q12 recurrent duplication inherited the genetic alteration from a parent. In many instances, the parent with the 17q12 recurrent duplication is phenotypically normal or minimally affected; in parents with features associated with the 17q12 recurrent duplication, reported manifestations range from mild cognitive impairment to learning difficulties, seizures, and mental illness.
• The 17q12 recurrent duplication is de novo in approximately 10% of probands.
• Genomic testing that will detect the 17q12 recurrent duplication present in the proband is recommended for the parents of the proband to evaluate their genetic status and inform recurrence risk assessment.
• If the 17q12 recurrent duplication identified in the proband is not identified in either confirmed biological parent, the following possibilities should be considered:
  • The proband has a de novo duplication.
  • The proband inherited a duplication from a parent with germline (or somatic and germline) mosaicism. Note: Testing of parental leukocyte DNA may not detect all instances of somatic mosaicism.

Sibs of a proband. The risk to the sibs of the proband depends on the genetic status of the parents:

• If one of the parents has the 17q12 recurrent duplication identified in the proband, the risk to each sib of inheriting the duplication is 50%. It is not possible to predict the phenotype in sibs who inherit a 17q12 recurrent duplication because a wide spectrum of manifestations may be observed in family members with the duplication, ranging from no or mild cognitive impairment to learning difficulties, seizures, and mental illness.
• If the 17q12 recurrent duplication identified in the proband cannot be detected in the leukocyte DNA of either parent, the recurrence risk to sibs is low (<1%) but greater than that of the general population because of the theoretic possibility of parental germline mosaicism.

Offspring of a proband. Each child of an individual with the 17q12 recurrent duplication has a 50% chance of inheriting the duplication; it is not possible to predict the phenotype in offspring who inherit the duplication.

Other family members. The risk to other family members depends on the genetic status of the proband’s parents: if a parent has the 17q12 recurrent duplication, the parent's family members may also have the duplication.

Related Genetic Counseling Issues

See Management, Evaluation of Relatives at Risk for information on evaluating at-risk relatives for the purpose of early diagnosis and treatment.

Family planning

• The optimal time for determination of genetic risk and discussion of the availability of prenatal/preimplantation genetic testing is before pregnancy.
• It is appropriate to offer genetic counseling (including discussion of potential risks to offspring and reproductive options) to young adults who are at risk of having a child with a 17q12 recurrent duplication.

Prenatal Testing and Preimplantation Genetic Testing

Pregnancies known to be at increased risk for the 17q12 recurrent duplication. Once a 17q12 recurrent duplication has been identified in a family member, prenatal and preimplantation genetic testing are possible.

Pregnancies not known to be at increased risk for the 17q12 recurrent duplication. CMA performed in a pregnancy for other indications (e.g., advanced maternal age) may detect the recurrent 17q12 duplication.

Note: Regardless of whether a pregnancy is known or not known to be at increased risk for the 17q12 recurrent duplication, the prenatal finding of a 17q12 recurrent duplication cannot be used to predict the phenotype.

Differences in perspective may exist among medical professionals and within families regarding the use of prenatal testing. While most centers would consider use of prenatal testing to be a personal decision, discussion of these issues may be helpful.

Molecular Pathogenesis

Duplication mechanism. The 17q12 recurrent duplication region is flanked by segmental duplications (low copy repeats) and is therefore susceptible to nonallelic homologous recombination (NAHR) [Sharp et al 2006]. The breakpoints of the recurrent duplication lie within the segmental duplication regions.

Genes of interest in this region. The 1.4-Mb 17q12 recurrent duplication contains 15 unique genes (AATF, ACACA, C17orf78, DDX52, DHRS11, DUSP14, GGNBP2, HNF1B, LHX1, MRM1, MYO19, PIGW, SYNRG, TADA2A, and ZNHIT3). It is not known which gene(s) may be responsible for the phenotypic features seen in individuals with the 17q12 recurrent duplication.

Pathogenic variants in (or deletion of) HNF1B are associated with renal cysts and diabetes syndrome, and pathogenic variants in LHX1 have been described in individuals with müllerian aplasia / Mayer-Rokitansky-Küster-Hauser syndrome. However, whether or how pathogenic variants in these genes contribute to phenotypes associated with the 17q12 recurrent duplication is unknown.

Author History

Heather C Mefford, MD, PhD (2016-present)
Elyse Mitchell, MS, CGC; Mayo Clinic (2016-2021)
Jennelle Hodge, PhD; Cedars-Sinai Medical Center (2016-2021)

Revision History

• 13 January 2022 (aa) Revision: percentage of probands with duplications occurring de novo corrected to 10% in Genetic Counseling
• 29 April 2021 (sw) Comprehensive update posted live
• 25 February 2016 (bp) Review posted live
• 5 October 2015 (jh) Original submission

Literature Cited

• Bertini V, Orsini A, Bonuccelli A, Cambi F, Del Pistoia M, Vannozzi I, Toschi B, Saggese G, Simi P, Valetto A. 17q12 Microduplications: A challenge for clinicians. Am J Med Genet Part A. 2015;167A:674–6. [PubMed: 25691423]
• Bierhals T, Maddukuri SB, Kutsche K, Girisha KM. Expanding the phenotype associated with 17q12 duplication: case report and review of the literature. Am J Med Genet A. 2013;161A:352–9. [PubMed: 23307502]
• Brandt T, Desai K, Grodberg D, Mehta L, Cohen N, Tryfon A, Kolevzon A, Soorya L, Buxbaum JD, Edelmann L. Complex autism spectrum disorder in a patient with a 17q12 microduplication. Am J Med Genet A. 2012;158A:1170–7. [PubMed: 22488896]
• Casey JP, Goggin P, McDaid J, White M, Ennis S, Betts DR, Lucas JS, Elnazir B, Lynch SA. A case report of primary ciliary dyskinesia, laterality defects and developmental delay caused by the co-existence of a single gene and chromosome disorder. BMC Med Genet. 2015;16:45. [PMC free article: PMC4630905] [PubMed: 26123568]
• Faguer S, Chassaing N, Bandin F, Prouheze C, Arveiler B, Rooryck C, Nogier MB, Chauveau D, Calvas P, Decramer S. A 17q12 chromosomal duplication associated with renal disease and esophageal atresia. Eur J Med Genet. 2011;54:e437–40. [PubMed: 21540130]
• Girirajan S, Dennis MY, Baker C, Malig M, Coe BP, Campbell CD, Mark K, Vu TH, Alkan C, Cheng Z, Biesecker LG, Bernier R, Eichler EE. Refinement and discovery of new hotspots of copy-number variation associated with autism spectrum disorder. Am J Hum Genet. 2013;92:221–37. [PMC free article: PMC3567267] [PubMed: 23375656]
• Hardies K, Weckhuysen S, Peeters E, Holmgren P, Van Esch H, De Jonghe P, Van Paesschen W, Suls A. Duplications of 17q12 can cause familial fever-related epilepsy syndromes. Neurology. 2013;81:1434–40. [PubMed: 24049133]
• International Schizophrenia Consortium. Rare chromosomal deletions and duplications increase risk of schizophrenia. Nature. 2008;455:237–41. [PMC free article: PMC3912847] [PubMed: 18668038]
• Itsara A, Cooper GM, Baker C, Girirajan S, Li J, Absher D, Krauss RM, Myers RM, Ridker PM, Chasman DI, Mefford H, Ying P, Nickerson DA, Eichler EE. Population analysis of large copy number variants and hotspots of human genetic disease. Am J Hum Genet. 2009;84:148–61. [PMC free article: PMC2668011] [PubMed: 19166990]
• Kamath A, Linden SC, Evans FM, Hall J, Jose SF, Spillane SA, Hardie ADR, Morgan SM, Pilz DT. Chromosome 17q12 duplications: further delineation of the range of psychiatric and clinical phenotypes. Am J Med Genet B Neuropsychiatr Genet. 2018;177:520–8. [PubMed: 30134084]
• Kotalova R, Dusatkova P, Drabova J, Elblova L, Dedic T, Cinek O, Lebl J, Pruhova S. Choledochal cyst with 17q12 chromosomal duplication. Ann Hum Genet. 2018;82:48–51. [PubMed: 28940454]
• Mefford HC, Clauin S, Sharp AJ, Moller RS, Ullmann R, Kapur R, Pinkel D, Cooper GM, Ventura M, Ropers HH, Tommerup N, Eichler EE, Bellanne-Chantelot C. Recurrent reciprocal genomic rearrangements of 17q12 are associated with renal disease, diabetes, and epilepsy. Am J Hum Genet. 2007;81:1057–69. [PMC free article: PMC2265663] [PubMed: 17924346]
• Mencarelli MA, Katzaki E, Papa FT, Sampieri K, Caselli R, Uliana V, Pollazzon M, Canitano R, Mostardini R, Grosso S, Longo I, Ariani F, Meloni I, Hayek J, Balestri P, Mari F, Renieri A. Private inherited microdeletion/microduplications: implications in clinical practice. Eur J Med Genet. 2008;51:409–16. [PubMed: 18657637]
• Mitchell E, Douglas A, Kjaegaard S, Callewaert B, Vanlander A, Janssens S, Lawson Yuen A, Skinner C, Failla P, Alberti A, Avola E, Fichera M, Kibaek M, Digilio MC, Hannibal MC, Den Hollander NS, Bizzarri V, Renieri A, Mencarelli MA, Fitzgerald T, Piazzolla S, Van Oudenhove E, Romano C, Schwartz C, Eichler EE, Slavotinek A, Escobar L, Rajan D, Crolla J, Carter N, Hodge JC, Mefford HC. Recurrent duplications of 17q12 associated with variable phenotypes. Am J Med Genet A. 2015;167A:3038–45. [PubMed: 26420380]
• Moreno-De-Luca D, Mulle JG, Kaminsky EB, Sanders SJ, Myers SM, Adam MP, Pakula AT, Eisenhauer NJ, Uhas K, Weik L, Guy L, Care ME, Morel CF, Boni C, Salbert BA, Chandrareddy A, Demmer LA, Chow EW, Surti U, Aradhya S, Pickering DL, Golden DM, Sanger WG, Aston E, Brothman AR, Gliem TJ, Thorland EC, Ackley T, Iyer R, Huang S, Barber JC, Crolla JA, Warren ST, Martin CL, Ledbetter DH, et al. Deletion 17q12 is a recurrent copy number variant that confers high risk of autism and schizophrenia. Am J Hum Genet. 2010;87:618–30. [PMC free article: PMC2978962] [PubMed: 21055719]
• Nagamani SC, Erez A, Shen J, Li C, Roeder E, Cox S, Karaviti L, Pearson M, Kang SH, Sahoo T, Lalani SR, Stankiewicz P, Sutton VR, Cheung SW. Clinical spectrum associated with recurrent genomic rearrangements in chromosome 17q12. Eur J Hum Genet. 2010;18:278–84. [PMC free article: PMC2987224] [PubMed: 19844256]
• Rasmussen M, Vestergaard EM, Graakjaer J, Petkov Y, Bache I, Fagerberg C, Kibaek M, Svaneby D, Petersen OB, Brasch-Andersen C, Sunde L. 17q12 deletion and duplication syndrome in Denmark-A clinical cohort of 38 patients and review of the literature. Am J Med Genet A. 2016;170:2934–42. [PubMed: 27409573]
• Rosenfeld JA, Coe BP, Eichler EE, Cuckle H, Shaffer LG. Estimates of penetrance for recurrent pathogenic copy-number variations. Genet Med. 2013;15:478–81. [PMC free article: PMC3664238] [PubMed: 23258348]
• Shaikh TH, Gai X, Perin JC, Glessner JT, Xie H, Murphy K, O'hara R, Casalunovo T, Conlin LK, D'arcy M, Frackelton EC, Geiger EA, Haldeman-Englert C, Imielinski M, Kim CE, Medne L, Annaiah K, Bradfield JP, Dabaghyan E, Eckert A, Onyiah CC, Ostapenko S, Otieno FG, Santa E, Shaner JL, Skraban R, Smith RM, Elia J, Goldmuntz E, Spinner NB, Zackai EH, Chiavacci RM, Grundmeier R, Rappaport EF, Grant SF, White PS, Hakonarson H. High-resolution mapping and analysis of copy number variations in the human genome: a data resource for clinical and research applications. Genome Res. 2009;19:1682–90. [PMC free article: PMC2752118] [PubMed: 19592680]
• Sharp AJ, Hansen S, Selzer RR, Cheng Z, Regan R, Hurst JA, Stewart H, Price SM, Blair E, Hennekam RC, Fitzpatrick CA, Segraves R, Richmond TA, Guiver C, Albertson DG, Pinkel D, Eis PS, Schwartz S, Knight SJ, Eichler EE. Discovery of previously unidentified genomic disorders from the duplication architecture of the human genome. Nat Genet. 2006;38:1038–42. [PubMed: 16906162]
• Smigiel R, Marcelis C, Patkowski D, De Leeuw N, Bednarczyk D, Barg E, Mascianica K, Maria Sasiadek M, Brunner H. Oesophageal atresia with tracheoesophageal fistula and anal atresia in a patient with a de novo microduplication in 17q12. Eur J Med Genet. 2014;57:40–3. [PubMed: 24239950]
• Stefansson H, Meyer-Lindenberg A, Steinberg S, Magnusdottir B, Morgen K, Arnarsdottir S, Bjornsdottir G, Walters GB, Jonsdottir GA, Doyle OM, Tost H, Grimm O, Kristjansdottir S, Snorrason H, Davidsdottir SR, Gudmundsson LJ, Jonsson GF, Stefansdottir B, Helgadottir I, Haraldsson M, Jonsdottir B, Thygesen JH, Schwarz AJ, Didriksen M, Stensbøl TB, Brammer M, Kapur S, Halldorsson JG, Hreidarsson S, Saemundsen E, Sigurdsson E, Stefansson K. CNVs conferring risk of autism or schizophrenia affect cognition in controls. Nature. 2014;505:361–6. [PubMed: 24352232]
• Szatkiewicz JP, O'Dushlaine C, Chen G, Chambert K, Moran JL, Neale BM, Fromer M, Ruderfer D, Akterin S, Bergen SE, Kähler A, Magnusson PK, Kim Y, Crowley JJ, Rees E, Kirov G, O'Donovan MC, Owen MJ, Walters J, Scolnick E, Sklar P, Purcell S, Hultman CM, McCarroll SA, Sullivan PF. Copy number variation in schizophrenia in Sweden. Mol Psychiatry. 2014;19:762–73. [PMC free article: PMC4271733] [PubMed: 24776740]
• Zhang W, Lei T, Fu F, Deng Q, Li R, Wang D, Yang X, Li D, Liao C. Microarray analysis in fetuses with duodenal obstruction: It is not just trisomy 21. Prenat Diagn. 2021;41:316–22. [PubMed: 33000500]
• Zhou CX, Zhu XY, Zhu YJ, Gu LL, He LL, Liu W, Yang Y, Wu X, Duan HL, Ru T, Li J. Prenatal features of 17q12 microdeletion and microduplication syndromes: A retrospective case series. Taiwan J Obstet Gynecol. 2021;60:232–7. [PubMed: 33678321]