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Series GSE81499 Query DataSets for GSE81499
Status Public on Jul 06, 2016
Title Multiple mechanisms disrupt let-7 miRNA biogenesis and function in neuroblastoma [shortRNA]
Organism Homo sapiens
Experiment type Non-coding RNA profiling by high throughput sequencing
Summary The let-7 microRNA families are tumor suppressors often deregulated in cancer, yet the underlying mechanisms of let-7 disruption remain poorly understood. Neuroblastoma is defined in part by poor prognosis associated with genetic amplification of MYCN, itself a let-7 target. The let-7 biogenesis inhibitor LIN28B has been implicated as a critical regulator of MYCN ; however, here we show that LIN28B is dispensable for both MYCN protein expression and growth of MYCN amplified neuroblastoma cell lines despite robust de-repression of let-7 . We further report that amplified MYCN mRNA is a potent let-7 sponge that through exceptionally high expression defines a sub-set of self-sponging amplified competing endogenous RNA (aceRNA) and reconciles the dispensability of LIN28B . In addition, we observe frequent genomic loss of let-7 that inversely associates with MYCN- amplification, providing an explanation for common, yet unresolved amplification-independent patterns of chromosome loss. We thus propose a model whereby let-7 disruption by genetic loss, LIN28B expression, or aceRNA sponging is a unifying mechanism of neuroblastoma pathogenesis. Indeed, our data show that the majority of neuroblastomas have at least one let-7 disruption event and that genetic loss in non-MYCN amplified tumors marks decreased survival, further underscoring its importance. The inverse relationship between allelic loss and sponging of let-7 from highly expressed or amplified oncogenes may have broad implications for oncogenesis.
 
Overall design Two cell lines, sampled in triplicate.
 
Contributor(s) Powers JT, Cahan P, Daley GQ
Citation(s) 27383785
Submission date May 17, 2016
Last update date May 15, 2019
Contact name Patrick Cahan
E-mail(s) [email protected]
Organization name Johns Hopkins University School of Medicine
Department ICE and Biomedical Engineering
Lab Cahan Lab
Street address 733 North Broadway, MRB 653
City Baltimore
State/province MD
ZIP/Postal code 21205
Country USA
 
Platforms (1)
GPL18573 Illumina NextSeq 500 (Homo sapiens)
Samples (6)
GSM2154871 BE2C_500
GSM2154872 BE2C_50
GSM2154873 BE2C_5
This SubSeries is part of SuperSeries:
GSE81500 Multiple mechanisms disrupt let-7 miRNA biogenesis and function in neuroblastoma
Relations
BioProject PRJNA321945
SRA SRP075358

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Supplementary file Size Download File type/resource
GSE81499_expJTP_Short.csv.gz 34.0 Kb (ftp)(http) CSV
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Processed data are available on Series record

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