Literature DB >> 24916699

Kidney cancer is characterized by aberrant methylation of tissue-specific enhancers that are prognostic for overall survival.

Caroline Y Hu1, Davoud Mohtat1, Yiting Yu1, Yi-An Ko2, Niraj Shenoy1, Sanchari Bhattacharya1, Maria C Izquierdo2, Ae Seo Deok Park2, Orsolya Giricz1, Nishanth Vallumsetla1, Krishna Gundabolu1, Kristin Ware3, Tushar D Bhagat1, Masako Suzuki1, James Pullman3, X Shirley Liu4, John M Greally1, Katalin Susztak5, Amit Verma6.   

Abstract

PURPOSE: Even though recent studies have shown that genetic changes at enhancers can influence carcinogenesis, most methylomic studies have focused on changes at promoters. We used renal cell carcinoma (RCC), an incurable malignancy associated with mutations in epigenetic regulators, as a model to study genome-wide patterns of DNA methylation at a high resolution. EXPERIMENTAL
DESIGN: Analysis of cytosine methylation status of 1.3 million CpGs was determined by the HELP assay in RCC and healthy microdissected renal tubular controls.
RESULTS: We observed that the RCC samples were characterized by widespread hypermethylation that preferentially affected gene bodies. Aberrant methylation was particularly enriched in kidney-specific enhancer regions associated with H3K4Me1 marks. Various important underexpressed genes, such as SMAD6, were associated with aberrantly methylated, intronic enhancers, and these changes were validated in an independent cohort. MOTIF analysis of aberrantly hypermethylated regions revealed enrichment for binding sites of AP2a, AHR, HAIRY, ARNT, and HIF1 transcription factors, reflecting contributions of dysregulated hypoxia signaling pathways in RCC. The functional importance of this aberrant hypermethylation was demonstrated by selective sensitivity of RCC cells to low levels of decitabine. Most importantly, methylation of enhancers was predictive of adverse prognosis in 405 cases of RCC in multivariate analysis. In addition, parallel copy-number analysis from MspI representations demonstrated novel copy-number variations that were validated in an independent cohort of patients.
CONCLUSIONS: Our study is the first high-resolution methylome analysis of RCC, demonstrates that many kidney-specific enhancers are targeted by aberrant hypermethylation, and reveals the prognostic importance of these epigenetic changes in an independent cohort. ©2014 American Association for Cancer Research.

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Year:  2014        PMID: 24916699      PMCID: PMC4424050          DOI: 10.1158/1078-0432.CCR-14-0494

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


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