DNA Methylation Signature Reveals Cell Ontogeny of Renal Cell Carcinomas

DNA Methylation Signature Reveals Cell Ontogeny of Renal Cell Carcinomas

DNA methylation is a heritable covalent modification that is developmentally regulated and is critical in tissue-type definition. Although genotype-phenotype correlations have been described for different subtypes of renal cell carcinoma (RCC), it is unknown if DNA methylation profiles correlate wit...

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Published in:Clinical cancer research Vol. 22; no. 24; pp. 6236 - 6246
Main Authors: Malouf, Gabriel G, Su, Xiaoping, Zhang, Jianping, Creighton, Chad J, Ho, Thai H, Lu, Yue, Raynal, Noël J-M, Karam, Jose A, Tamboli, Pheroze, Allanick, Frederick, Mouawad, Roger, Spano, Jean-Philippe, Khayat, David, Wood, Christopher G, Jelinek, Jaroslav, Tannir, Nizar M
Format: Journal Article
Language:English
Published: United States 15-12-2016
Subjects:
Biological Ontologies
Carcinoma, Renal Cell - genetics
Carcinoma, Renal Cell - pathology
DNA Methylation - genetics
Epigenesis, Genetic - genetics
Female
Gene Expression Regulation, Neoplastic - genetics
Genetic Association Studies
Humans
Kidney Neoplasms - genetics
Kidney Neoplasms - pathology
Male
Nephrons - pathology
Promoter Regions, Genetic - genetics
Transcriptome - genetics
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Summary:DNA methylation is a heritable covalent modification that is developmentally regulated and is critical in tissue-type definition. Although genotype-phenotype correlations have been described for different subtypes of renal cell carcinoma (RCC), it is unknown if DNA methylation profiles correlate with morphological or ontology based phenotypes. Here, we test the hypothesis that DNA methylation signatures can discriminate between putative precursor cells in the nephron. We performed deep profiling of DNA methylation and transcriptome in diverse histopathological RCC subtypes and validated DNA methylation in an independent dataset as well as in The Cancer Genome Atlas Clear Cell and Chromophobe Renal Cell Carcinoma Datasets. Our data provide the first mapping of methylome epi-signature and indicate that RCC subtypes can be grouped into two major epi-clusters: C1, which encompasses clear-cell RCC, papillary RCC, mucinous and spindle cell carcinomas and translocation RCC; C2, which comprises oncocytoma and chromophobe RCC. Interestingly, C1 epi-cluster displayed 3-fold more hypermethylation as compared with C2 epi-cluster. Of note, differentially methylated regions between C1 and C2 epi-clusters occur in gene bodies and intergenic regions, instead of gene promoters. Transcriptome analysis of C1 epi-cluster suggests a functional convergence on Polycomb targets, whereas C2 epi-cluster displays DNA methylation defects. Furthermore, we find that our epigenetic ontogeny signature is associated with worse outcomes of patients with clear-cell RCC. Our data define the epi-clusters that can discriminate between distinct RCC subtypes and for the first time define the epigenetic basis for proximal versus distal tubule derived kidney tumors. Clin Cancer Res; 22(24); 6236-46. ©2016 AACR.
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Co-senior authors (contributed equally to this work)
Co-first authors
ISSN:1078-0432
1557-3265
DOI:10.1158/1078-0432.ccr-15-1217