Oncogenic Transformation Drives DNA Methylation Loss and Transcriptional Activation at Transposable Element Loci

Tomas Kanholm, Uzma Rentia, Melissa Hadley, Jennifer A. Karlow, Olivia L. Cox, Noor Diab, Matthew L. Bendall, Tyson Dawson, James I. McDonald, Wenbing Xie, Keith A. Crandall, Kathleen H. Burns, Stephen B. Baylin, Hari Easwaran, Katherine B. Chiappinelli

Research output: Contribution to journalArticlepeer-review

Abstract

Transposable elements (TE) are typically silenced by DNA methylation and repressive histone modifications in differentiated healthy human tissues. However, TE expression increases in a wide range of cancers and is correlated with global hypomethylation of cancer genomes. We assessed expression and DNA methylation of TEs in fibroblast cells that were serially transduced with hTERT, SV40, and HRASR24C to immortalize and then transform them, modeling the different steps of the tumorigenesis process. RNA sequencing and whole-genome bisulfite sequencing were performed at each stage of transformation. TE expression significantly increased as cells progressed through transformation, with the largest increase in expression after the final stage of transformation, consistent with data from human tumors. The upregulated TEs were dominated by endogenous retroviruses [long terminal repeats (LTR)]. Most differentially methylated regions (DMR) in all stages were hypomethylated, with the greatest hypomethylation in the final stage of transformation. A majority of the DMRs overlapped TEs from the RepeatMasker database, indicating that TEs are preferentially demethylated. Many hypomethylated TEs displayed a concordant increase in expression. Demethylation began during immortalization and continued into transformation, while upregulation of TE transcription occurred in transformation. Numerous LTR elements upregulated in the model were also identified in The Cancer Genome Atlas datasets of breast, colon, and prostate cancer. Overall, these findings indicate that TEs, specifically endogenous retroviruses, are demethylated and transcribed during transformation.

Original languageEnglish (US)
Pages (from-to)2584-2599
Number of pages16
JournalCancer Research
Volume83
Issue number15
DOIs
StatePublished - Aug 1 2023

ASJC Scopus subject areas

  • Oncology
  • Cancer Research

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