Transcription Restores DNA Repair to Heterochromatin, Determining Regional Mutation Rates in Cancer Genomes

Christina Zheng; Nicholas J. Wang; Jongsuk Chung; Homayoun Moslehi; J. Zachary Sanborn; Joseph Hur; Eric A. Collisson; Swapna S. Vemula; Agne Naujokas; Kami Chiotti; Jeffrey B. Cheng; Hiva Fassihi; Andrew J. Blumberg; Celeste Bailey; Gary M. Fudem; Frederick G. Mihm; Bari B. Cunningham; Isaac Neuhaus; Wilson Liao; Dennis H. Oh; James E. Cleaver; Philip E. LeBoit; J Costello; Alan R. Lehmann; Joe W. Gray; Paul T. Spellman; Sarah T. Arron; Nam Huh; Elizabeth Purdom; Raymond J. Cho

doi:10.1016/j.celrep.2014.10.031

Transcription Restores DNA Repair to Heterochromatin, Determining Regional Mutation Rates in Cancer Genomes

Christina Zheng(Oregon Health & Science University), Nicholas J. Wang(Oregon Health & Science University), Jongsuk Chung(Samsung (South Korea)), Homayoun Moslehi(University of California, San Francisco), J. Zachary Sanborn(Dovetail Genomics (United States)), Joseph Hur(Samsung (South Korea)), Eric A. Collisson(University of California, San Francisco), Swapna S. Vemula(University of California, San Francisco), Agne Naujokas(University of California, San Francisco), Kami Chiotti(Oregon Health & Science University), Jeffrey B. Cheng(University of California, San Francisco), Hiva Fassihi(Guy's and St Thomas' NHS Foundation Trust), Andrew J. Blumberg(The University of Texas at Austin), Celeste Bailey(UCSF Helen Diller Family Comprehensive Cancer Center), Gary M. Fudem(University of Massachusetts Chan Medical School), Frederick G. Mihm(Stanford Medicine), Bari B. Cunningham(University of California San Diego), Isaac Neuhaus(University of California, San Francisco), Wilson Liao(University of California, San Francisco), Dennis H. Oh(San Francisco VA Medical Center), James E. Cleaver(University of California, San Francisco), Philip E. LeBoit(University of California, San Francisco), J Costello(University of California, San Francisco), Alan R. Lehmann(University of Sussex), Joe W. Gray(Oregon Health & Science University), Paul T. Spellman(Oregon Health & Science University), Sarah T. Arron(University of California, San Francisco), Nam Huh(Samsung (South Korea)), Elizabeth Purdom(University of California, Berkeley), Raymond J. Cho(University of California, San Francisco)

Cell Reports

November 1, 2014

10.1016/j.celrep.2014.10.031

Cited by 125Open Access

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Abstract

Somatic mutations in cancer are more frequent in heterochromatic and late-replicating regions of the genome. We report that regional disparities in mutation density are virtually abolished within transcriptionally silent genomic regions of cutaneous squamous cell carcinomas (cSCCs) arising in an XPC(-/-) background. XPC(-/-) cells lack global genome nucleotide excision repair (GG-NER), thus establishing differential access of DNA repair machinery within chromatin-rich regions of the genome as the primary cause for the regional disparity. Strikingly, we find that increasing levels of transcription reduce mutation prevalence on both strands of gene bodies embedded within H3K9me3-dense regions, and only to those levels observed in H3K9me3-sparse regions, also in an XPC-dependent manner. Therefore, transcription appears to reduce mutation prevalence specifically by relieving the constraints imposed by chromatin structure on DNA repair. We model this relationship among transcription, chromatin state, and DNA repair, revealing a new, personalized determinant of cancer risk.

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