MYC drives aggressive prostate cancer by disrupting transcriptional pause release at androgen receptor targets

Xintao Qiu; Nadia Boufaied; Tarek Hallal; Avery Feit; Anna de Polo; Adrienne Luoma; Walaa Alahmadi; Janie Larocque; Giorgia Zadra; Yingtian Xie; Shengqing Gu; Qin Tang; Yi Zhang; Sudeepa Syamala; Ji-Heui Seo; Connor Bell; Edward O’Connor; Yang Liu; Edward M. Schaeffer; R. Jeffrey Karnes; Sheila Weinmann; Elai Davicioni; Colm Morrissey; Paloma Cejas; Leigh Ellis; Massimo Loda; Kai W. Wucherpfennig; Mark M. Pomerantz; Daniel E. Spratt; Eva Corey; Matthew L. Freedman; X. Shirley Liu; Myles Brown; Henry W. Long; David P. Labbé

doi:10.1038/s41467-022-30257-z

MYC drives aggressive prostate cancer by disrupting transcriptional pause release at androgen receptor targets

Xintao Qiu(Harvard University), Nadia Boufaied(McGill University Health Centre), Tarek Hallal(McGill University Health Centre), Avery Feit(Harvard University), Anna de Polo(McGill University Health Centre), Adrienne Luoma(Harvard University), Walaa Alahmadi(McGill University Health Centre), Janie Larocque(McGill University Health Centre), Giorgia Zadra(Dana-Farber Cancer Institute), Yingtian Xie(Harvard University), Shengqing Gu(Harvard University), Qin Tang(Harvard University), Yi Zhang(Dana-Farber Cancer Institute), Sudeepa Syamala(Dana-Farber Cancer Institute), Ji-Heui Seo(Harvard University), Connor Bell(Harvard University), Edward O’Connor(Harvard University), Yang Liu(Coherus BioSciences (United States)), Edward M. Schaeffer(Northwestern University), R. Jeffrey Karnes(Mayo Clinic in Arizona), Sheila Weinmann(Kaiser Permanente Center for Health Research), Elai Davicioni(Coherus BioSciences (United States)), Colm Morrissey(University of Washington), Paloma Cejas(Harvard University), Leigh Ellis(Cedars-Sinai Medical Center), Massimo Loda(Cornell University), Kai W. Wucherpfennig(Harvard University), Mark M. Pomerantz(Harvard University), Daniel E. Spratt(University Hospitals Seidman Cancer Center), Eva Corey(University of Washington), Matthew L. Freedman(Broad Institute), X. Shirley Liu(Dana-Farber Cancer Institute), Myles Brown(Harvard University), Henry W. Long(Harvard University), David P. Labbé(McGill University Health Centre)

Nature Communications

May 13, 2022

10.1038/s41467-022-30257-z

Cited by 150Open Access

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Abstract

c-MYC (MYC) is a major driver of prostate cancer tumorigenesis and progression. Although MYC is overexpressed in both early and metastatic disease and associated with poor survival, its impact on prostate transcriptional reprogramming remains elusive. We demonstrate that MYC overexpression significantly diminishes the androgen receptor (AR) transcriptional program (the set of genes directly targeted by the AR protein) in luminal prostate cells without altering AR expression. Analyses of clinical specimens reveal that concurrent low AR and high MYC transcriptional programs accelerate prostate cancer progression toward a metastatic, castration-resistant disease. Data integration of single-cell transcriptomics together with ChIP-seq uncover an increase in RNA polymerase II (Pol II) promoter-proximal pausing at AR-dependent genes following MYC overexpression without an accompanying deactivation of AR-bound enhancers. Altogether, our findings suggest that MYC overexpression antagonizes the canonical AR transcriptional program and contributes to prostate tumor initiation and progression by disrupting transcriptional pause release at AR-regulated genes.

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