ERG signaling in prostate cancer is driven through PRMT5-dependent methylation of the Androgen Receptor

Zineb Mounir; Joshua M. Korn; Thomas Westerling; Fallon Lin; C.A. Kirby; Markus Schirle; Gregg McAllister; Greg Hoffman; Nadire Ramadan; Anke Hartung; Feng Yan; D. Randal Kipp; Christopher Quinn; Michelle Fodor; Jason R. Baird; Marie Schoumacher; Ronald A. Meyer; James Deeds; Gilles Buchwalter; Travis Stams; Nicholas Keen; William R. Sellers; Myles Brown; Raymond Pagliarini

doi:10.7554/elife.13964

ERG signaling in prostate cancer is driven through PRMT5-dependent methylation of the Androgen Receptor

Zineb Mounir(Novartis (United States)), Joshua M. Korn(Novartis (United States)), Thomas Westerling(Harvard University), Fallon Lin(Novartis (United States)), C.A. Kirby, Markus Schirle(Pathways Behavioral Services), Gregg McAllister(Pathways Behavioral Services), Greg Hoffman(Pathways Behavioral Services), Nadire Ramadan(Pathways Behavioral Services), Anke Hartung(Genomics Institute of the Novartis Research Foundation), Feng Yan(Pathways Behavioral Services), D. Randal Kipp(Novartis (United States)), Christopher Quinn(Novartis (United States)), Michelle Fodor(Novartis (United States)), Jason R. Baird(Novartis (United States)), Marie Schoumacher(Novartis (United States)), Ronald A. Meyer(Novartis (United States)), James Deeds(Novartis (United States)), Gilles Buchwalter(Harvard University), Travis Stams, Nicholas Keen(Novartis (United States)), William R. Sellers(Novartis (United States)), Myles Brown(Harvard University), Raymond Pagliarini(Novartis (United States))

eLife

May 16, 2016

10.7554/elife.13964

Cited by 74Open Access

Full Text

Abstract

The TMPRSS2:ERG gene fusion is common in androgen receptor (AR) positive prostate cancers, yet its function remains poorly understood. From a screen for functionally relevant ERG interactors, we identify the arginine methyltransferase PRMT5. ERG recruits PRMT5 to AR-target genes, where PRMT5 methylates AR on arginine 761. This attenuates AR recruitment and transcription of genes expressed in differentiated prostate epithelium. The AR-inhibitory function of PRMT5 is restricted to TMPRSS2:ERG-positive prostate cancer cells. Mutation of this methylation site on AR results in a transcriptionally hyperactive AR, suggesting that the proliferative effects of ERG and PRMT5 are mediated through attenuating AR's ability to induce genes normally involved in lineage differentiation. This provides a rationale for targeting PRMT5 in TMPRSS2:ERG positive prostate cancers. Moreover, methylation of AR at arginine 761 highlights a mechanism for how the ERG oncogene may coax AR towards inducing proliferation versus differentiation.

Related Papers

No related papers found

Powered by citation graph analysis