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Modulation of androgen receptor DNA binding activity through direct interaction with the ETS transcription factor ERG.


ABSTRACT: The androgen receptor (AR) is a type I nuclear hormone receptor and the primary drug target in prostate cancer due to its role as a lineage survival factor in prostate luminal epithelium. In prostate cancer, the AR cistrome is reprogrammed relative to normal prostate epithelium and particularly in cancers driven by oncogenic ETS fusion genes. The molecular basis for this change has remained elusive. Using purified proteins, we report a minimal cell-free system that demonstrates interdomain cooperativity between the ligand (LBD) and DNA binding domains (DBD) of AR, and its autoinhibition by the N terminus of AR. Furthermore, we identify ERG as a cofactor that activates AR's ability to bind DNA in both high and lower affinity contexts through direct interaction within a newly identified AR-interacting motif (AIM) in the ETS domain, independent of ERG's own DNA binding ability. Finally, we present evidence that this interaction is conserved among ETS factors whose expression is altered in prostate cancer. Our work highlights, at a biochemical level, how tumor-initiating ETS translocations result in reprogramming of the AR cistrome.

SUBMITTER: Wasmuth EV 

PROVIDER: S-EPMC7165421 | biostudies-literature | 2020 Apr

REPOSITORIES: biostudies-literature

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Modulation of androgen receptor DNA binding activity through direct interaction with the ETS transcription factor ERG.

Wasmuth Elizabeth V EV   Hoover Elizabeth A EA   Antar Albert A   Klinge Sebastian S   Chen Yu Y   Sawyers Charles L CL  

Proceedings of the National Academy of Sciences of the United States of America 20200327 15


The androgen receptor (AR) is a type I nuclear hormone receptor and the primary drug target in prostate cancer due to its role as a lineage survival factor in prostate luminal epithelium. In prostate cancer, the AR cistrome is reprogrammed relative to normal prostate epithelium and particularly in cancers driven by oncogenic ETS fusion genes. The molecular basis for this change has remained elusive. Using purified proteins, we report a minimal cell-free system that demonstrates interdomain coope  ...[more]

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