Interactome Rewiring Following Pharmacological Targeting of BET Bromodomains

Jean‐Philippe Lambert; S. Picaud; Takao Fujisawa; Huayun Hou; P. Savitsky; Liis Uusküla-Reimand; Gagan D. Gupta; Hala Abdouni; Zhen‐Yuan Lin; Monika Tucholska; James D.R. Knight; Beatriz Gonzalez-Badillo; Nicole St‐Denis; J.A. Newman; Manuel Stucki; Laurence Pelletier; Nuno Bandeira; Michael D. Wilson; P. Filippakopoulos; Anne‐Claude Gingras

doi:10.1016/j.molcel.2018.11.006

Interactome Rewiring Following Pharmacological Targeting of BET Bromodomains

Jean‐Philippe Lambert(Lunenfeld-Tanenbaum Research Institute), S. Picaud(University of Oxford), Takao Fujisawa(University of Oxford), Huayun Hou(University of Toronto), P. Savitsky(Genomics England), Liis Uusküla-Reimand(Tallinn University of Technology), Gagan D. Gupta(Mount Sinai Hospital), Hala Abdouni(Lunenfeld-Tanenbaum Research Institute), Zhen‐Yuan Lin(Mount Sinai Hospital), Monika Tucholska(Lunenfeld-Tanenbaum Research Institute), James D.R. Knight(Lunenfeld-Tanenbaum Research Institute), Beatriz Gonzalez-Badillo(Mount Sinai Hospital), Nicole St‐Denis(Lunenfeld-Tanenbaum Research Institute), J.A. Newman(Genomics England), Manuel Stucki(University of Zurich), Laurence Pelletier(Lunenfeld-Tanenbaum Research Institute), Nuno Bandeira(University of California, San Diego), Michael D. Wilson(University of Toronto), P. Filippakopoulos(Ludwig Cancer Research), Anne‐Claude Gingras(Mount Sinai Hospital)

Molecular Cell

December 13, 2018

10.1016/j.molcel.2018.11.006

Cited by 188Open Access

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Abstract

Targeting bromodomains (BRDs) of the bromo-and-extra-terminal (BET) family offers opportunities for therapeutic intervention in cancer and other diseases. Here, we profile the interactomes of BRD2, BRD3, BRD4, and BRDT following treatment with the pan-BET BRD inhibitor JQ1, revealing broad rewiring of the interaction landscape, with three distinct classes of behavior for the 603 unique interactors identified. A group of proteins associate in a JQ1-sensitive manner with BET BRDs through canonical and new binding modes, while two classes of extra-terminal (ET)-domain binding motifs mediate acetylation-independent interactions. Last, we identify an unexpected increase in several interactions following JQ1 treatment that define negative functions for BRD3 in the regulation of rRNA synthesis and potentially RNAPII-dependent gene expression that result in decreased cell proliferation. Together, our data highlight the contributions of BET protein modules to their interactomes allowing for a better understanding of pharmacological rewiring in response to JQ1.

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