靶向溴结构域-植物同源结构域手指家族的溴结构域可选择性地损害破骨细胞分化。

Selective Targeting of Bromodomains of the Bromodomain-PHD Fingers Family Impairs Osteoclast Differentiation.

作者信息

Meier Julia C, Tallant Cynthia, Fedorov Oleg, Witwicka Hanna, Hwang Sung-Yong, van Stiphout Ruud G, Lambert Jean-Philippe, Rogers Catherine, Yapp Clarence, Gerstenberger Brian S, Fedele Vita, Savitsky Pavel, Heidenreich David, Daniels Danette L, Owen Dafydd R, Fish Paul V, Igoe Niall M, Bayle Elliott D, Haendler Bernard, Oppermann Udo C T, Buffa Francesca, Brennan Paul E, Müller Susanne, Gingras Anne Claude, Odgren Paul R, Birnbaum Mark J, Knapp Stefan

机构信息

Target Discovery Institute and Structural Genomics Consortium, Oxford University , Oxford, United Kingom.

Department of Cell and Developmental Biology, University of Massachusetts Medical School , Worcester, Massachusetts, United States.

出版信息

ACS Chem Biol. 2017 Oct 20;12(10):2619-2630. doi: 10.1021/acschembio.7b00481. Epub 2017 Sep 12.

DOI:10.1021/acschembio.7b00481

PMID:28849908

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5662925/

Abstract

Histone acetyltransferases of the MYST family are recruited to chromatin by BRPF scaffolding proteins. We explored functional consequences and the therapeutic potential of inhibitors targeting acetyl-lysine dependent protein interaction domains (bromodomains) present in BRPF1-3 in bone maintenance. We report three potent and selective inhibitors: one (PFI-4) with high selectivity for the BRPF1B isoform and two pan-BRPF bromodomain inhibitors (OF-1, NI-57). The developed inhibitors displaced BRPF bromodomains from chromatin and did not inhibit cell growth and proliferation. Intriguingly, the inhibitors impaired RANKL-induced differentiation of primary murine bone marrow cells and human primary monocytes into bone resorbing osteoclasts by specifically repressing transcriptional programs required for osteoclastogenesis. The data suggest a key role of BRPF in regulating gene expression during osteoclastogenesis, and the excellent druggability of these bromodomains may lead to new treatment strategies for patients suffering from bone loss or osteolytic malignant bone lesions.

摘要

MYST家族的组蛋白乙酰转移酶通过BRPF支架蛋白被招募到染色质上。我们探索了靶向BRPF1 - 3中存在的乙酰赖氨酸依赖性蛋白相互作用结构域（溴结构域）的抑制剂在骨骼维持中的功能后果和治疗潜力。我们报告了三种强效且选择性的抑制剂：一种对BRPF1B异构体具有高选择性的抑制剂（PFI - 4）和两种泛BRPF溴结构域抑制剂（OF - 1、NI - 57）。所开发的抑制剂将BRPF溴结构域从染色质上置换下来，并且不抑制细胞生长和增殖。有趣的是，这些抑制剂通过特异性抑制破骨细胞生成所需的转录程序，损害了RANKL诱导的原代小鼠骨髓细胞和人原代单核细胞向骨吸收破骨细胞的分化。数据表明BRPF在破骨细胞生成过程中调节基因表达方面起关键作用，并且这些溴结构域优异的可成药性可能会为患有骨质流失或溶骨性恶性骨病变的患者带来新的治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7f18/5662925/19e9846603ac/cb-2017-00481p_0001.jpg

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靶向溴结构域-植物同源结构域手指家族的溴结构域可选择性地损害破骨细胞分化。

Selective Targeting of Bromodomains of the Bromodomain-PHD Fingers Family Impairs Osteoclast Differentiation.

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