发现沙利度胺的靶蛋白 CRBN：开发蛋白降解剂取得突破性进展。

Discovery of CRBN as a target of thalidomide: a breakthrough for progress in the development of protein degraders.

机构信息

School of Life Science and Technology, Tokyo Institute of Technology, Yokohama 226-8501, Japan.

Institute of Medical Science, Tokyo Medical University, Shinjuku, Tokyo 160-8402, Japan.

出版信息

Chem Soc Rev. 2022 Aug 1;51(15):6234-6250. doi: 10.1039/d2cs00116k.

DOI:10.1039/d2cs00116k

PMID:35796627

Abstract

Progress in strategies aimed at breaking down therapeutic target proteins has led to a paradigm shift in drug discovery. Thalidomide and its derivatives are the only protein degraders currently used in clinical practice. Our understanding of the molecular mechanism of action of thalidomide and its derivatives has advanced dramatically since the identification of cereblon (CRBN) as their direct target. The binding of thalidomide derivatives to CRBN, a substrate recognition receptor for Cullin 4 RING E3 ubiquitin ligase (CRL4), induces the recruitment of non-native substrates to CRL4 and their subsequent degradation. This discovery was a breakthrough in the current rapid development of protein-degrading agents because clarification of the mechanism of action of thalidomide derivatives has demonstrated the clinical value of these compounds. This review provides an overview of the mechanism of action of thalidomide and its derivatives and describes perspectives for protein degraders.

摘要

在旨在分解治疗靶蛋白的策略方面取得的进展导致了药物发现的范式转变。沙利度胺及其衍生物是目前临床实践中唯一使用的蛋白降解剂。自从鉴定出cereblon（CRBN）作为其直接靶标以来，我们对沙利度胺及其衍生物的作用机制的理解已经有了显著的提高。沙利度胺衍生物与 CRBN 的结合，CRBN 是 Cullin 4 RING E3 泛素连接酶（CRL4）的底物识别受体，诱导非天然底物募集到 CRL4 并随后降解。这一发现是当前蛋白降解剂快速发展的一个突破，因为阐明沙利度胺衍生物的作用机制证明了这些化合物的临床价值。本文综述了沙利度胺及其衍生物的作用机制，并描述了蛋白降解剂的前景。

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发现沙利度胺的靶蛋白 CRBN：开发蛋白降解剂取得突破性进展。

Discovery of CRBN as a target of thalidomide: a breakthrough for progress in the development of protein degraders.

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