分析新底物中对分子胶降解剂的耐药性突变情况。

Profiling the Landscape of Drug Resistance Mutations in Neosubstrates to Molecular Glue Degraders.

作者信息

Gosavi Pallavi M, Ngan Kevin C, Yeo Megan J R, Su Cindy, Li Jiaming, Lue Nicholas Z, Hoenig Samuel M, Liau Brian B

机构信息

Department of Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts 02138, United States.

Broad Institute of Harvard and MIT, Cambridge, Massachusetts 02142, United States.

出版信息

ACS Cent Sci. 2022 Apr 27;8(4):417-429. doi: 10.1021/acscentsci.1c01603. Epub 2022 Feb 14.

DOI:10.1021/acscentsci.1c01603

PMID:35505873

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9052798/

Abstract

Targeted protein degradation (TPD) holds immense promise for drug discovery, but mechanisms of acquired resistance to degraders remain to be fully identified. Here, we used clustered regularly interspaced short palindromic repeats (CRISPR)-suppressor scanning to identify mechanistic classes of drug resistance mutations to molecular glue degraders in GSPT1 and RBM39, neosubstrates targeted by E3 ligase substrate receptors cereblon and DCAF15, respectively. While many mutations directly alter the ternary complex heterodimerization surface, distal resistance sites were also identified. Several distal mutations in RBM39 led to modest decreases in degradation, yet can enable cell survival, underscoring how small differences in degradation can lead to resistance. Integrative analysis of resistance sites across GSPT1 and RBM39 revealed varying levels of sequence conservation and mutational constraint that control the emergence of different resistance mechanisms, highlighting that many regions co-opted by TPD are nonessential. Altogether, our study identifies common resistance mechanisms for molecular glue degraders and outlines a general approach to survey neosubstrate requirements necessary for effective degradation.

摘要

靶向蛋白降解（TPD）在药物发现方面具有巨大潜力，但对降解剂获得性耐药的机制仍有待全面确定。在这里，我们使用成簇规律间隔短回文重复序列（CRISPR）抑制子扫描来确定对GSPT1和RBM39中分子胶降解剂耐药突变的机制类别，GSPT1和RBM39分别是E3连接酶底物受体cereblon和DCAF15靶向的新底物。虽然许多突变直接改变三元复合物异二聚化表面，但也发现了远端耐药位点。RBM39中的几个远端突变导致降解略有下降，但能使细胞存活，这突出了降解的微小差异如何导致耐药。对GSPT1和RBM39中耐药位点的综合分析揭示了控制不同耐药机制出现的不同程度的序列保守性和突变限制，强调了TPD选择的许多区域并非必需。总之，我们的研究确定了分子胶降解剂的常见耐药机制，并概述了一种调查有效降解所需新底物要求的通用方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ed76/9052798/7f73a6f8cad8/oc1c01603_0001.jpg

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分析新底物中对分子胶降解剂的耐药性突变情况。

Profiling the Landscape of Drug Resistance Mutations in Neosubstrates to Molecular Glue Degraders.

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