基于结构设计强效且选择性的RIPK3抑制剂以消除体外脱靶毒性

Structure-based design of potent and selective inhibitors targeting RIPK3 for eliminating on-target toxicity in vitro.

作者信息

Su Haixia, Chen Guofeng, Xie Hang, Li Wanchen, Xiong Muya, He Jian, Hu Hangchen, Zhao Wenfeng, Shao Qiang, Li Minjun, Zhao Qiang, Xu Yechun

机构信息

State Key Laboratory of Drug Research, Shanghai Institute of Materia Medica, University of Chinese Academy of Sciences, Shanghai, 201203, China.

University of Chinese Academy of Sciences, Beijing, 100049, China.

出版信息

Nat Commun. 2025 May 8;16(1):4288. doi: 10.1038/s41467-025-59432-8.

DOI:10.1038/s41467-025-59432-8

PMID:40341069

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12062462/

Abstract

The essential role of RIPK3 in necroptosis makes its inhibition a promising therapeutic strategy. However, the development of RIPK3 inhibitors has been hampered by on-target apoptosis and limited kinase selectivity. Inspired by the R69H mutation, which prevents on-target apoptosis by disrupting RIPK3 dimerization, we design LK-series inhibitors that effectively inhibit RIPK3 in biochemical assays and block TNF-α-induced necroptosis in both mouse L929 and human HT29 cells without inducing apoptosis. The representative compound, LK01003, shows high selectivity across a panel of 379 kinases. Our structural studies reveal that LK compounds act as Type I inhibitors, engaging a unique hydrophobic site and stabilizing an inactive conformation of RIPK3. Moreover, several type II inhibitors are also revealed to maintain RIPK3 in the inactive conformation and do not induce on-target apoptosis. These findings suggest a promising strategy for rational design of safe and selective inhibitors by locking the inactive conformation of RIPK3.

摘要

RIPK3在坏死性凋亡中的关键作用使其抑制成为一种有前景的治疗策略。然而，RIPK3抑制剂的开发受到靶向凋亡和有限的激酶选择性的阻碍。受R69H突变的启发，该突变通过破坏RIPK3二聚化来防止靶向凋亡，我们设计了LK系列抑制剂，这些抑制剂在生化试验中有效抑制RIPK3，并在小鼠L929细胞和人HT29细胞中阻断TNF-α诱导的坏死性凋亡，而不诱导凋亡。代表性化合物LK01003在379种激酶中表现出高选择性。我们的结构研究表明，LK化合物作为I型抑制剂，占据一个独特的疏水位点并稳定RIPK3的非活性构象。此外，还发现几种II型抑制剂也能使RIPK3保持在非活性构象，且不诱导靶向凋亡。这些发现提示了一种通过锁定RIPK3的非活性构象来合理设计安全且选择性抑制剂的有前景的策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e643/12062462/446ab770f6ba/41467_2025_59432_Fig1_HTML.jpg

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基于结构设计强效且选择性的RIPK3抑制剂以消除体外脱靶毒性

Structure-based design of potent and selective inhibitors targeting RIPK3 for eliminating on-target toxicity in vitro.

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