Discovery of a potent BTK and IKZF1/3 triple degrader through reversible covalent BTK PROTAC development

Xin Yu , Wen-Hao Guo , Hanfeng Lin , Ran Cheng , Erika Y. Monroy , Feng Jin , Lang Ding , Dong Lu , Xiaoli Qi , Meng C. Wang , Jin Wang
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引用次数: 2

Abstract

Building on our previous work on ibrutinib-based reversible covalent Bruton's tyrosine kinase (BTK) PROTACs, we explored a different irreversible BTK inhibitor poseltinib as the BTK binder for PROTAC development. Different from ibrutinib, converting the irreversible cysteine reacting acrylamide group of poseltinib to a reversible covalent cyano-acrylamide group dramatically decreases the binding affinity to BTK by over 700 folds. Interestingly, one of the reversible covalent BTK PROTACs based on poseltinib with a rigid linker, dubbed as PS-RC-1, is highly potent (IC50 ​= ​∼10 ​nM) in Mino cells but not in other mantle cell lymphoma (MCL) cell lines, such as Jeko-1 and Rec-R cells. We showed that PS-RC-1 potently induces degradation of IKZF1 and IKZF3 but not BTK or GSPT1, accounting for its toxicity in Mino cells. We further decreased the molecular size of PS-RC-1 by shrinking the BTK binding moiety and developed PS-2 as a potent BTK and IKZF1/3 triple degrader with high specificity.

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通过可逆共价BTK PROTAC开发有效的BTK和IKZF1/3三重降解剂
基于我们之前基于依鲁替尼的可逆共价布鲁顿酪氨酸激酶(BTK) PROTACs的研究,我们探索了一种不同的不可逆BTK抑制剂波塞替尼作为PROTAC开发的BTK结合剂。与依鲁替尼不同,将泊西替尼的不可逆半胱氨酸反应丙烯酰胺基团转化为可逆共价氰基丙烯酰胺基团,可使其与BTK的结合亲和力降低700倍以上。有趣的是,一种基于波西替尼的可逆共价BTK PROTACs(带有刚性连接体)被称为PS-RC-1,在Mino细胞中是高效的(IC50 = ~ 10 nM),但在其他套细胞淋巴瘤(MCL)细胞系,如Jeko-1和Rec-R细胞中没有。我们发现PS-RC-1能有效诱导IKZF1和IKZF3的降解,但不能诱导BTK或GSPT1的降解,这解释了它对Mino细胞的毒性。我们通过缩小BTK结合片段进一步减小PS-RC-1的分子大小,并开发出PS-2作为高特异性的BTK和IKZF1/3三重降解物。
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来源期刊
Current research in chemical biology
Current research in chemical biology Biochemistry, Genetics and Molecular Biology (General)
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