Chemoproteomic Profiling of an Ibrutinib Analogue Reveals its Unexpected Role in DNA Damage Repair.

Ibrutinib is an FDA-approved drug to treat B-lymphoid malignancies, which functions mechanistically as a covalent inhibitor for Bruton's tyrosine kinase (BTK). During the course of screening more potent and selective BTK inhibitors, we discovered that MM2-48, an ibrutinib analogue that contains the alkynyl amide functional group in place of the acrylamide warhead, exhibits a much stronger cytotoxicity. Comparative chemoproteomic profiling of the targets of ibrutinib and MM2-48 revealed that the alkynyl amide warhead exhibits much higher reactivity in proteomes. Unexpectedly, MM2-48 covalently targets a functional cysteine in a BRCA2 and CDKN1A-interacting protein, BCCIP, and significantly inhibits DNA damage repair. Our findings suggest that simultaneous inhibition of BTK activity and DNA damage repair might be a more effective therapeutic strategy for combating B-cell malignancies.