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Structure-activity relationship study of THZ531 derivatives enables the discovery of BSJ-01-175 as a dual CDK12/13 covalent inhibitor with efficacy in Ewing sarcoma.

European journal of medicinal chemistry

Authors: Baishan Jiang, Jie Jiang, Ines H Kaltheuner, Amanda Balboni Iniguez, Kanchan Anand, Fleur M Ferguson, Scott B Ficarro, Bo Kyung Alex Seong, Ann Katrin Greifenberg, Sofia Dust, Nicholas P Kwiatkowski, Jarrod A Marto, Kimberly Stegmaier, Tinghu Zhang, Matthias Geyer, Nathanael S Gray

Development of inhibitors targeting CDK12/13 is of increasing interest as a potential therapy for cancers as these compounds inhibit transcription of DNA damage response (DDR) genes. We previously described THZ531, a covalent inhibitor with selectivity for CDK12/13. In order to elucidate structure-activity relationship (SAR), we have undertaken a medicinal chemistry campaign and established a focused library of THZ531 analogs. Among these analogs, BSJ-01-175 demonstrates exquisite selectivity, potent inhibition of RNA polymerase II phosphorylation, and downregulation of CDK12-targeted genes in cancer cells. A 3.0 Å co-crystal structure with CDK12/CycK provides a structural rational for selective targeting of Cys1039 located in a C-terminal extension from the kinase domain. With moderate pharmacokinetic properties, BSJ-01-175 exhibits efficacy against an Ewing sarcoma tumor growth in a patient-derived xenograft (PDX) mouse model following 10 mg/kg once a day, intraperitoneal administration. Taken together, BSJ-01-175 represents the first selective CDK12/13 covalent inhibitor with in vivo efficacy reported to date.

Copyright © 2021 Elsevier Masson SAS. All rights reserved.

PMID: 33945934

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