Cyclin-dependent kinases 12 and 13 (CDK12 and 13) play critical roles in the regulation of gene transcription. However, the absence of CDK12 and 13 inhibitors has hindered the ability to investigate the consequences of their inhibition in healthy cells and cancer cells. Here we describe the rational design of a first-in-class CDK12 and 13 covalent inhibitor, THZ531. Co-crystallization with CDK12-cyclin K indicates that THZ531 irreversibly targets a cysteine located outside the kinase domain. THZ531 causes a loss of gene expression with concurrent loss of elongating and hyperphosphorylated RNA polymerase II. In particular, THZ531 substantially decreases the expression of DNA damage response genes and key super–enhancer–associated transcription factor genes. Coincident with transcriptional perturbation, THZ531 dramatically induced apoptotic cell death. Small molecules capable of specifically targeting CDK12 and 13 may thus help identify cancer subtypes that are particularly dependent on their kinase activities.
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