Abstract

Abstract CDK8 and CDK19 are kinase components of the CDK module that comprises CDK8 or CDK19 together with their binding partner cyclin C (CCNC) and two other proteins; the CDK module is associated with transcriptional Mediator complex. CDK8/19 Mediator kinases potentiate transcription induced by different signals, regulate protein levels of Mediator complex components and protect CCNC from proteolytic degradation; the latter activity is exerted in a kinase-independent manner. CDK8/19 kinase inhibitors have entered clinical trials for solid tumors and leukemias. To extend the effects of CDK8/19 inhibition and to suppress their kinase-independent activities, we have developed three series of PROteolysis TArgeting Chimeras (PROTACs) based on different selective inhibitors of CDK8/19 kinases, connected via different linkers to a moiety binding cereblon (CRBN) E3 ligase. The most potent PROTACs degraded both CDK8 and CDK19 in different cell types with DC50s of 10-20 nM. RNA-Seq analysis of 293 cells treated with a CDK8/19 kinase inhibitor or PROTAC showed that the bulk of the PROTAC’s transcriptomic effects matched the effects of the kinase inhibitor. In contrast to the kinase inhibitors, CDK8/19-degrading PROTACs also induced CCNC degradation. Cancer Dependency Map (DepMap) analysis revealed that multiple myelomas (MM), where CRBN is an established therapeutic target, show greater dependency on CCNC than most of the tumor cell lines. We have tested two strongly CCNC-dependent MM cell lines and one CCNC-independent MM line for sensitivity to different CDK8/19 kinase inhibitors and PROTACs. Kinase inhibitors showed low to moderate anti-proliferative activity in all three MM lines, whereas CDK8/19 PROTACs were an order of magnitude more potent than the kinase inhibitors in the two CCNC-dependent MM lines (IC50s of 20-30 nM) but not in the CCNC-independent line. The effects of CDK8/19-degrading PROTACs were stronger than those of the CRBN-targeting drug pomalidomide (approved for MM), a CRBN-binding PROTAC acting on androgen receptor or a CDK8 degradation-inactive PROTAC analog containing CDK8/19- and CRBN-binding moieties. These results suggest the potential of CDK8/CDK19-degrading PROTACs for the treatment of MM. Citation Format: Li Zhang, Jing Li, Charles E. Dowling, Eugenia V. Broude, Igor B. Roninson, Campbell McInnes, Mengqian Chen. PROTAC degraders of CDK8/CDK19 Mediator kinases potently suppress multiple myeloma proliferation. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 5018.

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