Development of a selective CDK9 degrader from a multi-targeted CDK inhibitor [ChIP-seq]
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ABSTRACT: Cyclin dependent kinase 9 (CDK9), a key regulator of transcriptional elongation, has long been considered a promising target for cancer therapy, particularly for cancers driven by transcriptional dysregulation. However, despite promising early clinical data in blood cancers using pan-CDK inhibitors that potently inhibit CDK9 such as Dinaciclib and Flavopiridol, no selective CDK9 inhibitors have been clinically approved. Here we show that a multi-targeted CDK inhibitor can be used to develop a selective CDK9 degrader exemplified by THAL-SNS-032, a hetero-bifunctional molecule composed of SNS-032, a CDK2,7,9 inhibitor conjugated to thalidomide, a small molecule binder of Cereblon. We demonstrate that THAL-SNS-032 can recruit the E3 ubiquitin ligase Cereblon to CDK9 and induce its proteasome-mediated degradation. Treatment of cells with low nanomolar concentrations of THAL-SNS-032 resulted in rapid and efficient CDK9 degradation but did not affect levels of other SNS-032 targets, including CDK2 and CDK7. Consistent with this selective degradation phenotype, transcriptional profiling of THAL-SNS-032 indicated that its transcriptional effects were more similar to that of a selective CDK9 inhibitor, NVP2, than that of the nonselective SNS-032 parent compound. Moreover, THAL-SNS-032, in contrast to traditional CDK9 inhibitors, retained potent pro-apoptotic activity even after compound removal from cells. This suggests that degradation of CDK9 leads to prolonged cytotoxic effects as compared to CDK9 inhibition. Thus, our findings suggest that thalidomide conjugation may be a promising strategy for converting multi-targeting inhibitors into selective degraders, and that the pharmacological effects of kinase degradation can be distinct from kinase inhibition.
ORGANISM(S): Homo sapiens
PROVIDER: GSE89384 | GEO | 2017/09/01
SECONDARY ACCESSION(S): PRJNA352097
REPOSITORIES: GEO
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