Moreover, intravenous administration of dCDK9-202 effectively inhibits TC-71 tumor growth without any signs of toxicity in mice. This promising CDK9 degrader dCDK9-202 has a high potential for advanced preclinical development in the treatment of CDK9-addicted human cancers.

Overall, incorporating THAL-SNS-032 into nanomedicines offers a comprehensive approach with potential benefits in dose optimization, safety, and targeted delivery. These findings support the further development of nanomedicine-based PROTAC therapies for cancer treatment.

Importantly, degradation is more effective at disrupting MYC transcriptional regulation and subsequently destabilizing nucleolar homeostasis, likely by abrogation of both enzymatic and scaffolding functions of CDK9. These findings suggest that CDK9 degradation offers a more robust strategy to overcome limitations associated with its inhibition.

In this study, a potent and selective CDK9 degrader, C3, was developed through PROTAC modification of the CDK9 inhibitor, AT-7519...Our findings indicate that the targeted degradation of CDK9 could become a viable strategy for treating SCLC, highlighting its potential therapeutic value. Additionally, this research offers a general structural optimization and evaluation strategy to improve the degradative selectivity, metabolic stability, and oral availability of PROTAC molecules.

Furthermore, compound 29 displayed favorable oral bioavailability in mice, and oral administration of degrader 29 significantly depleted CDK9 protein in TNBC tumor tissues and exhibited tumor growth inhibition in TNBC xenograft mice models. Collectively, our work established that degrader 29 is a highly potent and selective degraders of CDK9 with satisfactory oral bioavailability, which holds promising potential for the treatment of TNBC.

Moreover, CP-07 exhibited significant tumor growth inhibition with a TGI of 75.1% when administered at a dose of 20 mg/kg in the 22RV1 xenograft tumor model. These findings demonstrated the potential of CP-07 as a powerful flavonoid-based CDK9 degrader for prostate cancer therapy.

In prostate cancer cells, LL-CDK9-12 showed enhanced anti-proliferative activity than its parental molecule SNS032 and LL-K9-3, the previous reported CDK9-cyclin T1 degrader...Altogether, LL-CDK9-12 was an effective dual degrader of CDK9-cyclin T1 and helped study the unknown function of CDK9-cyclin T1. These results suggest that HyT-based degraders could be used as a strategy to induce the degradation of protein complexes, providing insights for the design of protein complexes' degraders.

In this study, a series of protein degraders was developed, employing the clinically tested CDK inhibitor AT7519. The purpose of this study was to examine the effect that linker composition, specifically chain length, would have on potency. In addition to establishing a baseline of activity for various linker compositions, two distinct homologous series, a fully alkyl series and an amide-containing series, were prepared, demonstrating the dependence of degrader potency in these series on linker length and the correlation with predicted physicochemical properties.

Moreover, knockdown CDK9 by shRNA inhibited proliferation and survival, both in MM tumor cell- and tumor cell/BMSC co-cultures. Rationally derived combination strategies of Thal-sns-032 with venetoclax, navitoclax, Selinexor or Carfilzomib as well as other investigational and established MM therapies induced synergistic anti-MM effects in MM cells or BMSC co-cultures.Conclusion : In summary, by delineating CDK9-regulated molecular events in MM, our studies strongly support the therapeutic role of targeted CDK9-therapy and rationally derived MM combination treatment strategies.

Based on previously developed competitive inhibitor of FLT3 and CDK9, we have designed and prepared a novel pomalidomide-based PROTAC...Moreover, transcriptional repression caused by CDK9 degradation significantly reduced expression of crucial genes involved in AML pathogenesis. The obtained results indicate the beneficial impact of simultaneous FLT3-ITD/CDK9 degradation for AML therapy.