Discovery of a Novel Bifunctional Steroid Analog, YXG-158, as an Androgen Receptor Degrader and CYP17A1 Inhibitor for the Treatment of Enzalutamide-Resistant Prostate Cancer.

The androgen/androgen receptor (AR) signaling pathway plays an important role in castration-resistant prostate cancer (CRPC). Bifunctional agents that simultaneously degrade AR and inhibit androgen synthesis are expected to block the androgen/AR signaling pathway more thoroughly, demonstrating the promising therapeutic potential for CRPC, even enzalutamide-resistant CRPC. Herein, a series of steroid analogs were designed, synthesized, and identified as selective AR degraders, among which YXG-158 (23-h) was the most potent antitumor compound with dual functions of AR degradation and CYP17A1 inhibition. In addition, 23-h abrogated the hERG inhibition and exhibited excellent PK profiles. In vivo, 23-h effectively inhibited the growth of hormone-sensitive organs in the Hershberger assay and exhibited robust antitumor efficacy both in enzalutamide-sensitive (LNCaP/AR) and enzalutamide-resistant (C4-2b-ENZ) xenograft models. Thus, 23-h was chosen as a preclinical candidate for the treatment of enzalutamide-resistant prostate cancer.

Design, Synthesis, and Biological Evaluation of Androgen Receptor Degrading and Antagonizing Bifunctional Steroidal Analogs for the Treatment of Advanced Prostate Cancer.

Metastatic castration-resistant prostate cancer (mCRPC) with high mortality has seriously threatened men's health. Bifunctional agents simultaneously degrade and antagonize androgen receptor (AR), display robust AR signaling pathway blockade, and show the therapeutic prospect for mCRPC. Herein, systemic structural modifications on the C-3, C-6, and C-17 positions of galeterone led to the discovery of 67-b with the dual functions of AR antagonism and degradation. In vitro, 67-b exhibited excellent antiproliferative activity and potent AR degradation activity in different PCa cells (LNCaP and 22RV1), as well as outstanding antagonistic activity against wild-type and mutant (W741L, T877A, and F876L) ARs. In vivo, 67-b effectively inhibited the growth of hormone-sensitive organs in the Hershberger assay and exhibited tumor regression in the enzalutamide-resistant (c4-2b-ENZ) xenograft model. These results confirmed 67-b to be a promising AR degrader and antagonist for the treatment of mCRPC patients.