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1.
Acta Pharmacol Sin ; 44(7): 1500-1518, 2023 Jul.
Article in English | MEDLINE | ID: mdl-36639570

ABSTRACT

As a major class of medicine for treating the lethal type of castration-resistant prostate cancer (PCa), long-term use of androgen receptor (AR) antagonists commonly leads to antiandrogen resistance. When AR signaling pathway is blocked by AR-targeted therapy, glucocorticoid receptor (GR) could compensate for AR function especially at the late stage of PCa. AR-GR dual antagonist is expected to be a good solution for this situation. Nevertheless, no effective non-steroidal AR-GR dual antagonist has been reported so far. In this study, an AR-GR dual binder H18 was first discovered by combining structure-based virtual screening and biological evaluation. Then with the aid of computationally guided design, the AR-GR dual antagonist HD57 was finally identified with antagonistic activity towards both AR (IC50 = 0.394 µM) and GR (IC50 = 17.81 µM). Moreover, HD57 could effectively antagonize various clinically relevant AR mutants. Further molecular dynamics simulation provided more atomic insights into the mode of action of HD57. Our research presents an efficient and rational strategy for discovering novel AR-GR dual antagonists, and the new scaffold provides important clues for the development of novel therapeutics for castration-resistant PCa.


Subject(s)
Androgen Antagonists , Prostatic Neoplasms , Male , Humans , Androgen Antagonists/pharmacology , Receptors, Glucocorticoid/metabolism , Receptors, Androgen/metabolism , Androgen Receptor Antagonists/pharmacology , Prostatic Neoplasms/metabolism , Cell Line, Tumor
2.
Acta Pharmacol Sin ; 43(1): 229-239, 2022 Jan.
Article in English | MEDLINE | ID: mdl-33767381

ABSTRACT

Androgen receptor (AR), a ligand-activated transcription factor, is a master regulator in the development and progress of prostate cancer (PCa). A major challenge for the clinically used AR antagonists is the rapid emergence of resistance induced by the mutations at AR ligand binding domain (LBD), and therefore the discovery of novel anti-AR therapeutics that can combat mutation-induced resistance is quite demanding. Therein, blocking the interaction between AR and DNA represents an innovative strategy. However, the hits confirmed targeting on it so far are all structurally based on a sole chemical scaffold. In this study, an integrated docking-based virtual screening (VS) strategy based on the crystal structure of the DNA binding domain (DBD) of AR was conducted to search for novel AR antagonists with new scaffolds and 2-(2-butyl-1,3-dioxoisoindoline-5-carboxamido)-4,5-dimethoxybenzoicacid (Cpd39) was identified as a potential hit, which was competent to block the binding of AR DBD to DNA and showed decent potency against AR transcriptional activity. Furthermore, Cpd39 was safe and capable of effectively inhibiting the proliferation of PCa cell lines (i.e., LNCaP, PC3, DU145, and 22RV1) and reducing the expression of the genes regulated by not only the full-length AR but also the splice variant AR-V7. The novel AR DBD-ARE blocker Cpd39 could serve as a starting point for the development of new therapeutics for castration-resistant PCa.


Subject(s)
Androgen Receptor Antagonists/pharmacology , DNA/antagonists & inhibitors , Drug Discovery , Molecular Docking Simulation , Receptors, Androgen/metabolism , Androgen Receptor Antagonists/chemistry , Binding Sites/drug effects , DNA/chemistry , Dose-Response Relationship, Drug , Drug Evaluation, Preclinical , Humans , Molecular Structure , Receptors, Androgen/chemistry , Structure-Activity Relationship
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