Litcius/Paper detail

Discovery of Novel Anti‐Resistance AR Antagonists Guided by Funnel Metadynamics Simulation

Haiyi Chen, Yuxin Zhou, Xinyue Wang, Xin Chai, Zhe Wang, Ercheng Wang, Lei Xu, Tingjun Hou, Dan Li, Mojie Duan

2024Advanced Science11 citationsDOIOpen Access PDF

Abstract

Androgen receptor (AR) antagonists are widely used for the treatment of prostate cancer (PCa), but their therapeutic efficacy is usually compromised by the rapid emergence of drug resistance. However, the lack of the detailed interaction between AR and its antagonists poses a major obstacle to the design of novel AR antagonists. Here, funnel metadynamics is employed to elucidate the inherent regulation mechanisms of three AR antagonists (hydroxyflutamide, enzalutamide, and darolutamide) on AR. For the first time it is observed that the binding of antagonists significantly disturbed the C-terminus of AR helix-11, thereby disrupting the specific internal hydrophobic contacts of AR-LBD and correspondingly the communication between AR ligand binding pocket (AR-LBP), activation function 2 (AF2), and binding function 3 (BF3). The subsequent bioassays verified the necessity of the hydrophobic contacts for AR function. Furthermore, it is found that darolutamide, a newly approved AR antagonist capable of fighting almost all reported drug resistant AR mutants, can induce antagonistic binding structure. Subsequently, docking-based virtual screening toward the dominant binding conformation of AR for darolutamide is conducted, and three novel AR antagonists with favorable binding affinity and strong capability to combat drug resistance are identified by in vitro bioassays. This work provides a novel rational strategy for the development of anti-resistant AR antagonists.

Topics & Concepts

EnzalutamideAndrogen receptorVirtual screeningDocking (animal)PharmacologyChemistryDrug discoveryBinding siteComputational biologyProstate cancerBiophysicsBiologyMedicineBiochemistryCancerGeneticsNursingProstate Cancer Treatment and ResearchEstrogen and related hormone effectsMass Spectrometry Techniques and Applications