In vitro and in silico studies of holothurin A on androgen receptor in prostate cancer.

Abstract

The androgen receptor (AR) plays a crucial role in the growth of prostate cancer, and has long been considered the cancer s primary strategic therapeutic target. However, despite the early susceptibility, patients receiving hormonal therapy targeting AR are likely to develops resistance to the treatment and progresses to the castration-resistant stage as a consequence of the mutation at the ligand binding pocket of AR. Interestingly, the surface pocket of the AR called binding function 3 (BF3) has been reported as a great benefit for treating a recurrent tumor. Herein, we investigate the potential of using a marine triterpenoid saponin, holothurin A, on targeting AR expression of prostate cancer using in vitro and in silico studies. Holothurin A reduced the PSA expression, leading to the growth inhibition of androgen sensitive prostate cancer cell line through a downregulation of AR activity. The molecular docking study demonstrated that holothurin A could bind strongly in the BF3 pocket by energetically favorable hydrogen acceptor and hydrophobic with a calculated binding affinity of -13.90\u2009kcal/mol. Molecular dynamics simulations provided the additional evidence that holothurin A can form a stable complex with the BF3 pocket through the hydrophobic interactions with VAL676, ILE680, and ALA721. As a consequence, holothurin A modulates the activation function-2 (AF2) site of the AR through repositioning of the residues in the AF2 pocket. Targeting alternatives sites on the surface of AR via holothurin A will provide a potential candidate for future prostate cancer treatment.Communicated by Ramaswamy H. Sarma.