Abstract
The androgen receptor (AR) plays a predominant role in prostate cancer (PCa) pathology. It consists of an N-terminal domain (NTD), a DNA-binding domain (DBD), a hinge region (HR), and a ligand-binding domain (LBD) that binds androgens, including testosterone (T) and dihydrotestosterone (DHT). Ligand binding at the LBD promotes AR dimerization and translocation to the nucleus where the DBD binds target DNA. In PCa, AR signaling is perturbed by excessive androgen synthesis, AR amplification, mutation, or the formation of AR alternatively spliced variants (AR-V) that lack the LBD. Current therapies for advanced PCa include androgen synthesis inhibitors that suppress T and/or DHT synthesis, and AR inhibitors that prevent ligand binding at the LBD. However, AR mutations and AR-Vs render LBD-specific therapeutics ineffective. The DBD and NTD are novel targets for inhibition as both perform necessary roles in AR transcriptional activity and are less susceptible to AR alternative splicing compared to the LBD. DBD and NTD inhibition can potentially extend patient survival, improve quality of life, and overcome predominant mechanisms of resistance to current therapies. This review discusses various small molecule and other inhibitors developed against the DBD and NTD—and the current state of the available compounds in clinical development.
Highlights
The prostate gland, located beneath the bladder, secretes alkaline prostatic fluid that constitutes30% of the semen [1]
The 90 kb androgen receptor (AR) gene is located on Xq11-12 and encodes a 110 kDa, 920 amino acid protein that consists of a N-terminal domain (NTD), a DNA-binding domain (DBD), (DBD), a hinge region (HR), and a
The AR can acquire modifications throughout all domains, with phosphorylation and SUMOylation sites concentrated in the NTD, acetylation and methylation sites in the DBD, and ubiquitination sites localized mostly to the ligand-binding domain (LBD) [58]
Summary
The prostate gland, located beneath the bladder, secretes alkaline prostatic fluid that constitutes. Basal, and neuroendocrine cells constitute the normal prostate epithelia in a roughly 60:40:1 ratio [2]. Biomedicines 2020, 8, 422 cells constitute the normal prostate epithelia in a roughly 60:40:1 ratio [2]. >99% of PCa, theofratio of luminal basal percentages are greatly the luminal cells constituting the tumor [2]. (Right) Cancer is characterized bybyluminal new glands, glands, loss loss of of basal basalcells, cells, luminalhyperproliferation hyperproliferationresulting resulting in in the the formation formation of of multiple multiple new breakdown breakdownofofbasement basementmembrane, membrane,prominent prominentnucleoli nucleoli(green),. Among men worldwide and in the United States, PCa is a leading contributor to overall cancer. Among men worldwide and in the United States, PCa is a leading contributor to overall cancer incidence [5]. [6].[6]
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