Prostatic androgen receptor signaling shows an age-related and lobe-specific alteration in mice

Benign prostatic hyperplasia (BPH) is an age-related disease that affects millions of aging males globally. While the pathogenesis of BPH remains incompletely understood, emerging evidence suggests a pivotal role for the androgen receptor (AR) in mediating prostate growth and function. Understanding age-related AR signaling alteration may inform novel BPH treatments. Here, we analyzed the prostatic protein expressions of AR, NKX3.1, and Ki-67 in young (2 months) and aged (24 months) mice. We also examined the potential mechanism of AR protein expression. Compared to young mice, decreased AR and NKX3.1 protein expression was observed in the anterior prostate (AP) and ventral prostate (VP) of aged mice, indicating reduced AR signaling in these prostate lobes. Additionally, we observed decreased protein expression of proliferation maker Ki-67 in aged AP, VP, and dorsal-lateral prostate (DLP), with no difference in apoptosis as compared to young counterparts. We conclude that prostatic androgen receptor signaling shows an age-related and lobe-specific alteration in mice.