PURPOSE: Benign prostatic hyperplasia is a common urinary tract disorder that affects aging men. The molecular mechanisms underlying benign prostatic hyperplasia are obscure and the development of animal models to test novel treatment strategies is challenging. We report that the Bio 87.20 hamster strain (Bio Breeders, Watertown, Massachusetts) shows 5α-reductase-sensitive prostate enlargement and a decrease in circulating cholesterol reduces prostate size. MATERIALS AND METHODS: Bio 87.20 hamsters 17 months old with an enlarged prostate were fed a diet containing no or minimal cholesterol and including finasteride (Merck, Whitehouse Station, New Jersey) and/or ezetimibe (Schering-Plough, Kenilworth, New Jersey) for 4 months. The prostate complex was removed, volume and weight were determined, and tissue was examined histologically. RESULTS: Prostate enlargement depended on cholesterol in the diet. Blockade of intestinal cholesterol transport with ezetimibe induced prostate regression to a similar extent as the 5α-reductase inhibitor finasteride, a compound used to treat benign prostatic hyperplasia in humans. Histological analysis indicated that finasteride induced widespread prostatic atrophy but normal glandular architecture was preserved in the ezetimibe cohort. CONCLUSIONS: Results indicate that dysregulation of cholesterol metabolism may be a component of benign prostatic hyperplasia and ezetimibe may be effective as an alternative or adjunct to standard treatment. Our findings also show that the Bio 87.20 hamster is a suitable model for preclinical evaluation of novel benign prostatic hyperplasia therapy.
PURPOSE:Benign prostatic hyperplasia is a common urinary tract disorder that affects aging men. The molecular mechanisms underlying benign prostatic hyperplasia are obscure and the development of animal models to test novel treatment strategies is challenging. We report that the Bio 87.20 hamster strain (Bio Breeders, Watertown, Massachusetts) shows 5α-reductase-sensitive prostate enlargement and a decrease in circulating cholesterol reduces prostate size. MATERIALS AND METHODS: Bio 87.20 hamsters 17 months old with an enlarged prostate were fed a diet containing no or minimal cholesterol and including finasteride (Merck, Whitehouse Station, New Jersey) and/or ezetimibe (Schering-Plough, Kenilworth, New Jersey) for 4 months. The prostate complex was removed, volume and weight were determined, and tissue was examined histologically. RESULTS:Prostate enlargement depended on cholesterol in the diet. Blockade of intestinal cholesterol transport with ezetimibe induced prostate regression to a similar extent as the 5α-reductase inhibitor finasteride, a compound used to treat benign prostatic hyperplasia in humans. Histological analysis indicated that finasteride induced widespread prostatic atrophy but normal glandular architecture was preserved in the ezetimibe cohort. CONCLUSIONS: Results indicate that dysregulation of cholesterol metabolism may be a component of benign prostatic hyperplasia and ezetimibe may be effective as an alternative or adjunct to standard treatment. Our findings also show that the Bio 87.20 hamster is a suitable model for preclinical evaluation of novel benign prostatic hyperplasia therapy.
Authors: Gede Wirya Kusuma Duarsa; Yudit Anastasia Sari; Anak Agung Gde Oka; Kadek Budi Santosa; I Wayan Yudiana; Pande Made Wisnu Tirtayasa; Ida Bagus Putra Pramana; Yudhistira Pradnyan Kloping Journal: Asian J Urol Date: 2020-06-07
Authors: Jayoung Kim; Dolores Di Vizio; Taek-Kyun Kim; Jonghwan Kim; Minjung Kim; Kristine Pelton; Steven K Clinton; Tsonwin Hai; Daehee Hwang; Keith R Solomon; Michael R Freeman Journal: PLoS One Date: 2012-07-02 Impact factor: 3.240
Authors: George A Asare; Derick S Sule; Jared N Oblitey; Reese Ntiforo; Bernice Asiedu; Brodrick Y Amoah; Emmanuel L Lamptey; Daniel K Afriyie; Benard Ohene Botwe Journal: Heliyon Date: 2021-11-14