| The effectiveness of estrogen replacement therapy in the prevention of postmenopausal osteoporosis has led to its current widespread use throughout the United States and much of Western Europe, and recently, clinical correlations between circulating androgen levels and structural bone integrity have been presented. Nevertheless, the biochemical mechanism through which estrogens and androgens act to protect and maintain bone has remained unclear. One possibility is that these hormones directly modulate the activity of cells responsible for bone formation. Therefore, studies were conducted to examine the effects of sex steroids on human osteoblast-like cells.;In the first set of experiments, a finite human cell line was established from trabecular bone explants obtained from a 48 year-old woman. These cells, designated BG688, were characterized as osteoblast-like in phenotype using several independent criteria. In addition to classical osteoblast markers, BG688 cells also possess approximately 2400 high affinity (K;In the second series of experiments, the effects of androgenic hormones on the osteoblast-like, human osteosarcoma cell line, HOS TE85 were evaluated. Employing radiolabelled dihydrotestosterone (DHT), 2800 saturable, high-affinity (K;The findings presented herein are significant within the field of bone cell biology in that they demonstrate that osteoblasts are a target cell for the action of sex steroids, via their cognate, high-affinity receptors. These results also have important implications within the broader context of bone pathophysiology in that they suggest a direct modulation of bone forming and bone remodeling activity by sex steroids. |
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