Estrone sulfate is a major source of local estrogen formation in human bone.

Estrone sulfate (E1S) is the most abundant estrogen in the circulation of adults. The present study was undertaken to assess estrone (E1) and estradiol formation from E1S in freshly resected bone [bone fragments (BFs)] and osteoblast-like cells (hOB) cultured from BFs. Furthermore, we compared estrogen formation from E1S in rat and human osteosarcoma (OS) cell lines and that of estrogen formation from E1S with that of aromatization of androstenedione and testosterone in BFs and those from E1S and androstenedione in hOB cells. The bone used was from the head of the femur from a total of 15 women and 12 men. Steroid sulfatase activity (STA) was found, and the formation of estrone and estradiol from E1S was demonstrated. STA was similar in cells derived from BFs of men and women. STA was significantly lower in OS cell lines, compared with hOB cells. Estrogen formation from E1S in BFs was at least 20 times higher than that from androstenedione and about 50 times higher than that from testosterone. Similarly, estrogen formation from E1S in hOB cells exceeded the values derived from aromatization of androstenedione by two orders of magnitude. Based on these results, we conclude that hOB cells express the same pattern of E1S metabolism as resected bone and thus may accurately mirror the in vivo situation in man. In comparison with hOB cells, STA is fundamentally lower in widely used OS cell lines that express an osteoblastic phenotype. This shortcoming precludes their use as model cell lines to unravel STA metabolic pathways and its regulation in nontumorous bone. E1S is a major source of local bioactive estrogen formation in human bone. Because bone is highly susceptible to estrogen action, local estrogen formation from E1S may play an important role in bone maturation and homeostasis, particularly in elderly adults.

Human osteoblast-like cells express predominantly steroid 5alpha-reductase type 1.

In previous studies we established that human bone and human osteoblast-like cells (hOB cells) cultured from bone express 5alpha-reductase (5alpha-R) activity, as demonstrated by the conversion of testosterone and androstenedione to their corresponding 5alpha-reduced metabolites, 5alpha-dihydrotestosterone (DHT) and 5alpha-androstanedione. Two 5alpha-R isozymes (types 1 and 2) have been identified in various tissues. As their nature in bone is unknown, we investigated which isozymes were expressed in first passage hOB cells cultured from bone specimens obtained from six donors (five women and one man). For comparison, 5alpha-reductase isozyme expression in genital skin fibroblasts cultured from foreskin of three males was determined. Pharmacological and biochemical studies using selective inhibitors of the 5alpha-R isozymes were performed, and gene expression was assessed by RT-PCR. In hOB cells, LY191704, a potent nonsteroidal selective inhibitor of 5alpha-R type 1, and the 4-azasteroid 17beta-(N,N,-diethyl-carbamoyl)-4-methyl-4-aza-5alpha-androstan-3-one (a dual inhibitor of 5alpha-R types 1 and 2) inhibited 5alpha-R activity with a 50% inhibitory concentration (IC(50)) of approximately 4 nM. Finasteride, a selective inhibitor of 5alpha-R type 2, blocked 5alpha-R activity with an IC(50) of approximately 60 nM. The IC(50) of progesterone, a physiological substrate for 5alpha-R, was approximately 200 nM. In genital skin fibroblasts, LY191704 inhibited 5alpha-R with an IC(50) of more than 5000 nM, whereas finasteride and 17beta-(N,N,-diethyl-carbamoyl)-4-methyl-4-aza-5alpha-androstan-3-one effectively inhibited 5alpha-R with IC(50) of approximately 4 nM. Experiments to determine 5alpha-reductase activity in homogenates of hOB cells as a function of pH showed very low activity at pH 5.5, but a broad shoulder of activity from pH 6.0-9.0, which was not inhibited by finasteride, but was nearly completely blocked by LY191704. RT-PCR revealed that 5alpha-R type 1 and 2 mRNAs were expressed in both bone and genital skin fibroblasts. Based on our pharmacological and biochemical studies, it appears that 5alpha-R activity in hOB cells is catalyzed predominantly by the type 1 rather than the type 2 isozyme. This expression pattern is in contrast to that in genital skin fibroblasts, where the activity of the type 2 isozyme prevails. As in most androgen target tissues DHT is biologically more active as an androgen than testosterone, DHT is formed in bone by 5alpha-R type 1 action from circulating testosterone, and bone cells also express the androgen receptor, local DHT production may play a physiological role in human bone homeostasis.