17ß-hydroxysteroid dehydrogenase type 2 activity, expression and cellular localization in abdominal adipose tissues from women.

CONTEXT: 17ß-hydroxysteroid dehydrogenase type 2 (17ß-HSD2) may be involved in the local modulation of estradiol (E2) availability in adipose tissues. OBJECTIVE: To assess the conversion of E2 into estrone (E1) as well as the expression of 17ß-HSD2 and its localization in omental (OM) and subcutaneous (SC) adipose tissues obtained from women. METHODS: Rates of 14 C-E1 formation from 14 C-E2 were measured in OM and SC adipose tissue homogenates from 29 women. Specific 17ß-HSD2 inhibitor EM-919 was tested in OM and SC adipose tissue homogenates (n = 6). 17ß-HSD2 mRNA expression was measured in whole OM and SC adipose tissues (n = 14). Cellular localization of the enzyme was examined using immunohistochemistry. Anthropometric measurements were obtained and body composition as well as body fat distribution were measured. RESULTS: Significant 14 C-E1 formation from 14 C-E2 in OM and SC tissue homogenates was detected. The rate of 14 C-E1 formation was significantly higher in OM than SC adipose tissue (p < .0001). The conversion of 14 C-E2 to 14 C-E1 was significantly inhibited by EM-919 in OM (p < .05) and SC (p < .05) adipose tissues. Significantly higher expression of 17ß-HSD2 mRNA in OM versus SC fat was found (p = .03). 17ß-HSD2 was localized in the vasculature of OM and SC tissues. Significant negative associations were detected between OM 17ß-HSD2 activity and body mass index, WC, lean body mass as well as SC adipose tissue areas. CONCLUSION: 17ß-HSD2 converts E2 to E1 in OM and SC adipose tissues of women. The activity of this enzyme decreases with increasing adiposity.

Characterization of 5α-reductase activity and isoenzymes in human abdominal adipose tissues.

INTRODUCTION: The substrate for the generation of 5α-dihydrotestosterone (DHT) is either androstenedione (4-dione) which is first converted to androstanedione and then to DHT through 17-oxoreductase activity, or testosterone, which is directly converted to DHT. Three 5α-reductase isoenzymes have been characterized and designated as types 1, 2 and 3 (SRD5A1, 2 and 3). OBJECTIVE: To define the predominant source of local DHT production in human adipose tissues, identify 5α-reductase isoenzymes and test their impact on preadipocyte differentiation. METHODS: Cultures of omental (OM) and subcutaneous (SC) preadipocytes were treated for 0, 6 or 24h with 30nM (14)C-4-dione or (14)C-testosterone, with and without 500nM 5α-reductase inhibitors 17-N,N-diethylcarbamoyl-4-methyl-4-aza-5-androstan-3-one (4-MA) or finasteride. Protein level and mRNA abundance of 5α-reductase isoenzymes/transcripts were examined in whole SC and OM adipose tissue. HEK-293 cells stably transfected with 5α-reductase type 1, 2 or 3 were used to test 5α-reductase inhibitors. We also assessed the impact of 5α-reductase inhibitors on preadipocyte differentiation. RESULTS: Over 24h, DHT formation from 4-dione increased gradually (p<0.05) and was significantly higher compared to that generated from testosterone (p<0.001). DHT formation from both 4-dione and testosterone was blocked by both 5α-reductase inhibitors. In whole adipose tissue from both fat compartments, SRD5A3 was the most highly expressed isoenzyme followed by SRD5A1 (p<0.001). SRD5A2 was not expressed. In HEK-293 cells, 4-MA and finasteride inhibited activity of 5α-reductases types 2 and 3 but not type 1. In preadipocyte cultures where differentiation was inhibited by 4-dione (p<0.05, n=7) or testosterone (p<0.05, n=5), the inhibitors 4-MA and finasteride abolished these effects. CONCLUSION: Although 4-dione is the main source of DHT in human preadipocytes, production of this steroid by 5α-reductase isoenzymes mediates the inhibitory effect of both 4-dione and testosterone on preadipocyte differentiation.

Oxidative activity of 17ß-hydroxysteroid dehydrogenase on testosterone in male abdominal adipose tissues and cellular localization of 17ß-HSD type 2.

Testosterone can be converted into androstenedione (4-dione) by 17ß-hydroxysteroid dehydrogenase (HSD) activity likely performed by 17ß-HSD type 2. Our objective was to evaluate the rate of testosterone conversion to 4-dione as well as expression and localization of 17ß-HSD type 2 in omental (OM) vs. subcutaneous (SC) adipose tissues of men. Formation of 4-dione from testosterone was significantly higher in homogenates (p ≤ 0.001) and explants (p ≤ 0.01) of OM than SC tissue. Microscopy analyses and biochemical assays in cell fractions localized the enzyme in the vasculature/endothelial cells of adipose tissues. Conversion of testosterone to 4-dione was weakly detected in most OM and/or SC preadipocyte cultures. Positive correlations were found between 17ß-HSD type 2 activity in whole tissue and BMI or SC adipocyte diameter. We conclude that conversion of testosterone to 4-dione detected in abdominal adipose tissue is caused by 17ß-HSD type 2 which is localized in the vasculature of the adipose compartment.