RESUMEN
17ß-estradiol is a potent sex hormone synthesized primarily by gonads in females and males that regulates development and function of the reproductive system. Recent studies show that 17ß-estradiol is locally synthesized in nonreproductive tissues and regulates a myriad of events, including local inflammatory responses. In this study, we report that mesenteric lymph nodes (mLNs) and Peyer's patches (Pps) are novel sites of de novo synthesis of 17ß-estradiol. These secondary lymphoid organs are located within or close to the gastrointestinal tract, contain leukocytes, and function at the forefront of immune surveillance. 17ß-estradiol synthesis was initially identified using a transgenic mouse with red fluorescent protein coexpressed in cells that express aromatase, the enzyme responsible for 17ß-estradiol synthesis. Subsequent immunohistochemistry and tissue culture experiments revealed that aromatase expression was localized to high endothelial venules of these lymphoid organs, and these high endothelial venule cells synthesized 17ß-estradiol when isolated and cultured in vitro. Both mLNs and Pps contained 17ß-estradiol with concentrations that were significantly higher than those of peripheral blood. Furthermore, the total amount of 17ß-estradiol in these organs exceeded that of the gonads. Mice lacking either aromatase or estrogen receptor-ß had hypertrophic Pps and mLNs with more leukocytes than their wild-type littermates, demonstrating a role for 17ß-estradiol in leukocyte regulation. Importantly, we did not observe any sex-dependent differences in aromatase expression, 17ß-estradiol content, or steroidogenic capacity in these lymphoid organs.