Estrogens influence the incidence and the course of numerous immune or inflammatory diseases in humans and in experimental models. For instance, estrogens prevent the accumulation of granulocytes in acute inflammatory murine models, but the respective actions on neutrophil and eosinophil trafficking remain to be clarified. We demonstrate here that in a model of TGC-induced sterile peritonitis in ovx mice, chronic E2 administration electively and strongly inhibited peritoneal eosinophil accumulation. E2 decreased BM eosinophil number, contributing to a marked prevention of the TGC-induced eosinophil blood mobilization. These effects on eosinophil mobilization and peritoneal accumulation were abolished in ER-α(-/-) mice, demonstrating the crucial role of this nuclear receptor. Grafting ER-α(-/-) mice with ER-α(+/+) BM cells restored the suppressive effect of E2 on peritoneal eosinophilia, although the action on eosinophil blood mobilization was still abrogated. We therefore explored additional mechanisms and found that E2 reduced the peritoneal concentrations of key eosinophil prosurvival factors (IL-5, IL-9, and IL-25) and enhanced eosinophil apoptosis during the inflammatory process. Furthermore, this proapoptotic effect of E2 was abrogated in IL-5-overexpressing Tg mice. To conclude, we demonstrate for the first time that ER-α activation by exogenous E2 administration strongly inhibits eosinophil accumulation during acute inflammation in a nonreproductive target site for estrogen through combined actions on eosinophil mobilization and apoptosis. This specific, suppressive effect of chronic E2 replacement therapy on eosinophils has to be integrated to further understand the evolution of eosinophil-associated diseases in menopausal women.
There was no relationship between BMD measured within the first postmenopausal years and the risk of BC, which makes unlikely the possibility of using BMD as a predictor factor for BC in early postmenopausal women.
Bone is a multi-skilled tissue, protecting major organs, regulating calcium phosphate balance and producing hormones. Its development during childhood determines height and stature as well as resistance against fracture in advanced age. Estrogens are key regulators of bone turnover in both females and males. These hormones play a major role in longitudinal and width growth throughout puberty as well as in the regulation of bone turnover. In women, estrogen deficiency is one of the major causes of postmenopausal osteoporosis. In this review, we will summarize the main clinical and experimental studies reporting the effects of estrogens not only in females but also in males, during different life stages. Effects of estrogens on bone involve either Estrogen Receptor (ER)α or ERβ depending on the type of bone (femur, vertebrae, tibia, mandible), the compartment (trabecular or cortical), cell types involved (osteoclasts, osteoblasts and osteocytes) and sex. Finally, we will discuss new ongoing strategies to increase the benefit/risk ratio of the hormonal treatment of menopause.
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