Estrogen signaling in the proliferative endometrium: implications in endometriosis / Sinalização pelo estrogênio no endométrio proliferativo: implicações na endometriose

SUMMARY Even though the physiological role of estrogen in the female reproductive cycle and endometrial proliferative phase is well established, the signaling pathways by which estrogen exerts its action in the endometrial tissue are still little known. In this regard, advancements in cell culture techniques and maintenance of endometrial cells in cultures enabled the discovery of new signaling mechanisms activated by estrogen in the normal endometrium and in endometriosis. This review aims to present the recent findings in the genomic and non-genomic estrogen signaling pathways in the proliferative human endometrium specifically associated with the pathogenesis and development of endometriosis.

RESUMO Embora esteja bem estabelecido o papel fisiológico do estrogênio no ciclo reprodutivo feminino e na fase proliferativa do endométrio, as vias de sinalização por meio das quais a ação do estrogênio é exercida no tecido endometrial são ainda pouco conhecidas. Nesse sentido, o avanço nas técnicas de cultura celular e a manutenção de células endometriais em cultivo possibilitaram a descoberta de novos mecanismos sinalizadores ativados pelo estrogênio no endométrio normal e na endometriose. Esta revisão tem o objetivo de apresentar as descobertas recentes envolvendo as vias de sinalização genômica e não genômica do estrogênio no endométrio proliferativo humano, especificamente associadas à patogênese e ao desenvolvimento da endometriose.

Regulação da massa corpórea pelo estrogênio e pela atividade física: [revisão] / Body mass regulation by estrogen and physical activity: [review]

A deficiência de esteroides gonadais femininos acelera o ganho de massa corpórea, mas os possíveis mecanismos centrais e periféricos envolvidos no aumento da ingestão alimentar e no ganho de massa adiposa que ocorrem nessa condição são pouco conhecidos. Em modelos animais, tanto a falta quanto os defeitos na ação do estrogênio causam aumento da massa corpórea, demonstrando claramente um possível papel desse esteroide no sobrepeso pós-menopausa. Sabe-se que a obesidade e o sobrepeso estão associados a diversas comorbidades que podem levar à morte prematura. Portanto, desvendar os mecanismos relacionados ao ganho de massa corpórea é de grande relevância, assim como desenvolver estratégias que possam prevenir o seu estabelecimento. A regulação do balanço energético está associada ao controle da massa corpórea, sendo o exercício físico um importante modulador desse parâmetro homeostático. Porém, a influência do exercício físico sobre o ganho de massa corpórea durante a deficiência de estrogênio é controversa e depende do protocolo de exercício utilizado. Neste estudo, pretendemos revisar os achados que relacionam a deficiência de estrogênio ao ganho de massa corpórea em animais e seres humanos.

Female steroid hormones deficiency leads to a significant increase in body mass, but the possible central and peripheral mechanisms involved in increased food ingestion and fat accumulation in this situation are still unknown. In animal models, the specific lack of estrogen or its action produce progressive body mass gain, clearly demonstrating the possible role of this hormone in overweight after menopause. Obesity and overweight correspond to a relevant human health problem that can lead to premature death. Therefore unraveling the mechanisms underlying body mass gain is of great relevance, as well as the development of strategies to prevent its establishment. Energy balance regulation is associated with the control of body mass, and physical exercise is an important modulator of this homeostatic parameter. However, the influence of physical exercise in mass gain development during estrogen deficiency is controversial and depends on the exercise protocol used. In this study, we intend to review the data on the effects of estrogen deficiency on body mass gain in humans and animal models.

Estrogens and male reproduction: a new concept

The mammalian testis serves two main functions: production of spermatozoa and synthesis of steroids; among them estrogens are the end products obtained from the irreversible transformation of androgens by a microsomal enzymatic complex named aromatase. The aromatase is encoded by a single gene (cyp19) in humans which contains 18 exons, 9 of them being translated. In rats, the aromatase activity is mainly located in Sertoli cells of immature rats and then in Leydig cells of adult rats. We have demonstrated that germ cells represent an important source of estrogens: the amount of P450arom transcript is 3-fold higher in pachytene spermatocytes compared to gonocytes or round spermatids; conversely, aromatase activity is more intense in haploid cells. Male germ cells of mice, bank voles, bears, and monkeys express aromatase. In humans, we have shown the presence of a biologically active aromatase and of estrogen receptors (alpha and ß) in ejaculated spermatozoa and in immature germ cells in addition to Leydig cells. Moreover, we have demonstrated that the amount of P450arom transcripts is 30 percent lower in immotile than in motile spermatozoa. Alterations of spermatogenesis in terms of number and motility of spermatozoa have been described in men genetically deficient in aromatase. These last observations, together with our data showing a significant decrease of aromatase in immotile spermatozoa, suggest that aromatase could be involved in the acquisition of sperm motility. Thus, taking into account the widespread localization of aromatase and estrogen receptors in testicular cells, it is obvious that, besides gonadotrophins and androgens, estrogens produced locally should be considered to be physiologically relevant hormones involved in the regulation of spermatogenesis and spermiogenesis.