Galileo Escobedo scite author profile

The in vitro exposure of Taenia crassiceps cysticerci to 17-beta estradiol (E2) and progesterone (P4) stimulated their reproduction and infectivity. Testosterone (T4) and dihydrotestosterone (DHT) inhibited their reproduction and reduced their motility and infectivity. E2 and P4 increased, whereas T4 and DHT reduced, the expression of parasite c-fos and c-jun and DNA synthesis. In vitro exposure of cysticerci to sex steroids before their inoculation into recipient noninfected mice resulted in large parasite loads when pretreated with E2 and P4 and in smaller loads when pretreated with T4 and DHT To determine the possible molecular mechanisms by which sex steroids affect T. crassiceps, sex steroid receptors were amplified. Taenia crassiceps expressed estrogen receptors (both alpha and beta isoforms) and androgen receptors but no P4 receptors. These results demonstrate that sex steroids act directly on parasite reproduction by binding to a classic and specific sex steroid receptor on the parasite. The differential response of cysticerci to sex steroids may also be involved in their ability to grow faster in the murine female or feminized male host. This is the first report of direct sex steroid effects on the parasite possibly through sex steroid receptors in the cysticerci.

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Low-grade systemic inflammation and the development of metabolic diseases: From the molecular evidence to the clinical practice

León-Pedroza

González-Tapia

Olmo-Gil

et al. 2015

Cirugía y Cirujanos (English Edition)

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Galileo Escobedo

Parasite regulation by host hormones: an old mechanism of host exploitation?

Human monocytes and macrophages undergo M1-type inflammatory polarization in response to high levels of glucose

Molecular Mechanisms Involved in the Differential Effects of Sex Steroids on the Reproduction and Infectivity of Taenia Crassiceps

Low-grade systemic inflammation and the development of metabolic diseases: From the molecular evidence to the clinical practice

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