info:eu-repo/semantics/article
Cardiovascular and body weight regulation changes in transgenic mice overexpressing thyrotropin-releasing hormone (TRH)
Date
2020-09-11Registration in:
Landa, Maria Silvina; Garcia, Silvia Ines; Schuman, Mariano Luis; Peres Diaz, Ludmila Soledad; Aisicovich, Maia; et al.; Cardiovascular and body weight regulation changes in transgenic mice overexpressing thyrotropin-releasing hormone (TRH); Servicio Publicaciones Universidad Navarra; Journal of Physiology and Biochemistry; 11-9-2020
1138-7548
CONICET Digital
CONICET
Author
Landa, Maria Silvina
Garcia, Silvia Ines
Schuman, Mariano Luis
Peres Diaz, Ludmila Soledad
Aisicovich, Maia
Pirola, Carlos José
Abstract
Thyrotropin-releasing hormone (TRH) plays several roles as a hormone/neuropeptide. Diencephalic TRH (dTRH) participates in the regulation of blood pressure in diverse animal models, independently of the thyroid status. The present study aimed to evaluate whether chronic overexpression of TRH in mice affects cardiovascular and metabolic variables. We developed a transgenic (TG) mouse model that overexpresses dTrh. Despite having higher food consumption and water intake, TG mice showed significantly lower body weight respect to controls. Also, TG mice presented higher blood pressure, heart rate, and locomotor activity independently of thyroid hormone levels. These results and the higher urine noradrenaline excretion observed in TG mice suggest a higher metabolic rate mediated by sympathetic overflow. Cardiovascular changes were impeded by siRNA inhibition of the diencephalic Trh overexpression. Also, the silencing of dTRH in the TG mice normalized urine noradrenaline excretion, supporting the view that the cardiovascular effects of TRH involve the sympathetic system. Overall, we show that congenital dTrh overexpression leads to an increase in blood pressure accompanied by changes in body weight and food consumption mediated by a higher sympathetic overflow. These results provide new evidence confirming the participation of TRH in cardiovascular and body weight regulation.