Brain-derived neurotrophic factor (BDNF) affects the activity of the gonadotrophic axis in sheep

Abstract

This study aimed to examine the hypothesis that BDNF modulates the activity of the gonadotrophic axis in sheep. Central infusions of BDNF were administered to sexually mature Polish Merino sheep. The sheep were randomly divided into three groups: the control group received intracerebroventricular (ICV) infusions of the vehicle, the BDNF 10 group received ICV infusions of BDNF at 10 μg/480 μL/day, and the BDNF 60 group was infused with BDNF at 60 μg/480 μL/day. A series of four infusions on three consecutive days was performed. Blood samples were collected on days 0 and 3 of the infusions. Immediately after the experiment, all the sheep were slaughtered, and selected structures of the hypothalamus and pituitaries were collected for Real Time RT-qPCR analysis. The collected plasma samples, as well as parts of pituitaries were stored for radioimmunoassay analysis of LH and FSH.Central treatment with exogenous BDNF stimulated GnRH mRNA expression in the preoptic area, as well as GnRH-R mRNA in the pituitary. Furthermore, substantial changes in the KNDy mRNA expression in the mediobasal hypothalamus were observed after the ICV BDNF administration. Additionally, central BDNF infusion caused a decrease in LH concentration and a simultaneous increase in FSH concentration in peripheral blood. Neither pulse amplitude nor pulse frequency for any gonadotrophin was affected in both groups of sheep that received BDNF infusion.Our results revealed that exogenous BDNF affects GnRH and KNDy gene expression and changes in the LH and FSH pituitary cell secretory activities. These findings suggest that BDNF may participate in the mechanism modulating the activity of the gonadotrophic axis at the central level in female sheep.