FRI279 Submaximal Loss Of KNDy Neurons Accelerates And Amplifies Pulsatile LH Secretion In Female Rats

Abstract

Abstract Disclosure: A.C. Campideli-Santana: None. K.S. da Costa Silva: None. R. Araújo-Lopes: None. L.M. Antunes: None. R.E. Szawka: None. Kisspeptin is a powerful stimulator neuropeptide in the hypothalamus-pituitary-gonadal axis and is essential for fertility. Neurons in the arcuate nucleus (ARC) of the hypothalamus that coexpress kisspeptin, neurokinin B, and dynorphin (KNDy) play a crucial role in the control of luteinizing hormone (LH) secretion, but the neuroendocrine mechanisms involved in this regulation are not fully understood. Our previous study demonstrated that the moderate loss of KNDy neurons amplifies the LH surge induced by estradiol in ovariectomized rats (1). The current study aimed to perform a longitudinal evaluation of female rats in which KNDy neurons were ablated to determine the integrated role of this neuronal population in the control of pulsatile LH secretion. Adult female rats underwent a neurochemical ablation of KNDy neurons via intra-ARC stereotaxic injections of neurokinin-3 receptor agonist conjugated with saporin (NK3-SAP), while control animals received blank-saporin (Control). Estrous cyclicity was monitored over 21 days before and after the stereotaxic surgery. Three weeks after surgery, blood samples (10 µL) were withdrawn from the tail tip at 6-minute intervals for 180 minutes on the day of diestrus. Rats were then ovariectomized and the ovaries were processed for histological analysis. Whole blood LH levels were measured by ELISA and brains were immunohistochemically labeled for neurokinin B in the ARC. NK3-SAP rats bearing a submaximal loss of KNDy neurons (between 55-95%; n = 8) displayed irregular estrous cycles. The ovarian weight and the number of corpora lutea and atretic follicles were unaltered, whereas the number of healthy early antral follicles decreased in NK3-SAP rats. The frequency of LH pulses was increased and both pulse amplitude and mean LH levels were higher in NK3-SAP compared with Control rats. Thus, the submaximal loss of KNDy neurons affects the regularity of estrous cyclicity but does not preclude ovulation, while seems to stimulate the maturation of early antral follicles. Notably, KNDy neuron loss accelerates and amplifies LH pulsatile secretion during the rat estrous cycle. These results suggest a new role for KNDy neurons in restraining the frequency and amplitude of LH pulses in ovary-intact animals, with possible implications in the rate of recruitment of early antral follicles. Reference: Campideli-Santana et al., J Neuroendocrinol. 2022 Nov;34(11):e13204. Support: FAPEMIG, CNPq, CAPES, and Pro-reitoria de Pesquisa-UFMG. Presentation: Friday, June 16, 2023