Relaxin-3 receptor (RXFP3) activation in the nucleus of the solitary tract modulates respiratory rate and the arterial chemoreceptor reflex in rat

•RXFP3 activation in the NTS modulated baseline respiratory rate.•RFXP3 activation in the NTS decreased post-inspiratory motor activity.•RXFP3 activation in the NTS modulated chemoreceptor reflex tachypnea.•RXFP3 activation in the NTS had no effect on baseline or evoked cardiovascular activities. The neuropeptide relaxin-3 is expressed by the pontine nucleus incertus. Relaxin-3 and synthetic agonist peptides modulate arousal and cognitive processes via activation of the relaxin-family peptide 3 receptor (RXFP3). Despite the presence of RXFP3 in the nucleus of the solitary tract (NTS), the ability of RXFP3 to modulate NTS-mediated cardiorespiratory functions has not been explored. Therefore, we examined the effects of bilateral microinjections of the selective agonist, RXFP3-A2 (40 μM, 100 nL/side), into the NTS in perfused working-heart-brainstem-preparations from rats (n = 6), while recording phrenic, vagal, and thoracic sympathetic chain activity (PNA, VNA, t-SCA) and heart rate (HR). RXFP3-A2 significantly increased respiratory rate and shortened post-inspiratory VNA. RXFP3-A2 in the NTS also significantly enhanced arterial chemoreceptor reflex (a-CR)-mediated tachypnea. However, RXFP3-A2 had no significant effect on HR and t-SCA at baseline or during the a-CR. These data represent the first evidence that RXFP3 activation in the NTS can selectively modulate respiration at baseline and during reflex behaviour.