Role of hypothalamic serotonergic receptors in the control of lordosis behavior in the female rat

Abstract

The role of serotonin in mediating hypothalamic control of sexual behavior in estrone-primed ovariectomized (OVX) rats was studied by comparing the lordotic patterns following medial preoptic (MPOA) and arcuate-ventromedial (ARC-VM) infusions of serotonin (5-HT), methysergide (MS), and vehicle. In the initial experiments, low receptivity (preinfusion receptivity: mean lordosis/mount ratio = 0.164) was maintained by priming each animal with a low dose of estrone 48 hr prior to mating. The infusion of MS in either the MPOA or ARC-VM area resulted in a significant enhancement of lordotic behavior from initial low receptivity, 5-HT infusions were found to have no statistically significant effect upon lordotic behavior. In order to corroborate the findings observed in the low preinfusion receptivity protocol, OVX rats were primed with higher doses of estrone to maintain a high level of receptivity (preinfusion receptivity: mean lordosis/mount ratio = 0.787). Using this protocol, significant depressions in lordotic behavior were observed following MPOA or ARC-VM infusions of 5-HT, It was thus proposed that serotonergic receptors within the MPOA or ARC-VM areas have inhibitory effects upon lordotic behavior. In addition to the effects of 5-HT upon estrogen-induced sexual receptivity, serotonergic influences upon luteinizing hormone-releasing hormone (LRH)-facilitated mating behavior were also evaluated. Comparisons were made between the lordotic responses following MPOA or ARC-VM infusions of vehicle, LRH, or LRH with 5-HT in OVX rats primed with low doses of estrone. The infusion of LRH into the MPOA or ARC-VM significantly enhanced lordotic behavior above vehicle levels. However, the addition of 5-HT to the LRH infusate abolished this behavioral enhancement. These findings indicated that LRH and 5-HT have opposing effects within forebrain areas known to be important for the control of lordotic behavior.