A comparative study of the effects of nitric oxide and carbon monoxide on the in vivo release of gonadotropin-releasing hormone and neuropeptide Y from rat hypothalamus during the estradiol-induced luteinizing hormone surge: estimation by push-pull perfusion.

Recent evidence suggests that nitric oxide (NO), a free radical gas, plays an important role in regulating the function of a variety of neuroendocrine systems. With respect to the hypothalamo-pituitary-gonadal axis, a stimulatory effect of NO on the release of gonadotropin-releasing hormone (GnRH) from rat hypothalamus has been demonstrated in vitro. However, no previous study has reported NO-stimulated secretion of GnRH from in vivo hypothalamus, and also the precise cellular site of action of NO within the GnRH neuronal system remains to be elucidated. In the present study, utilizing the push-pull perfusion technique of rat hypothalamus, we examined the effect of L-arginine (L-Arg), an NO donor, on the release of GnRH, neuropeptide Y and cyclic GMP (c-GMP), which is a pivotal second messenger molecule of the NO system. For comparison, we also examined the effect of carbon monoxide (CO), another putative gaseous neurotransmitter, using hematin, a CO donor. During the period of 11.00-18.00 h, we collected blood and hypothalamic perfusates from ovariectomized adult rats that had been implanted with an estradiol capsule 2 days before. During the entire period of observation, L-Arg (1.0 or 10 mM), hematin (10 or 100 microM) or artificial cerebrospinal fluid alone (as the control) was infused into the medial preoptic area (MPOA) where there are cell bodies of GnRH neurons, or the median eminence-arcuate nucleus complex (ME-ARC) where axon terminals of GnRH neurons are localized. Although 10 mM of L-Arg significantly stimulated GnRH and c-GMP, but not neuropeptide Y, levels in both the MPOA and ME-ARC, GnRH and c-GMP in the ME-ARC were already increased by 1.0 mM of L-Arg. By contrast, both concentrations of hematin were without effect at either site of the hypothalamus. This study is the first to demonstrate that NO is capable of stimulating GnRH release from rat hypothalamus in vivo. Our data also suggests that both cell bodies and axon terminals of GnRH neurons may be sites of action of NO. Our data do not support a previous study by other investigators that reported a stimulatory effect of CO on the GnRH release.