The endothelins (ETs) stimulate the secretion of arginine-vasopressin (AVP) in vivo and in vitro. The activation of hypothalamic ET(B) receptors increases AVP release, but the neurotransmitters mediating these responses are not known. In the compartmentalized hypothalamo-neurohypophysial explant model, the overall basal release of AVP was 53+/-17 pg x h(-1) x PP(-1) (where PP is posterior pituitary). ET(B) receptor activation in hypothalamic sites by 1 nM IRL1620 dose-dependently increased AVP secretion, with a maximal response of 340+/-70% of basal x h(-1) x PP(-1), whereas 1 nM ET-1, the ET(A) receptor-selective agonist, inhibited AVP release to 44+/-8% x h(-1) x PP(-1). Addition of MK801 along with IRL1620 inhibited AVP release to a value no different from basal (122+/-41% x h(-1) x PP(-1)). In contrast, 10 microM DNQX [6,7-dinitroquinozaline-2,3-(1H,4H)-dione] did not block ET(B) receptor-induced AVP release (326+/-73% x h(-1) x PP(-1)), and nor did non-selective alpha-adrenergic receptor antagonism. The GABA(A) (where GABA is gamma-aminobutyric acid) receptor agonist muscimol (10 microM) inhibited AVP release in response to IRL1620 (127+/-30% x h(-1) x explant(-1)). These data suggest that AVP release induced by activation of hypothalamic ET(B) receptors is mediated by a hypothalamic N-methyl-D-aspartate (NMDA) receptor-mediated mechanism. In turn, the local release of GABA associated with NMDA activation may exert an inhibitory influence and dampen the AVP secretory response.
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