Role of the autonomic nervous system in the mediation of LHA electrical stimulation-induced effects on insulinemia and glycemia

Abstract

The short-term effects of bilateral electrical stimulation of the lateral component of the lateral hypothalamic/medial forebrain bundle area (LHA) on peripheral plasma levels of glucose (G), immunoreactive insulin (IRI) and glucagon (IRG) were measured in food-derived, anesthetized rats in the presence of continuous low i.v. glucose infusion. In normal rats LHA stimulation induced a rapid but moderate rise in IRI in the presence of a simultaneous rapid rise in G. At the end of the 5 min stimulation period the glucose-induced IRI response was clearly attenuated. In rats receiving a continuous phentolamine (i.v.) infusion, the rapid IRI response was much larger in spite of only marginal rises of G. These findings suggest that electrical LHA stimulation activates two opposing mechanisms on IRI secretion, an excitatory component which is masked in normal animal by a sympathetic alpha-adrenergic inhibitory component. In an attempt to define the mediating pathway of this LHA stimulation-induced IRI excitatory component, both the parasympathetic and sympathetic divisions of the autonomic nervous system were pharmacologically and surgically manipulated, all in the presence of phentolamine infusion. Neither bilateral subdiaphragmatic vagotomy, atropine, propranolol infusion, nor spinal cord transection at T1 were able to block the IRI response. The findings are consistent with a humoral mediation of this IRI stimulatory response and support the existence of a lateral hypothalamic or hypophyseal factor which is released by LHA stimulation. The implications and physiological role of the LHA in the neural control of insulin secretion and ingestive behavior are discussed.