Preoptic-hypothalamic periventricular lesions: thirst deficits and hypernatremia.

To assess the significance of stimulation studies suggesting an anteroventral third ventricle (AV3V) dipsogenic site of action for hyperosmotic and angiotensin thirst stimuli, electrolytic lesions of periventricular tissue surrounding AV3V were produced under ether anesthesia in rats preselected for responsiveness to subcutaneous angiotensin and hypertonic NaCl thirst challenges. Lesions limited to preoptic-anterior hypothalamic periventricular substrates resulted in adipsia; those rats resuming ad lib. drinking after a period of adipsia exhibited persistent drinking deficits to angiotensin and hypertonic NaCl thirst challenges, reduced drinking after water deprivation, and increased plasma osmolality and sodium. Drinking to polyethylene glycol-induced hypovolemia and feeding after food deprivation did not differ between lesioned and sham-lesioned animals. The disturbances in behavioral control of fluid balance imply that AV3V periventricular tissue normally plays a key role in mediating regulatory drinking. It is proposed that these AV3V periventricular lesion-induced effects on drinking behavior are due to destruction of receptors and/or integrative systems monitoring fluid-borne angiotensin and hyperosmotic stimuli.