Physiological Significance of Na+/K+-ATPase Activity in the Central Nervous System and Endogenous Sodium-Pump Inhibitors in the Neural Regulation of Arterial Blood Pressure

In anesthetized Sprague-Dawley rats, cerebrolateral ventricular administration of potassium chloride solutions (KCl, 0.375-1.25 mumol, i.c.v.) produced concentration-dependent reductions in the arterial blood pressure and heart rate. These responses were significantly attenuated by prior i.c.v.-administration ouabain, a selective inhibitor of the Na+ pump, and by endothelin (ET-1), an endogenous peptide that is present in the CNS, suggesting that this peptide may participate in the neural regulation of arterial pressure via modulation of Na(+)-pump activity. Although both acute fluid volume expansion and/or osmotic stimulus have been shown to facilitate the release of the endogenous Na(+)-pump inhibitor(s) into the circulation, only volume expansion significantly attenuated the cardiovascular effects of i.c.v. potassium chloride. These observations collectively suggest that the Na+, K(+)-ATPase activity in CNS and Na(+)-pump inhibitors may play a significant role in the central regulation of arterial pressure under certain physiological conditions.