Possible Mechanisms of Sodium-Dependent Hypertension: Volume Expansion or Vasoconstriction?

Abstract

A series of experiments was designed to explore the mechanisms contributing to hypertension caused by an acute or chronic sodium load. Acute salt-loading in totally or subtotally nephrectomized animals caused hypertension mediated partly through stimulation of excessive vasopressin release and partly through adrenergic stimulation. Chronic high-salt diet in rats submitted to partial nephrectomy, mineralocorticoid excess or one-kidney-one-clip renovascular hypertension caused blood pressure elevation mediated through a central neurogenic mechanism that could be reversed by administration of an inhibitor of phenylethanolamine-N-methyltransferase, the enzyme catalyzing conversion of norepinephrine to epinephrine. Thus, two vasopressor mechanisms were stimulated by sodium excess: an acute, transient, partly vasopressin-mediated phase seemed to be followed by a chronic phase mediated through stimulation of central sympathetic neurons. In neither phase was blood pressure related to intravascular fluid volume expansion.