Acute and chronic angiotensin hypertension: neural and nonneural components, time course, and dose dependency

Abstract

We examined the mechanisms mediating hypertension in conscious rats during acute and chronic infusion of angiotensin II (ANG II) at pressor doses (50, 100, and 200 ng.kg-1.min-1). Trimethaphan-induced blood pressure reduction was inversely related to the acute dose of ANG II, consistent with a constrictor action of ANG II on vascular smooth muscle and withdrawal of sympathetic tone. During chronic ANG II infusion, the entire increase in mean arterial pressure (MAP) was inhibited by trimethaphan, consistent with neural mediation. During acute ANG II hypertension, the AT1-specific receptor blocker losartan induced a large fall in MAP (64 +/- 4 mmHg) in ganglion-blocked (chlorisondamine) rats, whereas, during chronic ANG II hypertension, losartan had only a small hypotensive effect (11 +/- 3 mmHg). To determine the time course of the change from vascular smooth muscle action to neural action, we measured MAP in response to trimethaphan during the first 24 h of ANG II infusion. After 5 h, the minimal MAP in response to trimethaphan was significantly higher than that before ANG II. After 10 h of infusion, trimethaphan decreased MAP to pre-ANG II levels. That is, the neural component was fully active after only 10 h of infusion in rats. Finally, chronic administration of ANG II resulted in a dose-related increase in MAP that, at all doses, was completely inhibited by trimethaphan. These findings are consistent with ANG II acting primarily on vascular smooth muscle during acute infusion and via neural pathways during chronic treatment. The transition from direct smooth muscle to indirect neural action is rapid in rats (< 10 h), and the MAP and neural responses to ANG II are dose related during chronic hypertension.