Endogenous Angiotensin and Pressure Modulate Brain Angiotensinogen and AT 1A mRNA Expression

Abstract

In the coarctation hypertension model, we showed both dissociation of plasma renin activity from cardiovascular-induced effects and the reversal of hypertension-induced responses by losartan. In this study, we investigated the effects of hypertension on the expression of brain renin-angiotensin system components and the simultaneous functional responses and effects of long-term angiotensin II (AT) receptor blockade on these responses. Rats were given vehicle or losartan for 9 days and subjected to subdiaphragmatic aortic constriction or sham surgery after 4 days of treatment. On the fifth postsurgical day, pressure and heart rate were measured in the conscious state; the brain was perfused and removed afterward. Sequential slices of brainstem were hybridized with ³⁵ S-oligodeoxynucleotide probes for angiotensinogen, AT _1A , and AT _1B receptors and processed for autoradiography and densitometry. In vehicle-treated rats, hypertension was accompanied by tachycardia and marked increments in angiotensinogen and AT _1A mRNA expression in the cardiovascular system–controlling brainstem areas. In the nucleus tractus solitarii, AT _1A density was correlated with both pressure and heart rate values ( P P 1A mRNA expression. Hypertension and losartan did not change AT _1B mRNA expression. The hypertension-induced positive feedback on angiotensinogen and AT _1A mRNA expression supports the concept of a permissive role for brain angiotensin II in orchestrating circulatory responses during the development of hypertension. These data also explain the efficacy of long-term AT ₁ receptor blockade to reverse hypertension-induced effects.