Control of blood pressure by the renin-angiotensin-aldosterone system

Abstract

Modification of the renin-angiotensin system, part of a powerful feedback system for long-term control of arterial pressure and volume homeostasis, through use of angiotensin-converting enzyme (ACE) inhibitors, offers a powerful means of reducing blood pressure in many hypertensive patients. There is considerable evidence to suggest that the chronic renal and blood pressure actions of ACE inhibitors are mediated mainly by blockade of angiotensin II formation, rather than by other effects such as increased levels of kinins or prostaglandins. The long-term actions of angiotensin II and aldosterone on blood pressure are closely intertwined with their effects on volume homeostasis and the renal pressure natriuresis mechanism. In most instances, changes in angiotensin II and aldosterone act to amplify the effectiveness of pressure natriuresis and minimize changes in blood pressure needed to maintain sodium balance. When angiotensin II or aldosterone levels are inappropriately elevated, the antinatriuretic effects of these hormones shift pressure natriuresis to higher levels, thereby necessitating increased blood pressure to maintain sodium balance. Control of renal excretory function and modulation of pressure natriuresis by angiotensin II is mediated by intrarenal and extrarenal effects, including stimulation of aldosterone secretion. Current evidence indicates that the intrarenal effects of angiotensin II are quantitatively more important than changes in aldosterone in regulating renal excretion and arterial pressure. The intrarenal actions of angiotensin II include a direct effect on tubular sodium transport as well as a potent constrictor action on efferent arterioles, which increases reabsorption by altering peritubular capillary forces. The constrictor effect of angiotensin II on efferent arterioles also helps to stabilize glomerular filtration rate and therefore excretion of metabolic waste products, an action that may be particularly important when renal perfusion is impaired (e.g., in renal artery stenosis or heart failure).