The cardiac renin-angiotensin system: physiological relevance and pharmacological modulation.

Many cell types in myocardial tissue, including cardiocytes, contain receptors for angiotensin-II, but the activation of these receptors requires angiotensin concentrations in the micromolar range, which do not occur in plasma in vivo. However, angiotensins formed locally in the heart can activate these receptors in a paracrine and autocrine mode. In cardiac hypertrophy due to hemodynamic overload, the myocardial angiotensin formation is enhanced due to an augmented expression of angiotensinogen and ACE. Though the mRNA for prorenin is expressed in myocardium, the formation of active renin within the heart has not yet been demonstrated and myocardial renin activity is mainly due to contamination from circulating active renin. Intracoronary application of ACE inhibitors in hypertrophied hearts in vivo and in vitro indicates that the locally formed angiotensin-II contributes to coronary constriction, impairment of diastolic relaxation and marginally to the maintenance of systolic tension development. Angiotensin-II can exert trophic effects on cardiocytes and cardiac fibroblasts, and chronic inhibition of the cardiac RAS by ACE-inhibitors or AT receptor antagonists can induce partial regression of overload hypertrophy, even without normalizing the overload. This anti-trophic action may be partially due to the impairment of the angiotensin axis, but also due to enhancement of bradykinin availability, which results in an augmented release of endothelial anti-trophic signals such as EDRF/NO and prostacyclin. Preliminary evidence is compatible with the hypothesis that an activated local RAS in elastic arteries contributes to the localization and progression of atherosclerosis by suppressing EDRF releasability. However, the anti-atherosclerotic potential of ACE inhibitors and AT receptor antagonists in humans is still unknown.