Flow-Dependent Dilation Mediated by Endogenous Kinins Requires Angiotensin AT 2 Receptors

Abstract

The vascular kallikrein-kinin system contributes to about one third of flow-dependent dilation in mice carotid arteries, by activating bradykinin B₂ receptors coupled to endothelial nitric oxide (NO) release. Because the bradykinin/NO pathway may mediate some of the effects of angiotensin II AT₂ receptors, we examined the possible contribution of AT₂ receptors to the kinin-dependent response to flow. Changes in outer diameter after increases in flow rate were evaluated in perfused arteries from wild-type animals (TK^+/+) and in tissue kallikrein-deficient mice (TK^−/−) in which the presence of AT₂ receptor expression was verified. Saralasin, a nonselective angiotensin II receptor antagonist, impaired significantly flow-induced dilation in TK^+/+, whereas it had no effect in TK^−/− mice. In both groups, blockade of AT₁ receptors with losartan or candesartan did not affect the response to flow. Inhibition of AT₂ receptors with PD123319 reduced significantly flow-induced dilation in TK^+/+ mice, but had no significant effect in TK^−/− mice. Combining PD123319 with the bradykinin B₂ receptor antagonist HOE-140 had no additional effect to AT₂ receptor blockade alone in TK^+/+ arteries. Flow-dependent-dilation was also impaired in AT₂ receptor deficient mice (AT₂^−/−) when compared with wild-type littermates. Furthermore, HOE-140 significantly reduced the response to flow in the AT₂^+/+, but not in AT₂^−/− mice. In conclusion, this study demonstrates that the presence of functional AT₂ receptors is necessary to observe the contribution of the vascular kinin-kallikrein system to flow-dependent dilation.