Inhibition of angiotensin-converting enzyme reduces rat liver reperfusion injury via bradykinin-2-receptor.

Background: Bradykinin is both a potent vasodilatator and a central inflammatory mediator. Similar to findings in myocardial reperfusion injury, bradykinin might mediate the protective effects of angiotensin-converting enzyme (ACE) inhibition after liver ischemia via increased bradykinin-2-receptor (B-2) stimulation. On the other hand, B-2-inhibition has been shown to reduce liver reperfusion injury. This study was designed to investigate the role of Bradykinin in hepatic reperfusion injury.

Materials And Methods: Twenty eight rats were allocated randomly to Sham procedure (Sham), 30-min normothermic ischemia (ischemia), ischemia with Ramiprilat (ACE-I), or ischemia with Ramiprilat and B-2-inhibitor HOE 140 (ACE-I+B-2-I). Liver microcirculation and leukocyte adherence were investigated using intravital microscopy 30 min after reperfusion (n = 7 per group). In addition, serum activities of AST and ALT were measured for 7 days (n = 28).

Results: Ischemia was associated with a loss of perfused sinusoids, sinusoidal vasoconstriction, and a reduction in microvascular blood flow. Permanent leukocyte adherence increased both in sinusoids and in postsinusoidal venoles. ACE-I restored sinusoidal perfusion, normalized vasoregulation, maintained sinusoidal blood flow, and inhibited leukocyte adhesion. ACE-I+B-2-I abolished the protective effects linked to ACE-I. Ischemia-induced liver cell injury after 5 h of reperfusion was ameliorated by ACE-I. In the ACE-I+B-2-I group, reduction in liver cell injury was reversed.

Conclusion: After hepatic ischemia, ACE-I reduced reperfusion injury in a B-2-dependent manner. These results suggest a pivotal role for bradykinin in the treatment of reperfusion injury by Ramiprilat, mediating sinusoidal dilation and blunting hepatic inflammation.