chymostatin and candesartan

Like human chymase, hamster chymase is an ANG II-forming enzyme, but pathophysiological roles of chymase are still unknown. We determined the functional conversion of ANG I and [Pro11, D-Ala12]ANG I, a chymase-selective substrate, to ANG II in the hamster cardiovascular system. ANG I and [Pro11, D-Ala12]ANG I produced similar dose-dependent pressor responses in conscious hamsters. Captopril and CV-11974, an ANG II type 1 (AT1)-receptor antagonist, inhibited the responses to ANG I; in contrast, the pressor responses to [Pro11, D-Ala12]ANG I were suppressed only by CV-11974. In the isolated aorta, captopril suppressed ANG I-induced contraction by 84%; administration of captopril with either chymostatin or aprotinin eliminated the contraction. [Pro11, D-Ala12]ANG I-induced contraction was not affected by captopril but was attenuated by chymostatin (71%) and aprotinin (57%). CV-11974 abolished the responses to both substrates, whereas PD-123319, an AT2-receptor antagonist, had no effect. In homogenates of the aorta and heart, soybean trypsin inhibitor-inhibitable ANG II formation predominated over captopril- or aprotinin-inhibitable ANG II formation. These data suggest that [Pro11,D-Ala12]ANG I and part of ANG I were functionally converted to ANG II by chymase and other serine protease(s) in hamster vessels, inducing AT1-receptor-mediated vasoconstriction. Biochemical data supported a role for chymase in the alternative pathway.

Topics: Angiotensin I; Angiotensin II; Angiotensin Receptor Antagonists; Animals; Aorta, Thoracic; Aprotinin; Benzimidazoles; Biphenyl Compounds; Blood Pressure; Captopril; Chymases; Cricetinae; Heart Ventricles; Humans; In Vitro Techniques; Male; Mesocricetus; Muscle Contraction; Muscle, Smooth, Vascular; Myocardium; Oligopeptides; Serine Endopeptidases; Substrate Specificity; Tetrazoles; Vasoconstriction