Different types of antagonism by losartan and irbesartan on the effects of angiotensin II and its degradation products in rabbit arteries

A previous study by our group has demonstrated that the selective AT(1)-receptor endothelium, antagonist losartan behaves as a noncompetitive antagonist in rabbit isolated renal artery (RA), In the present investigation, the influence of losartan and irbesartan on the contractile effects of angiotensin II (AII) and its degradation products angiotensin III (AIII) and angiotensin IV (AIV) was determined in the rabbit isolated RA and femoral artery (FA), The arteries were set up in organ chambers and changes in isometric force were recorded, In both rabbit isolated RA and FA preparations, AII, AIII and AIV elicited significant contractile responses with a similar efficacy. These effects were impaired by the presence of functional endothelium in RA preparations but not in FA preparations. In both preparations studied, the effects of ALI, AIII and AIV were influenced neither by the aminopeptidase-A and -M inhibitor amastatin (10 muM), nor by the aminopeptidase-B and -M inhibitor bestatin (10 muM). In endothelium-denuded FA preparations, preincubation with losartan (3-300 nM) antagonized AII-, AIII- and AIV-induced contractions in a competitive manner, However, in endothelium-denuded RA preparations, losartan depressed the maximal contractile responses induced by ALI but not those induced by AIII and AIV, fn the same preparations, preincubation of another selective AT(1)-receptor antagonist irbesartan (3-30 nM) concentration-dependently shifted ALI and AIII curves to the right in an insurmountable manner. The reduction of the maximal response of AII is more potent when compared to that of AIII (47.7 +/- 1.51% vs. 66.7 +/- 1.88%, percentage of the initial maximal response; P < 0.05; n = 5), The selective AT(2)-receptor antagonist PD123177 (1 muM) did not influence the responses to all three peptides in both RA and FA preparations. These heterogeneous antagonistic effects of the two AT(1)-receptor antagonists studied with respect to the contractile actions of Ail, AIII and AIV suggest the possible existence of multiple, functionally relevant AT(1)-receptor subtypes in rabbit RA preparations.