| pubmed-article:2351436 | pubmed:abstractText | A series of nonpeptide angiotensin II (Ang II) receptor antagonists was evaluated in rat adrenal cortical microsomes for their inhibitory effects on the specific binding of [3H]Ang II, in the isolated rabbit aorta bioassay for their functional antagonism of contractile response to Ang II, and in high renin, renal-hypertensive rats for their intravenous antihypertensive effects, expressed as IC50, pA2, and intravenous ED30, respectively. Highly significant linear correlations were found between IC50 and pA2 (r = -0.88), between IC50 and intravenous ED30 (r = 0.79), and between pA2 and intravenous ED30 (r = -0.93). In both in vitro and in vivo functional assays, none of these antagonists exhibited agonistic effects. The orally active nonpeptide Ang II receptor antagonists EXP9270 and DuP 753 (oral ED30 = 3.6 and 0.59 mg/kg, respectively) were selected for further characterization. These antagonists exhibited selective and competitive Ang II antagonism in rabbit aorta and guinea pig ileum. In conscious normotensive rats, DuP 753 abolished the pressor response to saralasin, suggesting that the pressor effect of saralasin is attributed to its Ang II-like activity. In addition, DuP 753 also blocked the Ang II-induced drinking response and aldosterone release in rats. These results suggest that Ang II receptor blockade is the primary mechanism of the antihypertensive effect of these nonpeptide Ang II receptor antagonists. Further, the specificity and lack of partial agonistic effects of these molecules make them potentially useful physiological probes and therapeutic agents. | lld:pubmed |
