The effect of angiotensin I (AI), angiotensin II (AII), [des-asp1]AI, [des-asp1]AII and [des-asp1-arg2]AII on corticosteroid production in isolated fasciculata cells from bovine adrenals has been studied. AII and [des-asp1]AII in concentrations ranging from 10(-9)M to 10(-6)M had a potent stimulatory effect on steroid biosynthesis. The dose-response curves for both peptides were identical. AI was about 3 times less potent than AII and [des-asp1]AII. The effect of AI was not due to its conversion to AII. [Des-asp1]AI was as active as AI. No significant conversion to [des-asp1]AII was observed. [Des-asp1-arg2]AII had only a minimal effect on steroidogenesis. The structural analog [sar1,-ala8]AII inhibited all angiotensins specifically and competitively. The affinity of the cellular binding site was higher for AII and [des-asp1]AII than for [sar1,ala8]ALL, but lower for AI and [des-asp1]AI than for the inhibitor. Combination of submaximal doses of AI and AII resulted in an additive effect on steroid production. By contrast, combination of maximal doses of both peptides had the same effect as AII alone. These data demonstrate a potent steroidogenic activity for AII as well as AI, [des-asp1]AI and [des-asp1]AII in bovine adrenal fasciculata cells. A common receptor site for all four peptides is suggested.
We have further characterized angiotensin receptors on bovine adrenal fasciculata cells whose presence was previously demonstrated by the intrinsic agonistic activity of angi-
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