Studies were undertaken to examine the pharmacological properties and stereochemical requirements of a limited series of prostanoic acid analogs for inhibition of arachidonic acid (AA) and/or endoperoxide (U46619)-mediated responses in human platelets and rat aorta. To assess the role of stereochemistry, a set of trans- and cis-isomers of 13-azaprostanoic acid (APA) and 11a-homo-13-azaprostanoic acid (HAPA) were prepared. Each prostanoic acid analog blocked AA- or U46619-induced aggregatory and secretory responses in platelets, and U46619-mediated contractions of rat aorta in a concentration-dependent manner (0.1 to 100 microM). The azaprostanoic acid analogs blocked responses to both inducers of platelet activation with IC50 values ranging from 3.4 to 27.5 microM. Trans-APA was about 2- to 3-fold more active as an antagonist of serotonin release induced by AA or U46619 than the remaining analogs. The rank order of inhibitory potency (IC50; microM) for these analogs against U46619-induced serotonin release in human platelets was trans-APA (3.4) greater than cis-APA (8.9) = cis-HAPA (8.7) = trans-HAPA (9.1). Concentrations of the prostanoic acid analogs required to block these responses to AA and U46619 were similar, and the highest concentration used (100 microM) did not modify AA-induced malondialdehyde production in human platelet preparations. In contrast, the isomers of APA and HAPA were equally active as antagonists of U46619-induced contractions of rat vascular tissue, possessing KB values varying from 7.1 to 13.2 microM. Each azaprostanoic acid analog shifted the concentration-response curve of U46619 in rat aorta to the right, indicating a competitive-type inhibition. In addition, the azoprostanoic acid analog (U51605) was a more potent competitive antagonist of U46619 in this preparation and possessed an average pKB value of 6.18. In summary, the results show that (1) expansion of the five-membered ring of APA to the six-membered ring analogs (HAPA) led to a retention of potent inhibitory activity against U46619 in human platelets and rat vascular smooth muscle, (2) the antiaggregatory and antisecretory actions of the azaprostanoic acid analogs were mediated by a blockade of the responses to AA and U46619, and not by an inhibition of AA metabolism, (3) the blocking activity for the APA isomers was stereoselective (trans greater than cis) whereas the isomers of HAPA were equally effective as inhibitors of platelet function; and (4) these azaprostanoic acid analogs act as selective endoperoxide (U46619)/thromboxane A2 antagonists in these two tissues.