Vasoactive mediators play an important role in the control of coronary vascular tone. Arachidonic acid (AA) metabolites and endothelium-derived vasoactive factors have been implicated in coronary vasoregulation. AA can be metabolized via three separate routes in blood vessels, mediated by cyclooxygenase, lipoxygenase, and cytochrome P-450-dependent monooxygenase enzymes. AA can evoke endothelium-dependent relaxations that are due in part to the formation of cytochrome P-450-dependent metabolites, inasmuch as drugs that modify cytochrome P-450 activity produce parallel changes in endothelium-dependent relaxations to AA. Moreover, some cytochrome P-450-derived metabolites formed biologically cause relaxations of isolated blood vessels. A cytochrome P-450-dependent pathway does not appear to contribute to endothelium-dependent relaxations induced by acetylcholine, which suggests that there may be a number of endothelium-derived relaxing factors (EDRFs). In addition, two endothelium-derived contractile factors have been described, including an unidentified cyclooxygenase metabolite of AA and a polypeptide isolated from cultured cells. As both prostaglandin I2 and acetylcholine-induced EDRF also inhibit platelet aggregation, endothelial injury and loss of these factors may predispose to vasospasm precipitated by release of platelet-derived mediators such as thromboxane A2 (TXA2) and 5-hydroxytryptamine. Unstable angina may be a clinical syndrome in which these events occur, which can be alleviated by inhibition of platelet activation and TXA2 formation with aspirin. Attenuation of endothelium-dependent relaxations can also occur without loss of endothelial cells. Neutrophil-endothelium interactions, precipitated by an ischemic episode, may initiate endothelial dysfunction and underlie the development of vasospasm in some conditions. Whether increased production of endothelium-derived contractile factors also occurs in vasospastic conditions remains to be determined.

Endothelium, arachidonic acid, and coronary vascular tone

PINTO, Aldo
1987

Abstract

Vasoactive mediators play an important role in the control of coronary vascular tone. Arachidonic acid (AA) metabolites and endothelium-derived vasoactive factors have been implicated in coronary vasoregulation. AA can be metabolized via three separate routes in blood vessels, mediated by cyclooxygenase, lipoxygenase, and cytochrome P-450-dependent monooxygenase enzymes. AA can evoke endothelium-dependent relaxations that are due in part to the formation of cytochrome P-450-dependent metabolites, inasmuch as drugs that modify cytochrome P-450 activity produce parallel changes in endothelium-dependent relaxations to AA. Moreover, some cytochrome P-450-derived metabolites formed biologically cause relaxations of isolated blood vessels. A cytochrome P-450-dependent pathway does not appear to contribute to endothelium-dependent relaxations induced by acetylcholine, which suggests that there may be a number of endothelium-derived relaxing factors (EDRFs). In addition, two endothelium-derived contractile factors have been described, including an unidentified cyclooxygenase metabolite of AA and a polypeptide isolated from cultured cells. As both prostaglandin I2 and acetylcholine-induced EDRF also inhibit platelet aggregation, endothelial injury and loss of these factors may predispose to vasospasm precipitated by release of platelet-derived mediators such as thromboxane A2 (TXA2) and 5-hydroxytryptamine. Unstable angina may be a clinical syndrome in which these events occur, which can be alleviated by inhibition of platelet activation and TXA2 formation with aspirin. Attenuation of endothelium-dependent relaxations can also occur without loss of endothelial cells. Neutrophil-endothelium interactions, precipitated by an ischemic episode, may initiate endothelial dysfunction and underlie the development of vasospasm in some conditions. Whether increased production of endothelium-derived contractile factors also occurs in vasospastic conditions remains to be determined.
1987
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11386/3131089
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