Andreas Dendorfer1, Walter Raasch, Klaus Tempel, Peter Dominiak. 1. Institute of Experimental and Clinical Pharmacology and Toxicology, Medical University of Luebeck, Ratzeburger Allee 160, 23538 Luebeck, Germany. dendorfe@medinf.mu-luebeck.de
Abstract
BACKGROUND: Angiotensin II is known to facilitate the release of catecholamines from peripheral sympathetic neurons by stimulating presynaptically located receptors. Although inhibitor studies have revealed these to be angiotensin II type 1 (AT1) receptors, they do in fact appear to display peculiar susceptibilities to various AT1 receptor antagonists, which might correspond to different neuronal and vascular receptor subtypes. OBJECTIVE: A direct comparison of the pre- and postsynaptic potencies of four AT1 antagonists was performed to characterize these receptors further. DESIGN: We studied angiotensin II-induced catecholamine release and vasoconstriction in pithed, spontaneously hypertensive rats under the influence of candesartan, eprosartan, EXP 3174, and irbesartan. The effect of AT1 blockade on postsynaptic vascular sensitivity to noradrenaline (NA) was also determined. METHODS: Pithed rats received repeated intravenous applications of either angiotensin II or NA, preceded by cumulatively increasing doses of the AT1 antagonists. Vasoconstriction and catecholamine release were quantified by the measurement of acute increases in blood pressure and plasma NA, respectively. RESULTS: All AT1 antagonists dose-dependently suppressed angiotensin II-induced vasoconstriction and release of NA. Although the antagonists differed greatly in their inhibitory potencies (ID50 range 7-445 microg/kg), each displayed a similar potency at both neuronal and vascular angiotensin receptors. In a higher dose range, all AT1 antagonists attenuated the blood pressure increase in response to NA by up to 70%. The order of potencies for all inhibitory effects was: candesartan > eprosartan > EXP 3174 > irbesartan. CONCLUSION: The AT1 antagonists tested do not discriminate between presynaptic neuronal and postsynaptic vascular angiotensin II receptors - a fact that refutes the existence of tissue-specific AT1 receptor subtypes. A marked reduction in vascular sensitivity to NA may contribute to the antihypertensive and cardioprotective mechanisms of AT1 antagonists.
BACKGROUND:Angiotensin II is known to facilitate the release of catecholamines from peripheral sympathetic neurons by stimulating presynaptically located receptors. Although inhibitor studies have revealed these to be angiotensin II type 1 (AT1) receptors, they do in fact appear to display peculiar susceptibilities to various AT1 receptor antagonists, which might correspond to different neuronal and vascular receptor subtypes. OBJECTIVE: A direct comparison of the pre- and postsynaptic potencies of four AT1 antagonists was performed to characterize these receptors further. DESIGN: We studied angiotensin II-induced catecholamine release and vasoconstriction in pithed, spontaneously hypertensiverats under the influence of candesartan, eprosartan, EXP 3174, and irbesartan. The effect of AT1 blockade on postsynaptic vascular sensitivity to noradrenaline (NA) was also determined. METHODS:Pithedrats received repeated intravenous applications of either angiotensin II or NA, preceded by cumulatively increasing doses of the AT1 antagonists. Vasoconstriction and catecholamine release were quantified by the measurement of acute increases in blood pressure and plasma NA, respectively. RESULTS: All AT1 antagonists dose-dependently suppressed angiotensin II-induced vasoconstriction and release of NA. Although the antagonists differed greatly in their inhibitory potencies (ID50 range 7-445 microg/kg), each displayed a similar potency at both neuronal and vascular angiotensin receptors. In a higher dose range, all AT1 antagonists attenuated the blood pressure increase in response to NA by up to 70%. The order of potencies for all inhibitory effects was: candesartan > eprosartan > EXP 3174 > irbesartan. CONCLUSION: The AT1 antagonists tested do not discriminate between presynaptic neuronal and postsynaptic vascular angiotensin II receptors - a fact that refutes the existence of tissue-specific AT1 receptor subtypes. A marked reduction in vascular sensitivity to NA may contribute to the antihypertensive and cardioprotective mechanisms of AT1 antagonists.