Enhanced responsiveness of rat isolated aorta to clonidine after removal of the endothelial cells.

With the endothelium present, the maximum response of rat isolated aorta to clonidine was much lower than that to noradrenaline. Removal of endothelium enhanced the response to both adrenoceptor agonists and the clonidine-induced maximum contraction became almost equal to that produced by noradrenaline, although it was much more sensitive to inhibition by flunarizine and nifedipine. These results indicate that clonidine and noradrenaline activate receptors present in the endothelial cells and that these receptors are highly sensitive to clonidine

Role of endothelium in the contractile response of rat aorta to alpha-adrenoceptor agonists.

The influence of endothelium on the response of rat isolated aorta to alpha-adrenergic agonists has been studied by comparing the response of intact and denuded preparations before and after treatment with calcium entry blockers flunarizine and nifedipine. Endothelium removal enhanced the response of the preparations, especially to alpha 2-agonists that had a weak effect in intact preparations. In the absence of endothelium, about 80% of the maximum response to clonidine was blocked by calcium entry blockers, whereas only 25% of the maximum response to noradrenaline was sensitive to them. In contrast about 40% of maximum noradrenaline-evoked contractions was sensitive to calcium entry blockers in the presence of endothelium. This may be attributed to an increase in the intracellular exchangeable calcium fraction, likely to be due to a slight depolarization of smooth muscle membrane of denuded preparations, which are highly sensitive to the calcium agonist BAY K 8644. The results indicate that a factor liberated by endothelial cells controls both calcium entry and calcium release evoked by alpha-adrenoceptor agonists in vascular smooth muscle

The actions of nifedipine and nisoldipine on the contractile activity of human coronary arteries and human cardiac tissue in vitro.

We have studied the action of nifedipine and nisoldipine on the contractile activity of human isolated coronary arteries and human isolated auricular and ventricular muscles. Nisoldipine depressed dose dependently the spontaneous rhythmic contractions displayed by the coronary artery preparations and at 1 nM abolished these contractions. Nisoldipine was twenty times more potent than nifedipine as an inhibitor of increase in tone induced by depolarization (100 mM K+). The rhythmic activity induced by serotonin (10 microM) was about five times more sensitive to nisoldipine than to nifedipine. In both auricular and ventricular preparations, isoprenaline evoked an increase in the rate of force development and in the rate of relaxation. Nifedipine was five times (ventricular muscles) and ten times (auricular muscles) more potent than nisoldipine as a negative inotropic agent. The present observations in human isolated preparations indicate that nisoldipine shows a higher vascular selectivity than nifedipine

Role of endothelium in angiotensin II formation by the rat aorta and mesenteric arterial bed

We investigated the angiotensin II (Ang II)-generating system by analyzing the vasoconstrictor effect of Ang II, angiotensin I (Ang I), and tetradecapeptide (TDP) renin substrate in the absence and presence of inhibitors of the renin-angiotensin system in isolated rat aortic rings and mesenteric arterial beds with and without functional endothelium. Ang II, Ang I, and TDP elicited a dose-dependent vasoconstrictor effect in both vascular preparations that was completely blocked by the Ang II receptor antagonist saralasin (50 nM). The angiotensin converting enzyme (ACE) inhibitor captopril (36 µM) completely inhibited the vasoconstrictor effect elicited by Ang I and TDP in aortic rings without affecting that of Ang II. In contrast, captopril (36 µM) significantly reduced (80-90%) the response to bolus injection of Ang I, without affecting those to Ang II and TDP in mesenteric arteries. Mechanical removal of the endothelium greatly potentiated (70-95%) the vasoconstrictor response to Ang II, Ang I, and TDP in aortic rings while these responses were unaffected by the removal of the endothelium of mesenteric arteries with sodium deoxycholate infusion. In addition, endothelium disruption did not change the pattern of response elicited by these peptides in the presence of captopril. These findings indicate that the endothelium may not be essential for Ang II formation in rat mesenteric arteries and aorta, but it may modulate the response to Ang II. Although Ang II formation from Ang I is essentially dependent on ACE in both vessels, our results suggest the existence of an alternative pathway in the mesenteric arterial bed that may play an important role in Ang II generation from TDP in resistance but not in large vessels during ACE inhibitio