Alteration of voltage-dependent calcium channels in canine brain during global ischemia and reperfusion.
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Elevated intracellular calcium (iCa2+) plays an important role in the pathophysiology of ischemic brain damage. The mechanisms by which iCa2+ increases are uncertain. Recent evidence implicates the voltage-dependent calcium channel (VDCC) as a likely site for the alteration in Ca2+ homeostasis during ischemia. The purpose of this study was to determine whether VDCCs are altered by global ischemia and reperfusion in a canine cardiac arrest, resuscitation model. We employed the radioligand, [3H]PN200-110, to quantitate the equilibrium binding characteristics of the VDCCs in the cerebral cortex. Twenty-five adult beagles were separated into four experimental groups: (a) nonischemic controls, (b) those undergoing 10-min ventricular fibrillation and apnea, (c) those undergoing 10-min ventricular fibrillation and apnea followed by spontaneous circulation and controlled respiration for 2 and (d) 24 h. Brain cortex samples were taken prior to killing of the animal, frozen immediately in liquid nitrogen, and crude synaptosomal membranes isolated by differential centrifugation/filtration. After 10 min of ischemia the maximal binding (Bmax) of [3H]PN200-110 increased to greater than 250% of control values (control Bmax 11.16 +/- 0.98; ischemic 28.35 +/- 2.78 fmol/mg protein; p less than 0.05). Bmax returned to near control values after 2 h of reperfusion but remained significantly greater than the control at 24 h. Although the affinity constant (Kd) (control = 0.12 +/- 0.03 nM) appeared to increase with ischemia and normalize with reperfusion, the changes were not statistically significant. We conclude that the binding of [3H]PN200-110 to L-type VDCCs is increased after 10 min of global ischemia/anoxia produced by ventricular fibrillation and apnea in the dog.(ABSTRACT TRUNCATED AT 250 WORDS) (+info)
Comparative effects of BRL 38227, nitrendipine and isoprenaline on carbachol- and histamine-stimulated phosphoinositide metabolism in airway smooth muscle.
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1. The ability of BRL 38227 and nitrendipine to affect muscarinic agonist and histamine-stimulated [3H]-inositol phosphate accumulation in slices of bovine tracheal smooth muscle has been studied and compared with the established inhibitory effects of isoprenaline on this pathway. 2. Pre-addition of BRL 38227 (5 microM), nitrendipine (1 microM) or isoprenaline (10 microM) significantly inhibited the subsequent inositol phosphate response to histamine at all concentrations studied (10- 1000 microM). BRL 38227 and nitrendipine also significantly inhibited the [3H]-inositol phosphate response to low (1 microM), but not high (100 microM) concentrations of carbachol. Isoprenaline had no effect at any concentration of carbachol studied. 3. Nitrendipine (IC50 = 95 nM) and BRL 38227 (IC50 = 322 nM) caused concentration-related inhibitions of the inositol phosphate response to histamine (100 microM). Similar maximal inhibitions were caused by each agent (55-58%). Inhibitory effect of BRL 38227 was reduced in potency (IC50 = 5.5 microM), but not magnitude, in the presence of glibenclamide (0.5 microM). 4. Time-course studies comparing the effects of BRL 38227 addition 15 min before, and 10 min after histamine challenge showed that for pre-addition a distinct (less than 2 min) lag occurred following histamine addition before the inhibitory effect of BRL 38227 was manifest. In contrast, when BRL 38227 was added 10 min after histamine, an inhibitory effect was immediately apparent. 5. Further evidence for an initial, 'protected' phase of inositol phosphate accumulation was provided by the finding that BRL 38227 pre-addition had no effect on the early (0-300 s) time-course of inositol 1,4,5-trisphosphate mass accumulation. 6. The inhibitory effect of BRL 38227, but not that of nitrendipine or isoprenaline, on histaminestimulated [3H]-inositol phosphate accumulation was completely prevented in the presence of an elevated extracellular K+ (65 mM) concentration. 7. The results demonstrate that membrane hyperpolarization, and/or blockade of voltage-operated Ca2"-channels can regulate agonist-stimulated phosphoinositide metabolism in airway smooth muscle. The possible contribution of this regulatory mechanism to the relaxant properties of these agents is discussed. (+info)
Cardiovascular effects of substituted tetrahydroisoquinolines in rats.
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1. A series of substituted tetrahydroisoquinolins derived from the cleavage products of tetrandrine were found to inhibit [3H]-nitrendipine binding to rat cerebral cortical membranes. Those compounds which displaced [3H]-nitrendipine binding were also able to inhibit high KCl-induced contraction of rat aorta in vitro. 2. There was a significant correlation between the ability of these tetrahydroisoquinolines to inhibit [3H]-nitrendipine binding and KCl-induced contraction (r = 0.99, P less than 0.001). 3. CPU-23 (1-(1-[(6-methoxy)-naphth-2-yl])-propyl-2-(1-piperidine)-acetyl- 6,7- dimethoxy-1,2,3,4-tetrahydroisoquinoline), one of the most potent compounds identified in this series, behaved as a simple competitive inhibitor at the [3H]-nitrendipine binding site and reduced the apparent affinity but not the maximal number of binding sites in saturation analysis. 4. In contrast to nifedipine which caused hypotension and tachycardia, CPU-23 induced both hypotension and bradycardia in a dose-dependent manner in pentobarbitone-anaesthetized Sprague-Dawley rats, spontaneously hypertensive and age-matched normotensive WKY rats. 5. It is suggested that CPU-23 may exert its cardiovascular effects via interaction with the dihydropyridine binding site on the L-type calcium channel. (+info)
Evidence for a noradrenergic innervation to alpha 1A-adrenoceptors in rat kidney.
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1. Experiments were undertaken to characterize the alpha 1-adrenoceptor subtype mediating vasoconstrictor responses to periarterial noradrenergic nerve stimulation (PNS) in the isolated perfused kidney of the rat. 2. Vasoconstrictor responses to nerve stimulation were inhibited by prazosin (10 nM), 5-methyl-urapidil (30 nM), and nitrendipine (1 microM) but were resistant to inhibition by chloroethylclonidine (100 microM). 3. 5-Methyl-urapidil (30 nM), chloroethylclonidine (100 microM) and nitrendipine (1 microM) did not inhibit the neuronal release of tritium from nerves loaded with [3H]-noradrenaline. 4. The results suggest that renovascular alpha 1A-adrenoceptors receive a noradrenergic innervation and that the innervated receptors are coupled to dihydropyridine-sensitive calcium channels. (+info)
Modulation of dihydropyridine-sensitive calcium channels in heart cells by fish oil fatty acids.
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The highly unsaturated n-3 fatty acids from fish oils, eicosapentaenoic acid [EPA; C20:5 (n-3)] and docosahexanoic acid [DHA; C22:6 (n-3)], prevent the toxicity of high concentrations of the cardiac glycoside ouabain to isolated neonatal rat cardiac myocytes. Arachidonic acid [C20:4 (n-6)] lacks such protective action. The protective effect of the n-3 fatty acids is associated with their ability to prevent high levels of cytosolic free calcium from occurring in response to the ouabain. This in turn results, at least in part, from a 30% reduction in calcium influx rate induced by the n-3 fatty acids. This protective effect is simulated by nitrendipine, a dihydropyridine inhibitor of the L-type calcium channels in cardiac myocytes. Nitrendipine (0.1 mM) alone, however, inhibits myocyte contractility, as do verapamil (10 microM) and diltiazem (1.0 microM). EPA or DHA (5 microM) blocks the inhibitory effects of nitrendipine but not those of verapamil or diltiazem. Bay K8644, a known dihydropyridine agonist of L-type calcium channels, produces a ouabain-like effect that is also prevented by EPA or DHA. Specific binding of [3H]nitrendipine to intact myocytes is noncompetitively inhibited by EPA or DHA in a manner that reduces the number of high- and low-affinity binding sites (Bmax) and increases their affinities. The fish oil fatty acids prevent calcium overload from ouabain and Bay K8644. They also prevent a calcium-depleted state in the myocytes caused by the L-type calcium channel blocker nitrendipine. The protective effects of the n-3 fatty acids appear to result from their modulatory effects on nitrendipine-sensitive L-type calcium channels. (+info)
Dihydropyridine-sensitive L-type Ca2+ channels in human foreskin fibroblast cells. Characterization of activation with the growth factor Lys-bradykinin.
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We have previously characterized the calcium response of cultured human fibroblasts (HSWP cells) to stimulation by the mitogen Lys-bradykinin (BK). We have reported a biphasic response which includes a rapid rise to a peak that appears to result from mobilization of internal calcium, and a plateau phase, which is due to influx of external calcium (Byron, K., Babnigg, G., Villereal, M. L. (1992) J. Biol. Chem. 267, 108-118). In this paper we examine participation of L-type voltage operated calcium channels in the calcium entry phase of BK-stimulated HSWP cells. We show that there is an increase in 45Ca2+ uptake and an increase in intracellular free calcium concentration ([Ca2+]i) as measured by fura-2, when HSWP cells are stimulated with the L-channel agonist Bay K 8644 under depolarizing conditions. Furthermore, both of these effects are inhibited by low doses of the dihydropyridine antagonist nitrendipine. We also report that BK stimulation of 45Ca2+ uptake can be significantly inhibited by low doses of nitrendipine, while nitrendipine treatment has no effect on the BK-induced rise in [Ca2+]i, as measured by fura-2. These results suggest that under normal conditions the portion of the BK-stimulated Ca2+ influx which is mediated by a nitrendipine-sensitive entry pathway is invisible to the fura-2 technique used to measure [Ca2+]i. This suggest that the nitrendipine-sensitive influx pathway admits calcium preferentially into an intracellular store that is isolated from fura-2. This idea is supported by the observation that in media where calcium has been replaced by 2 mM Ba2+ nitrendipine inhibits most of the BK-stimulated Ba2+ influx. (+info)
Mode of action and comparative efficacy of pharmacological agents that inhibit calcium-dependent dehydration of sickle cells.
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1. Selected Ca-channel antagonists were tested at 20 microM as inhibitors of Ca(2+)-uptake in human sickle red cells. Nitrendipine, fendiline, and bepridil (and its stereoisomers), were found to be as effective as methoxyverapamil (D-600) in inhibiting a fraction (25%) of Ca(2+)-uptake. In contrast cetiedil and Org 30701 were ineffective. 2. The drugs were subsequently tested as inhibitors of Ca(2+)-induced K+ efflux (Gardos) from sickle cells. They all showed inhibitory activity, with the order of efficacy nitrendipine greater than fendiline greater than bepridil greater than cetiedil greater than Org 30701. 3. With a 15 h programme of deoxygenation/reoxygenation cycles in a gas exchanger, it was shown that the inhibitors protected against cellular dehydration and loss of filterability in the order nitrendipine greater than fendiline greater than bepridil greater than cetiedil greater than Org 30701. However, significant stomatocytosis occurred at high concentrations of cetiedil, and bepridil (including its stereoisomers and analogues) impairing cell deformability. 4. It is concluded that Ca-antagonists may partially block both Ca(2+)-uptake and Ca(2+)-induced K+ efflux. The latter pathway is significant in contributing to sickle cell dehydration and nitrendipine is the most effective inhibitor of this route. (+info)
Folipastatin, a new depsidone compound from Aspergillus unguis as an inhibitor of phospholipase A2. Taxonomy, fermentation, isolation, structure determination and biological properties.
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A new inhibitor of phospholipase A2 was isolated from the fermentation broth of Aspergillus unguis. The structure, with a depsidone carbon skeleton, was assigned by spectroscopic experiments. (+info)