European journal of pharmacology
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It has been reported that the ACTH-(4-9) analog H-Met(O(2))-Glu-His-Phe-D-Lys-Phe-OH (ORG 2766) administered in adulthood has trophic effects on neuronal tissue and when given postnatally, it can induce long-lasting changes in brain development. In the present study, we investigated whether early postnatal treatment with ORG 2766 affects adult neuronal vulnerability, i.e. the sensitivity of cholinergic neurons against excitotoxic damage. Wistar rat pups received injections of ORG 2766 or saline on postnatal days 1, 3 and 5 and were then left undisturbed until adulthood. ⋯ Twenty eight hours after NMDA infusion, postnatally ACTH-(4-9)-treated animals showed stronger suppression of choline-acetyltransferase immunoreactivity and increased reaction of glial fibrillary acidic protein -immunopositive astrocytes in the lesioned nucleus compared to control animals. However, 12 days post-surgery, the NMDA-induced loss of cholinergic neurons, as well as the decrease of their acetylcholinesterase -positive fibre projections in the cortex, were less in ACTH-(4-9) animals. Our data indicate that the early developmental effects of ACTH-(4-9) influence intrinsic neuroprotective mechanisms and reactivity of neuronal and glial cells, thereby resulting in a facilitated rescuing mechanism following excitotoxic injury.
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Biophysical and pharmacological characteristics of the delayed rectifier K(+) current (I(K)) of rabbit sinoatrial (SA) node and atrioventricular (AV) node cells have been studied using the whole-cell patch clamp technique together with a recently developed antiarrhythmic agent, ibutilide. Ibutilide is a potent blocker of the rapid delayed rectifier K(+) current, I(Kr). Superfusion with ibutilide (10(-7) M) caused a decrease in the spontaneous firing frequency, depolarization of the maximal diastolic potential and prolongation of the action potential duration in both SA and AV node cells. ⋯ A 10-fold increase in the concentration of ibutilide further decreased I(K) in SA node cells (67+/-8%), and blocked I(K) almost completely in AV node cells. These results are consistent with the hypothesis that the delayed rectifier K(+) current in SA node cell is generated by both I(Kr) and I(Ks), whereas I(Kr) predominates in AV node cells. Knowledge of the differences in the distribution of I(Kr), as well as the different sensitivity to blockers of I(Kr) in nodal cells, is important for understanding modifications of the automaticity, conduction velocity, and refractoriness by class III antiarrhythmic agents.
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The present study was undertaken to determine whether ATP-MgCl(2) administration in rats could protect hepatic mitochondrial function and improve energy metabolism during hepatic ischemia and subsequent reperfusion. Global hepatic ischemia was produced for 60 min followed by reperfusion. The rats then received 0.5 ml of saline or ATP-MgCl(2) intravenously. ⋯ ATP-MgCl(2) infusion resulted in accumulation of adenosine in reperfused liver. Mitochondrial lipid peroxidation was elevated in the saline-treated ischemic group, but this elevation was inhibited by ATP-MgCl(2) infusion. The present results lead us to conclude that the amelioration of liver function which occurs with ATP-MgCl(2) infusion following ischemia may be mediated through improvement in ischemia-induced mitochondrial energy metabolism.
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To explore the site and mechanism of the analgesic action of melatonin, the present study was designed to evaluate the analgesic effects of intraperitoneal (i.p.) and intracerebroventricular (i.c.v. ) administration of melatonin, and to investigate the effect of i.c. v. naloxone on the analgesic effect induced by i.p. melatonin in rats. Antinociception was determined by tail-flick latency to hot water at 50 degrees C. ⋯ Injected i.c.v. to rats, 10 microg of naloxone antagonized significantly the antinociceptive effect induced by i.p. melatonin. It is concluded that melatonin has an analgesic effect in rats and the central nervous system (CNS) may be the primary site for melatonin to elicit the response, and the effect of melatonin is related to the central opioid system.