The effects of adenosine A sub(3) receptor stimulation on seizures in mice

We have previously shown that acute preischemic adenosine A sub(3) receptor stimulation results in an increased postischemic damage, while chronic stimulation of this receptor diminishes it. Since several pathophysiological phenomena are common for both ischemia and seizures, we have explored the ef...

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Bibliographic Details
Published in:European journal of pharmacology 1995-01, Vol.275 (1), p.23-29
Main Authors: Von Lubitz, DKJE, Carter, M F, Deutsch, SI, Lin, RC-S, Mastropaolo, J, Meshulam, Y, Jacobson, KA
Format: Article
Language:English
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Summary:We have previously shown that acute preischemic adenosine A sub(3) receptor stimulation results in an increased postischemic damage, while chronic stimulation of this receptor diminishes it. Since several pathophysiological phenomena are common for both ischemia and seizures, we have explored the effect of acute and chronic administration of the adenosine A sub(3) receptor selective agonist IB-MECA (N super(6)-(3-iodobenzyl) adenosine-5'-N-methylcarboxamide) prior to seizures induced by N-methyl-D-aspartate (NMDA), pentamethylenetetrazole, or electric shock. At 100 mu g/kg, acutely injected IB-MECA was protective in chemically but not electrically induced seizures. In chronic administration of IB-MECA, significant protection against chemically induced seizures was obtained in all studied measures, i.e., seizure latency, neurological impairment, and survival. Although threshold voltage was unchanged in electrically induced seizures, a chronic regimen of IB-MECA significantly reduced postepileptic mortality. Since the combination of an arteriole-constricting compound 48/80 and hypotension-inducing clonidine injected prior to NMDA results in a significant protection against seizures, and since acute stimulation of adenosine A sub(3) receptor causes both arteriolar constriction and severe hypotension, there is a possibility that the protection obtained by the acutely administered drug may result from inadequate delivery of chemoconvulsants to the brain. It is, however, unknown whether the protective effect of chronically administered IB-MECA is related to the effect of the drug on blood flow, neuronal mechanisms, or both.
ISSN:0014-2999