Ncitro1og.y S r r v i w . Vrtoruns Administrution Metliial Ci>ntc)r. and Departmentoj' Neurology, Univi,rsity of' Colorado Hcalt h Scienc.c~ Cen tor I
Dc,nwr, ColoradoSummary: Adenosine and its immediate metabolites, inosine and hypoxanthine, were measured in mouse brain following the induction of electroshock seizures and after a subconvulsive series of electric shocks. Electroshock seizures resulted in a marked and prolonged rise in inosine, with maximal values at 5 min. Hypoxanthine increased more slowly but reached high levels by 10 min. Adenosine was unchanged. Phenytoin and to a lesser extent phenobarbital reduced these effects. Following the subconvulsive stimulus. 15 single shocks over an interval of 5 sec. inosine increased rapidly, adenosine rose slightly, and hypoxanthine did not change. Both phenytoin and phenobarbital blocked these increases in adenosine and inosine. Early elevations in inosine may play some role in seizure generation and propagation. The high levels of inosine and hypoxanthine found after recovery may be involved in the termination of epileptic activity, possibly by interacting with the benzodiazepine receptor for which they are ligands.Recent observations have suggested that adenosine and its immediate metabolites, inosine and hypoxanthine, may play a role in epileptogenesis. The injection of adenosine, inosine, or hypoxanthine into rat cortex at concentrations down to lo-' M produces epileptiform discharges and seizures (Lewin, 1976). These purines increase in rat brain following electrical stimulation in vivo (Schultz and Lowenstein, 1978). The release of adenosine and its metabolites from cortical slices is enhanced by electrical stimulation (Pull and Mcllwain, 1972) and by depolarizing agents (Shimizu et al., 1970); and phenytoin, but not phenobarbital, inhibits the emux elicited by ouabain and veratridine (Lewin and Bleck, 1976). Therefore, it was elected to measure adenosine, inosine, and hypoxanthine in mouse brain at intervals following the induction of electroshock seizures, as well as after a subconvulsive series of electric shocks. The effect of the prior administration of phenytoin or phenobarbital was also studied.
METHODSSeizures were induced through electrodes applied to the shaved scalp just anterior to the ears. A 60-Hz square-wave current at 100 V and with a pulse duration of 5 msec was applied for 5 sec. The sub-
