Eleonora Gashi scite author profile

Clozapine was found to be effective in attenuating cocaine-induced neurochemical effects. We investigate whether clozapine influences in utero cocaine exposure-induced changes in striatal dopamine levels and cortical N-methyl-D-aspartate (NMDA) receptor density in mouse and rat brains. Pregnant mice or rats were injected with cocaine (5 or 10 mg/kg intraperitoneally) or saline every 24 h throughout gestation and continued for 6 weeks following the delivery. Striatal dopamine levels measured by highpressure liquid chromatography were found to decrease 24 to 33% in gestational cocaine exposed between the ages of 3 to 15 days, but not in 42-day-old pups. The cortical NMDA receptor densities assessed either in the presence of 100 M glutamate or 30 M glycine were significantly increased in 15-day-old gestational cocaine-exposed rats. Simultaneous daily administration of 3 mg/kg clozapine with 5 mg/kg cocaine to pregnant mice protected against the decrease in striatal dopamine levels or an increase in the concentration of NMDA receptor measured in the presence of 100 M glutamate in 15-day-old pups. Clozapine did not affect striatal dopamine levels by itself or when coadministered with cocaine in 42-day-old pups. The results show gestational cocaine may induce neurochemical abnormalities in brain exhibited as an increased glutamate NMDA receptor density together with a decreased striatal dopamine level. These effects of gestational cocaine exposure may be prevented by simultaneous administration of clozapine. Thus clozapine, which is a partial agonist at the NMDA receptor, may be of value in protecting against gestational cocaineinduced adverse effects in the brain.

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Cocaine challenge enhances release of neuroprotective amino acid taurine in the striatum of chronic cocaine treated rats: A microdialysis study

Yablonsky-Alter

Agovic

Gashi

et al. 2009

Brain Research Bulletin

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Drug addiction is a serious public health problem. There is increasing evidence on the involvement of augmented glutamatergic transmission in cocaine-induced addiction and neurotoxicity. We investigated effects of acute or chronic cocaine administration and cocaine challenge following chronic cocaine exposure on the release of excitotoxic glutamate and neuroprotective taurine in the rat striatum by microdialysis. Cocaine challenge, following withdrawal after repeated cocaine exposure markedly increased the release of glutamate, which may cause neurotoxicity. Simultaneously, cocaine challenge after withdrawal also significantly increased the release of taurine, which counteracts glutamate-mediated excitotoxicity and possibly cell death. Thus, the mammalian brain has an endogenous self-protective mechanism against cocaine-mediated neurotoxicity and potentially addiction.

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Eleonora Gashi

Cortical Plasticity in Alzheimer’s Disease in Humans and Rodents

Clozapine Protection against Gestational Cocaine-Induced Neurochemical Abnormalities

Cocaine challenge enhances release of neuroprotective amino acid taurine in the striatum of chronic cocaine treated rats: A microdialysis study

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