Glutamate neurotoxicity in cortical cell culture

DW Choi, M Maulucci-Gedde… - Journal of …, 1987 - Soc Neuroscience
DW Choi, M Maulucci-Gedde, AR Kriegstein
Journal of Neuroscience, 1987Soc Neuroscience
The central neurotoxicity of the excitatory amino acid neurotransmitter glutamate has been
postulated to participate in the pathogenesis of the neuronal cell loss associated with
several neurological disease states, but the complexity of the intact nervous system has
impeded detailed analysis of the phenomenon. In the present study, glutamate neurotoxicity
was studied with novel precision in dissociated cell cultures prepared from the fetal mouse
neocortex. Brief exposure to glutamate was found to produce morphological changes in …
The central neurotoxicity of the excitatory amino acid neurotransmitter glutamate has been postulated to participate in the pathogenesis of the neuronal cell loss associated with several neurological disease states, but the complexity of the intact nervous system has impeded detailed analysis of the phenomenon. In the present study, glutamate neurotoxicity was studied with novel precision in dissociated cell cultures prepared from the fetal mouse neocortex. Brief exposure to glutamate was found to produce morphological changes in mature cortical neurons beginning as quickly as 90 sec after exposure, followed by widespread neuronal degeneration over the next hours. Quantitative dose- toxicity study suggested an ED50 of 50–100 microM for a 5 min exposure to glutamate. Immature cortical neurons and glia were not injured by such exposures to glutamate. Uptake processes probably do not limit GNT in culture, as the uptake inhibitor dihydrokainate did not potentiate GNT. Possibly reflecting the lack of uptake limitation, glutamate was found to be actually more potent than kainate as a neurotoxin in these cultures, a dramatic reversal of the in vivo potency rank order. Some neurons regularly survived brief glutamate exposure; these possibly glutamate-resistant neurons had electrophysiologic properties, including chemosensitivity to glutamate, that were grossly similar to those of the original population.
Soc Neuroscience