Modulation of extrasynaptic GABAergic receptor activity influences glutamate release and neuronal survival following excitotoxic damage to mouse spinal cord neurons

MAZZONE, GRACIELA L.; NISTRI, ANDREA

NEUROCHEMISTRY INTERNATIONAL

PERGAMON-ELSEVIER SCIENCE LTD

Año: 2019 vol. 128 p. 175 - 185

0197-0186

Excitotoxic levels of released glutamate trigger a cascade of deleterious cellular events leading to delayed neuronal death. This phenomenon implies extensive dysregulation in the balance between network excitation and inhibition. Our hypothesis was that enhancing network inhibition should prevent excitotoxicity and provide neuroprotection. To test this notion, we used mouse organotypic spinal slice cultures and explored if excitotoxicity caused by the potent glutamate analogue kainate was blocked by pharmacological increase in GABA A receptor activity. To this end we monitored (with a biosensor)real-time glutamate release following 1 h kainate application and quantified neuronal survival 24 h later. Glutamate release evoked by kainate was strongly decreased by the allosteric GABA A modulator midazolam (10 nM)or the GABA agonist THIP (10 μM), leading to neuroprotection. On the contrary, much higher glutamate release was induced by the GABA antagonist bicuculline (20 μM)that inhibits synaptic and extrasynaptic GABA A receptors. Gabazine (20 μM), an antagonist of synaptic GABA A receptors, had no effect on glutamate release or neuroprotection. No effect was observed with the glycine antagonist strychnine or the glycine agonist L-alanine. These findings indicate that enhancement of GABA receptor activity was an effective tool to counteract excitotoxic death in spinal networks. In view of the potent activity by THIP, preferentially acting on extrasynaptic GABA A receptors, the present data imply a significant role for extrasynaptic GABA A receptors in sparing spinal cord neurons from injury.