Glutamate-agonist-evoked taurine release from the adult and developing mouse hippocampus in cell-damaging conditions

Abstract

Taurine is a neuromodulator and osmoregulator in the central nervous system, also protecting neural cells against excitotoxicity. The effects of the ionotropic glutamate receptor agonists N-methyl-D-aspartate (NMDA), kainate and 2-amino-3-hydroxy-5-methyl-4-imidazolepropionate (AMPA) on [3H]taurine release from hippocampal slices from 3-month-old and 7-day-old mice were studied in cell-damaging conditions. Neural cell injury was induced by superfusing the slices in hypoxic, hypoglycemic and ischemic conditions and by exposing them to metabolic poisons, free radicals and oxidative stress. The release of taurine was greatly enhanced in these conditions at both ages, except in oxidative stress. In normal conditions the three glutamate agonists potentiated taurine release in the immature hippocampus in a receptor-mediated manner, but kainate receptors did not participate in the regulation in the adults. The ability of the agonists to evoke taurine release varied in the cell-damaging conditions, but the glutamate-receptor-activated release was generally operating in the immature hippocampus. This glutamate-receptor-evoked massive release of taurine could have significant neuroprotective effects, particularly in the developing hippocampus, countering the harmful actions of the simultaneously liberated excitatory amino acids.