Abstract
Rat hippocampal slices were used in the present study to assess the effect of a pretreatment with the amino acid taurine on their ability to recover synaptic function following a standardized hypoxic insult. After 10 min hypoxia, 47% of all control (untreated) slices exhibited recovery of synaptic function (orthodromically evoked CAl population spike). Of slices pretreated with 0.5, 1.0 or 2.0 mM taurine, 63, 88 and 97% recovered from the same hypoxic insult. This dose-dependent protective effect was biphasic, as 5.0 mM taurine produced no protection. When hypoxia was extended to 15 min, only 20% of the untreated slices recovered, while 88% of slices treated with 1.0 mM taurine recovered their population spike. The same pretreatment attenuated the fall in the population spike amplitude upon Ca 2+ depletion. We hypothesize that taurine plays an important role in an endogenous antihypoxic mechanism through the attenuation of Ca 2+ movement across the neuronal membrane.
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