Acta Neurochir (Wien) 1997 Jan 01;1395:453-63. doi: 10.1007/bf01808883.

Efflux of gamma-aminobutyric acid caused by changes in ion concentrations and cell swelling simulating the effect of cerebral ischaemia.

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The relationships among ischaemic GABA efflux from brain tissue and extracellular and intracellular concentrations of sodium, chloride and potassium ions were investigated by means of 1) transverse hippocampal slices from rat and 2) functional expression of a high affinity GABA transporter in Xenopus oocytes. Brain slices were incubated for 20 min in medium where extracellular sodium and chloride were substituted with impermeant ions. Isethionate (Iseth) substitution for chloride generated a 7-fold increase in GABA efflux. Choline (Chol) but not N-methyl-D-glucamine (NMDG) substitution for sodium likewise increased GABA efflux. Reducing the osmolarity of the medium by decreasing both sodium and chloride concentrations (Hyp) increased GABA efflux 3-fold. This release was blocked by mannitol (Man). Blocking sodium channels with 1 microM of tetrodotoxin (TTX) also increased the release 3-fold. Energy deprivation (ED) increased the GABA release 50-fold. ED/Iseth left the release unchanged, ED/Chol increased the GABA efflux by 23%, whereas ED/NMDG reduced the release by 41%. Adding mannitol did not block the ED-evoked release, whereas TTX reduced it by 52%. Release of preloaded [3H]-GABA from oocytes expressing the GAT-1 GABA transporter was then examined. Depolarisation by current injection or 100 mM extracellular K+ did not increase GABA release. Sodium chloride injection, however, caused membrane depolarisation and a 100-fold increased GABA efflux from the oocytes. This release was blocked when the osmolarity was increased extracellularly by adding mannitol. These results show that 1) TTX releases GABA from brain tissue but blocks release during ED, 2) the high affinity GABA carrier must be altered in order to reverse, 3) ischaemic GABA release is sodium independent, and is modulated by large cations, 4) mannitol blocks the reversal of high affinity carriers in oocytes, but the release from brain slices during ED is unaffected. Taken together, the results suggest that ischaemic release of GABA from brain tissue does not occur by means of reversed high affinity carriers alone, but rather that it is controlled by more complex mechanisms.

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Species referenced: Xenopus
Genes referenced: XB5944457