John V. Wade scite author profile

Intracranial microdialysis was used to measure changes in extracellular amino acids within the rat brain during local osmotic alteration of the extracellular microenvironment or during systemic water intoxication. Increased cellular hydration produced by either of these methods was accompanied by a marked increase in extracellular taurine levels without affecting the other amino acids measured. With local osmotic alteration, this increase was osmolarity dependent and reversible. The specificity, sensitivity, and reversibility of the increase in extracellular taurine strongly suggest a functional role in osmoregulation in the brain under normal as well as pathological conditions.

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Decreased brain pathology in organophosphate-exposed rhesus monkeys following benzodiazepine therapy

Hayward

Wall

Jaax

et al. 1990

Journal of the Neurological Sciences

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Changes in Extracellular Amino Acids During Soman‐and Kainic Acid‐Induced Seizures

Wade

Samson

Nelson

et al. 1987

Journal of Neurochemistry

134

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Extracellular amino acid levels in the rat piriform cortex, an area highly susceptible to seizure-induced neuropathology, were determined by means of intracranial microdialysis. Seizures were induced by systemic administration of either soman (O-1,2,2-trimethylpropyl methylphosphonofluoridate), a potent inhibitor of acetylcholinesterase, or the excitotoxin kainic acid. Extracellular glutamate levels increased in animals with seizures shortly after administration of either convulsant, but this change was statistically significant only in the case of soman-treated animals. Extracellular taurine levels increased markedly, reaching two- and fourfold baseline levels during the second hour of soman- and kainic acid-induced seizures, respectively. Taurine levels did not increase in the subpopulation of soman-treated animals without seizures, a finding indicating that elevation of extracellular taurine level is seizure related. Thus, we propose that taurine efflux may be a physiological cellular response to neuronal changes produced by excitotoxic chemicals, either directly or as a consequence of seizures.

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Hairless Guinea Pig Bioassay Model for Vesicant Vapor Exposures

et al. 1990

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John V. Wade

A Possible Role for Taurine in Osmoregulation Within the Brain

Decreased brain pathology in organophosphate-exposed rhesus monkeys following benzodiazepine therapy

Changes in Extracellular Amino Acids During Soman‐and Kainic Acid‐Induced Seizures

Hairless Guinea Pig Bioassay Model for Vesicant Vapor Exposures

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