Nga H.T. Nguyen scite author profile

Glycerol is effective in the treatment of brain oedema but it is unclear if this is due solely to osmotic effects of glycerol or whether the brain may metabolize glycerol. We found that intracerebral injection of [14 C]glycerol in rat gave a higher specific activity of glutamate than of glutamine, indicating neuronal metabolism of glycerol. Interestingly, the specific activity of GABA became higher than that of glutamate. NMR spectroscopy of brains of mice given 150 lmol [U- , suggesting uptake through aquaporins, whereas Hg 2+ stimulated glycerol uptake into cultured astrocytes. The neuronal metabolism of glycerol, which was confirmed in experiments with purified synaptosomes and cultured cerebellar granule cells, suggested neuronal expression of glycerol kinase and some isoform of glycerol-3-phosphate dehydrogenase. Histochemically, we demonstrated mitochondrial glycerol-3-phosphate dehydrogenase in neurones, whereas cytosolic glycerol-3-phosphate dehydrogenase was three to four times more active in white matter than in grey matter, reflecting its selective expression in oligodendroglia. The localization of mitochondrial and cytosolic glycerol-3-phosphate dehydrogenases in different cell types implies that the glycerol-3-phosphate shuttle is of little importance in the brain.

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Soman-induced Convulsions in Rats Terminated with Pharmacological Agents after 45 min: Neuropathology and Cognitive Performance

Myhrer

Andersen

Nguyen

et al. 2005

NeuroToxicology

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Propionate increases neuronal histone acetylation, but is metabolized oxidatively by glia. Relevance for propionic acidemia

Nguyen

Morland

González

et al. 2006

Journal of Neurochemistry

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In propionic acidemia, propionate acts as a metabolic toxin in liver cells by accumulating in mitochondria as propionyl-CoA and its derivative, methylcitrate, two tricarboxylic acid cycle inhibitors. Little is known about the cerebral metabolism of propionate, although clinical effects of propionic acidemia are largely neurological. We found that propionate was metabolized oxidatively by glia: [3-14 C]propionate injected into mouse striatum or cortex, gave a specific activity of glutamine that was 5-6 times that of glutamate, indicating metabolism in cells that express glutamine synthetase, i.e., glia. Further, cultured cerebellar astrocytes metabolized [3-14 C]propionate; cultured neurons did not. However, both cultured cerebellar neurons and astrocytes took up [ 3 H]propionate, and propionate exposure increased histone acetylation in cultured neurons and astrocytes as well as in hippocampal CA3 pyramidal neurons of wake mice. The inability of neurons to metabolize propionate may be due to lack of mitochondrial propionyl-CoA synthetase activity or transport of propionyl residues into mitochondria, as cultured neurons expressed propionyl-CoA carboxylase, a mitochondrial matrix enzyme, and oxidized isoleucine, which becomes converted into propionyl-CoA intramitochondrially. The glial metabolism of propionate suggests astrocytic vulnerability in propionic acidemia when intramitochondrial propionyl-CoA may accumulate. Propionic acidemia may alter both neuronal and glial gene expression by affecting histone acetylation.

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Protection against soman-induced seizures in rats: relationship among doses of prophylactics, soman, and adjuncts

Myhrer

Nguyen

Andersen

et al. 2004

Toxicology and Applied Pharmacology

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Nga H.T. Nguyen

Brain metabolism of exogenous pyruvate

Neuronal uptake and metabolism of glycerol and the neuronal expression of mitochondrial glycerol‐3‐phosphate dehydrogenase

Soman-induced Convulsions in Rats Terminated with Pharmacological Agents after 45 min: Neuropathology and Cognitive Performance

Propionate increases neuronal histone acetylation, but is metabolized oxidatively by glia. Relevance for propionic acidemia

Protection against soman-induced seizures in rats: relationship among doses of prophylactics, soman, and adjuncts

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