Regulation of GABA Level in Rat Brain Synaptosomes: Fluxes Through Enzymes of the GABA Shunt and Effects of Glutamate, Calcium, and Ketone Bodies

glutamate), measured with [15N]GABA as precursor, was 0.82 nmol/min/mg of protein, whereas the reamination of succinic acid semialdehyde (reverse flux through GABA-T) was almost sixfold faster, 4.8 nmol/min/mg of protein. The rate of GABA metabolism via the tricarboxylic acid cycle was very slow, with the upper limit on flux being 0.03 nmol/min/mg of protein. Addition of either acetoacetate or beta-hydroxybutyrate raised the internal content of glutamate and reduced that of aspartate; the GABA concentration and the rate of its formation increased. It is concluded that in synaptosomes (a) GABA-T is a primary factor in regulating the turnover of GABA, (b) a major regulator of GAD activity is the concentration of internal calcium, (c) GAD in nerve endings may not be saturated with its substrate, glutamate, and the concentration of the latter is a determinant of flux through this pathway, and (d) levels of ketone bodies increase, and maintain at a higher value, the synaptosomal content of GABA, a phenomenon that may contribute to the beneficial effect of a ketogenic diet in the treatment of epilepsy. -->

ISSN:	1471-4159 0022-3042
DOI:	10.1046/j.1471-4159.1996.67062325.x
Přístupová URL adresa:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::3195924864c83ef428a15d52ca0bd1d9 https://doi.org/10.1046/j.1471-4159.1996.67062325.x
Rights:	CLOSED
Přírůstkové číslo:	edsair.doi.dedup.....3195924864c83ef428a15d52ca0bd1d9
Autor:	David R. Nelson, Maria Erecińska, Marc Yudkoff, Yevgeny Daikhin
Rok vydání:	2002
Předmět:	Male medicine.medical_specialty Glutamine Glutamate decarboxylase Glutamic Acid chemistry.chemical_element Ketone Bodies Calcium Biochemistry Phosphates Rats Sprague-Dawley Cellular and Molecular Neuroscience Internal medicine medicine Animals gamma-Aminobutyric Acid Synaptosome Chemistry Glutamate receptor Brain Metabolism Rats Citric acid cycle Endocrinology nervous system 4-Aminobutyrate Transaminase Ketone bodies Protons Synaptosomes
Zdroj:	Journal of Neurochemistry. 67:2325-2334
ISSN:	1471-4159 0022-3042
DOI:	10.1046/j.1471-4159.1996.67062325.x
Popis:	Stable isotopes were used to measure both the rate of GABA formation by glutamic acid decarboxylase (GAD) and the rate of utilization by GABA-transaminase (GABA-T). The initial rate of GABA accumulation, determined with either [2-15N]glutamine or [2H5]glutamine as precursor, was 0.3-0.4 nmol/min/mg of protein. Addition of the calcium ionophore A23187 enhanced GAD activity, whereas changes in levels of inorganic phosphate and H+ were without influence. Flux through GABA-T (GABA--> glutamate), measured with [15N]GABA as precursor, was 0.82 nmol/min/mg of protein, whereas the reamination of succinic acid semialdehyde (reverse flux through GABA-T) was almost sixfold faster, 4.8 nmol/min/mg of protein. The rate of GABA metabolism via the tricarboxylic acid cycle was very slow, with the upper limit on flux being 0.03 nmol/min/mg of protein. Addition of either acetoacetate or beta-hydroxybutyrate raised the internal content of glutamate and reduced that of aspartate; the GABA concentration and the rate of its formation increased. It is concluded that in synaptosomes (a) GABA-T is a primary factor in regulating the turnover of GABA, (b) a major regulator of GAD activity is the concentration of internal calcium, (c) GAD in nerve endings may not be saturated with its substrate, glutamate, and the concentration of the latter is a determinant of flux through this pathway, and (d) levels of ketone bodies increase, and maintain at a higher value, the synaptosomal content of GABA, a phenomenon that may contribute to the beneficial effect of a ketogenic diet in the treatment of epilepsy.
Databáze:	OpenAIRE
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