Sodium‐dependent glutamate uptake as an activator of oxidative metabolism in primary astrocyte cultures from newborn rat
- 1 October 1995
- Vol. 15 (2), 152-156
- https://doi.org/10.1002/glia.440150207
Abstract
In the present report we describe the effect of glutamate on respiratory activity in primary cultures of astrocytes, derived from cerebral cortex of newborn rat. Glutamate (100 μM) caused an increased oxygen consumption. This effect could not be inhibited by antagonists to the NMDA or AMPA/kainate receptors. Neither trans-ACPD (an agonist to the metabotropic glutamate receptor) nor the Krebs cycle intermediate α-ketoglutarate had any effect on the respiratory rate. An uncontrolled influx of Na+, caused by gramicidin, could mimic the glutamate effect on respiratory activity. In addition, the glutamate effect was abolished by addition of ouabain or replacement of Na+ by Li+ in the perfusion buffer. We conclude that the co-transport of Na+, in the Na+ -dependent high-affinity glutamate uptake system, mediated the glutamate-induced increase in oxygen consumption through an increased activity of Na+/K+-ATPases.Keywords
This publication has 27 references indexed in Scilit:
- The glial cell glutamate uptake carrier countertransports pH-changing anionsNature, 1992
- Regional Heterogeneity of L‐Glutamate and L‐Aspartate High‐Affinity Uptake Systems in the Rat CNSJournal of Neurochemistry, 1991
- Uptake, metabolism, and release of [3H]‐histamine by glial cells in primary cultures of chicken cerebral hemispheresGlia, 1990
- Glutamate neurotoxicity and diseases of the nervous systemNeuron, 1988
- Peptide Uptake by Astroglia‐Rich Brain CulturesJournal of Neurochemistry, 1987
- Excitotoxity and the NMDA receptorTrends in Neurosciences, 1987
- Stoichiometry of sodium‐ and chloride‐coupled glycine transport in synaptic plasma membrane vesicles derived from rat brainFEBS Letters, 1987
- Characteristics of dopamine and GABA transport in primary cultures of astroglial cellsActa Physiologica Scandinavica, 1984
- α‐Ketoglutarate and Malate Uptake and Metabolism by Synaptosomes: Further Evidence for an Astrocyte‐to‐Neuron Metabolic ShuttleJournal of Neurochemistry, 1984
- Stoichiometry of sodium- and chloride-coupled .gamma.-aminobutyric acid transport by synaptic plasma membrane vesicles isolated from rat brainBiochemistry, 1983