- Title
- Differential expression of the GABA transporters GAT-1 and GAT-3 in brains of rats, cats, monkeys and humans
- Creator
- Pow, David Vaughan; Sullivan, Robert K. P.; Williams, Susan M.; Scott, H. L.; Dodd, P. R.; Finkelstein, D.
- Relation
- Cell and Tissue Research Vol. 320, no. 3, p. 379-392
- Publisher
- Springer-Verlag
- Resource Type
- journal article
- Date
- 2005
- Description
- The homeostasis of GABA is critical to normal brain function. Extracellular levels of GABA are regulated mainly by plasmalemmal gamma-aminobutyric acid (GABA) transporters. Whereas the expression of GABA transporters has been extensively studied in rodents, validation of this data in other species, including humans, has been limited. As this information is crucial for our understanding of therapeutic options in human diseases such as epilepsy, we have compared, by immunocytochemistry, the distributions of the GABA transporters GAT-1 and GAT-3 in rats, cats, monkeys and humans. We demonstrate subtle differences between the results reported in the literature and our results, such as the predominance of GAT-1 labelling in neurons rather than astrocytes in the rat cortex. We note that the optimal localisation of GAT-1 in cats, monkeys and humans requires the use of an antibody against the human sequence carboxyl terminal region of GAT-1 rather than against the slightly different rat sequence. We demonstrate that GAT-3 is localised mainly to astrocytes in hindbrain and midbrain regions of rat brains. However, in species such as cats, monkeys and humans, additional strong immunolabelling of oligodendrocytes has also been observed. We suggest that differences in GAT distribution, especially the expression of GAT-3 by oligodendrocytes in humans, must be accommodated in extrapolating rodent models of GABA homeostasis to humans.
- Subject
- antibody; astrocyte; inhibitory; neurotransmitter; oligodendrocyte; rat; cat; human; aminobutyric-acid transporters; plasma-membrane transporter; cerebral-cortex; developmental expression; glial localization; transient presence; axon terminals; messenger-rnas; cloning; glutamate
- Identifier
- uon:479
- Identifier
- http://hdl.handle.net/1959.13/25243
- Identifier
- ISSN:1432-0878
- Language
- eng
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