Regular Article
Structural Selectivity and Molecular Nature ofl-Glutamate Transport in Cultured Human Fibroblasts

https://doi.org/10.1006/abbi.1998.0626Get rights and content
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Abstract

Uptake ofl-[3H]glutamate by monolayers of fibroblasts cultured from human embryonic skin has been studied in the presence of several nonradioactive structural analogs of glutamate and aspartate. Results have suggested that the structural specificities of glutamate transporters in cultured human fibroblasts are similar to those of glutamate transporters in the mammalian brain. Only subtle differences have been detected: in the mammalian cerebral cortex, enantiomers ofthreo-3-hydroxyaspartate are almost equipotent as inhibitors ofl-[3H]glutamate uptake while, in human fibroblasts, thed-isomer has been found to be an order of magnitude less potent than the correspondingl-isomer. Kinetic analysis of a model in which substrates are recognized by the glutamate transporter binding site(s) as both α- and β-amino acids indicated that such a mechanism cannot explain the apparent negative cooperativity characterizing the effects ofd- andl-aspartate. Molecular modeling has been used to estimate the optimum conformation ofl-glutamate as it interacts with the transporter(s). Flow cytometry has indicated that all fibroblasts in culture express at least moderate levels of four glutamate transporters cloned from human brain. Small subpopulations (<3%) of cells, however, were strongly labeled with antibodies against EAAT1 (GLAST) and EAAT2 (GLT-1) transporters. We conclude that these two transporters—known to be strongly expressed in brain tissue—can be principally responsible for the “high affinity” transport of glutamate also in nonneural cells.

Keywords

transport of acidic amino acids
glutamate analogues
GLAST
GLT-1
EAAC1
EAAT4
molecular modeling
flow cytometry
skin fibroblasts

Cited by (0)

Ellory, J. C.Young, J. D.

1

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