Electrogenic uptake of glutamate and aspartate into glial cells isolated from the salamander (Ambystoma) retina.

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Electrogenic uptake of glutamate and aspartate into glial cells isolated from the salamander (Ambystoma) retina.

B Barbour, H Brew and D Attwell

Department of Physiology, University College London.

The effects of excitatory amino acids on the membrane currentof isolated retinal glial cells (Müller cells) were investigatedusing whole-cell patch clamping. 2. L-Glutamate evoked an inwardcurrent at membrane potentials between -140 and +50 mV. Thecurrent was larger at more negative potentials. 3. The glutamate-evokedcurrent was activated by external cations with relative efficacies:Na+ much greater than Li+ greater than K+ greater than Cs+,choline. It was activated by internal cations with relativeefficacies K+ greater than Rb+ greater than Cs+ much greaterthan choline. Chloride and divalent cations did not affect theglutamate-evoked current. 4. Raising the intracellular sodiumor glutamate concentrations, or raising the extracellular potassiumconcentration, reduced the current evoked by external glutamate.The suppressive effect of internal glutamate was larger whenthe internal sodium concentration was high. 5. Some analoguesof glutamate also evoked an inward current. Responses to L-aspartateresembled those to glutamate, but for aspartate the apparentaffinity was higher and the voltage dependence of the currentwas steeper. In the physiological potential range the currentevoked by a saturating dose of aspartate was less than thatevoked by a saturating dose of glutamate. 6. The uptake blockerthreo-3-hydroxy-DL-aspartate (30 microM) reduced the glutamate-evokedcurrent, but also generated a current itself. Dihydrokainate(510 microMs) weakly inhibited the glutamate-evoked currentwithout generating a current itself. 7. The commonly used blockersof glutamate-gated ion channels, 2-amino-5-phosphonovalerate(APV; 100 microMs), 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX;20 microMs), and kynurenate (1mM) had no effect on the glutamate-evokedcurrent. 8. The voltage dependence, cation dependence and pharmacologicalprofile of the current evoked by excitatory amino acids indicatethat it is caused by activation of the high-affinity glutamateuptake carrier. This carrier appears to transport one glutamateanion into the cell, one K+ ion out of the cell, and two ormore Na+ ions into the cell, on each carrier cycle. At the innermembrane surface some or all of the transported Na+ dissociatesfrom the carrier after the transported glutamate has dissociated.9. In addition to glutamate, the uptake carrier can also transportaspartate and threo-3-hydroxy-DL-aspartate, but not dihydrokainate.

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