Bi‐directional transport of GABA in human embryonic kidney (HEK‐293) cells stably expressing the rat GABA transporter GAT‐1

Abstract

Bi‐directional GABA‐transport was studied by performing uptake and superfusion experiments in human embryonic kidney 293 cells stably expressing the rat GABA transporter rGAT‐1. K_MandV_maxvalues for [³H]‐GABA uptake were 11.7±1.8 μMand 403±55 pmol min⁻¹10⁻⁶cells (n=9), respectively. Kinetic analysis of outward transport was performed by pre‐labelling the cells with increasing concentrations of [³H]‐GABA and triggering outward transport with 333 μMGABA. Approximate apparentK_MandV_maxvalues were 12 mMand 50 pmol min⁻¹10⁻⁶cells, respectively. GABA re‐uptake inhibitors (RI; e.g. tiagabine), as well as, substrates of the rGAT‐1 (e.g. GABA, nipecotic acid) concentration dependently decreased [³H]‐GABA uptake and increased efflux of [³H]‐GABA from pre‐labelled cells. The IC₅₀values for inhibiting uptake and the EC₅₀values for increasing efflux were significantly correlated (r²=0.99). On superfusion, RI antagonized the efflux‐enhancing effect of the substrates. The effect of the latter was markedly augmented in the presence of ouabain (100 μM), whereas the effect of RI remained unchanged. The most likely explanation for the release enhancing effect of RI is interruption of ongoing re‐uptake. The structural GABA‐analogue 2,4‐diamino‐n‐butyric acid (DABA) exhibited a bell‐shaped concentration response curve on [³H]‐GABA efflux with the maximum at 1 mM, and displayed a deviation from the sigmoidal inhibition curve in uptake experiments in the same concentration range. At concentrations below 1 mM, DABA inhibited [³H]‐GABA uptake non‐competitively, while at 1 mMand above the inhibition of uptake followed a competitive manner. The results provide information of GABA inward and outward transport, and document a complex interaction of the rGAT‐1 with its substrate DABA. British Journal of Pharmacology(2002)135, 93–102; doi:10.1038/sj.bjp.0704446