The reduction in current amplitude during zero flow conditions wa

The reduction in current amplitude during zero flow conditions was likely due to the formation of a diffusion-limited concentration gradient resulting in reduced

surface [Glu], because the ratio of the current amplitudes click here with and without flow were dependent on the concentration of glutamate in the perfusate, and in all cases the amount of glutamate transported was <1% of the total glutamate in the chamber (i.e. a pseudo-infinite glutamate source; Fig. 1B–D). This gradient was also reflected in a significant shift in the concentration-dependance of steady-state currents in flow and stopped-flow conditions (KM value for l-glutamate of 32 ± 2 and 216 ± 37 μM, respectively, n = 4; p < 0.002), while the Imax values were not significantly different. Glutamate transporters are

expressed at different densities among structures in the CNS, and transporter density and/or kinetics can be altered in different pathological circumstances such as trauma and ischemia. Because steady-state ambient [Glu] reflects a homeostatic balance of uptake and leak sources, changes in transport may result in significantly different steady state glutamate levels. We tested the influence of the surface density of glutamate transporters on the concentration gradient formed by passive glutamate diffusion during stopped-flow experiments by monitoring currents induced by 10 μM glutamate. With increasing transporter expression levels, the steepness of the concentration gradient formed during stopped-flow conditions was see more increased, as reflected in the changing ratio of the steady-state currents in flow and stopped-flow conditions (Fig. 2A and B). Even with continuous flow, evidence for formation of a concentration gradient between the cell surface and bulk solution was observed. Oocyte

membranes have a microvillar structure that can act as tortuous diffusion barrier (see Supplisson and Bergman, 1997). In a group of 29 oocytes with varying expression levels, steady-state KM values measured with chamber flow (20 mm/s) increased approximately 4-fold as transporter current induced by 1 mM glutamate increased from ∼200 to ∼1100 nA ( Fig. 2C and D). Thus, there is an effect of the concentration STK38 gradient formed by transporters even with continuous flow, resulting in a discrepancy between the measured and actual glutamate KM value. We extrapolated a linear function relating the measured KM value to the transport current density ( Barry and Diamond, 1984), yielding an estimate of the intrinsic KM value of approximately 27 μM (r = 0.78; Fig. 2D). While the dependance of steady-state KM on transporter density reflects the fact that the true glutamate concentration at the cell surface is reduced by uptake, the concentration difference associated with the diffusion gradient is minimal at when high concentrations of glutamate are applied by continuous flow.

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