Riluzole enhances glutamate uptake in rat astrocyte cultures.

1. Riluzole is used for the treatment of amyotrophic lateral sclerosis and reported to have neuroprotective effects in animal models of Parkinson's disease, Huntington's disease, and brain ischemia. The neuroprotective action of riluzole has been attributed to its ability to inhibit glutamate release (A. Doble, Neurology 47(4):233S-241S, 1996). 2. The effect of riluzole on L-[2,3-3H] glutamate uptake was investigated in rat cortical astrocyte cultures. 3. Riluzole showed a biphasic concentration-dependent effect on basal glutamate uptake. At low concentrations (1 and 10 microM) riluzole significantly increased glutamate uptake, whereas from 100 microM promoted a slight reduction. 4. Considering the large range of glutamate levels in the synaptic cleft, we studied the 1 microM riluzole effect on uptake of glutamate at different concentrations (1-1000 microM). Riluzole was more effective at low glutamate concentrations (10 microM), enhancing the basal glutamate uptake up to 42%. 5. The action of riluzole on astrocytic glutamate uptake could be an additional mechanism to its neuroprotective role, perhaps suggesting a modulatory action on glutamatergic system involving glutamate clearance from synaptic cleft.

Extracellular conversion of guanine-based purines to guanosine specifically enhances astrocyte glutamate uptake.

Guanosine (GUO) has been shown to stimulate glutamate uptake in primary astrocyte cultures. The purpose of this study was to determine the effect and specificity of guanine- or adenine-based purines on glutamate and GABA uptake in cultured astrocytes. Stimulatory effect on glutamate uptake was observed with GUO, GMP or GTP. Simultaneous exposure with these guanine-based purines did not show an additive effect. We also investigated a possible interconversion of guanine-based purines during incubation time. Action by GTP was excluded since the hydrolysis resistant GTP analog, GMP-PNP did not stimulate glutamate uptake. Addition of an ecto-5'-nucleotidase inhibitor abolished GMP-stimulatory effect on glutamate uptake, without affecting GUO action. Taken together, these results suggest that GUO is the guanine-based purines responsible for glutamate uptake activation. In addition, the stimulatory effect on glutamate uptake was not observed with adenine-based purines. Moreover, GABA uptake was not activated by GUO. These results point to specificity in the interaction between GUO and the astrocyte glutamate uptake system.