Glutamate Uptake and Metabolism in C-6 Glioma Cells: Alterations by Potassium Ion and Dibutyryl cAMP

Abstract: Uptake and metabolism of glutamate was studied in the C-6 glioma cell line grown in the absence or presence of dibutyryl cyclic AMP (dbcAMP). Glutamate and aspartate uptake were competitive in cells grown under both conditions. Increased [K⁺] in the medium caused a significant decrease in the uptake of both amino acids. A small part of this decrease (<25%) was due to an enhanced efflux of tissue amino acid. The effects of increased [K⁺] were observed whether or not the [Na⁺] in the medium was concomitantly decreased. In cells grown in the presence of 1 mM dbcAMP for 48 h, glutamate uptake and metabolism were altered. Tissue levels of glutamate, aspartate, glutamine, GABA, and alanine were generally less in treated than in naive cells. When incubated with 50 μM [U-¹⁴C]glutamate, there was significantly less incorporation of radioactivity into treated cells with time, resulting in greatly lowered specific radioactivities of glutamate, aspartate, and GABA. However, the rate of labeling of glutamine was greatly increased; this was consistent with the previously observed doubling in glutamine synthetase activity in dbcAMP-treated C-6 cells. Tissue glutamate decarboxylase activity was halved in treated cells, accounting for the large decrease in GABA labeling. The metabolic data suggested a decreased uptake of exogenous glutamate; in studies on initial rates of uptake, the V_max of high-affinity glutamate uptake was decreased by 40%. This decrease was of the same order of magnitude as that observed in the metabolic experiments. Thus, in this glial model, both rapid, acute changes and slower, long-term changes in neuroactive amino acid metabolism were observed. Each of these conditions mimics a stimulus of neuronal origin, and the resulting changes could modulate extrasynaptic activity of neuroactive amino acids.