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  • Sulphur-containing excitatory amino acid-evoked Ca(2+)-independent release of D-[3H]aspartate from cultured cerebellar granule cells: the role of glutamate receptor activation coupled to reversal of the acidic amino acid plasma membrane carrier.

Sulphur-containing excitatory amino acid-evoked Ca(2+)-independent release of D-[3H]aspartate from cultured cerebellar granule cells: the role of glutamate receptor activation coupled to reversal of the acidic amino acid plasma membrane carrier.

Neuroscience (1992-09-01)
J Dunlop, A Grieve, I Damgaard, A Schousboe, R Griffiths
RÉSUMÉ

Sulphur-containing excitatory amino acid transmitter candidates (500 microM) stimulated the Ca(2+)-independent efflux of exogenously-supplied D-[3H]aspartate from primary cultures of cerebellar granule cells superfused continuously with HEPES-buffered saline containing CoCl2 (1 mM) in place of CaCl2. The stimulated release of D-[3H]aspartate was markedly attenuated by 200 microM 6,7-dinitroquinoxalinedione, a concentration at which the antagonist inhibits both non-N-methyl-D-aspartate and N-methyl-D-aspartate ionotropic excitatory amino acid receptors. The Ca(2+)-independent component of evoked release was also markedly attenuated and, in some cases, abolished by removing NaCl from the superfusion medium. Furthermore, when 700 microM dihydrokainate (demonstrated herein as a mixed/non-competitive inhibitor of the high-affinity dicarboxylic amino acid transporter in cultured granule cells) was included in the superfusion medium, stimulated efflux of D-[3H]aspartate was reduced by between 15-78% of the control response; the extent of inhibition varying with the agonist employed. In constrast, agents which act as competitive inhibitors of the plasma membrane carrier in granule cells, e.g. beta-methylene-D,L-aspartate, potentiated the release of D-[3H]aspartate in a synergistic manner. Taken together, these findings are consistent with a mechanism for the Ca(2+)-independent release of D-[3H]aspartate that is mediated predominantly by activation of excitatory amino acid receptors resulting in a reversal of the high-affinity dicarboxylic amino acid transport system. Although the physiological relevance of such non-vesicular release from the cytosol remains obscure and is still a matter of some debate, this mode of release may be of pathological significance.

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L-Cysteine S-sulfate, ≥98% (TLC)