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  • Title: Reverse Na+/Ca2+ exchange contributes to glutamate-induced intracellular Ca2+ concentration increases in cultured rat forebrain neurons.
    Author: Hoyt KR, Arden SR, Aizenman E, Reynolds IJ.
    Journal: Mol Pharmacol; 1998 Apr; 53(4):742-9. PubMed ID: 9547366.
    Abstract:
    Activation of ionotropic glutamate receptors causes increases in intracellular Ca2+ concentration ([Ca2+]i) and intracellular Na+ concentration in neurons. It has been suggested that reversal of the plasma membrane Na+/Ca2+ exchanger (NCE) may account in part for the rise in [Ca2+]i. Recently, KB-R7943 (2-[2-[4-(4-nitrobenzyloxy)phenyl]ethyl]isothiourea methanesulfonate) was reported to selectively inhibit the reverse mode of the NCE in non-neuronal cells. We investigated the effects of KB-R7943 on glutamate-stimulated increases in [Ca2+]i. In cultured rat forebrain neurons loaded with indo-1 acetoxymethyl ester, KB-R7943 inhibited the reverse mode of NCE (IC50 = 0.7 microM). When tested against kainate- (100 microM), N-methyl-D-aspartate- (30 microM), glutamate- (3 microM), or KCl- (50 mM) induced [Ca2+]i transients (15 sec, in the presence of Na+ and Ca2+), KB-R7943 inhibited these transients with IC50 values of 6. 6, 8.2, 5.2, and 2.9 microM, respectively. [Ca2+]i increases caused by a higher concentration of glutamate (100 microM) also were inhibited by KB-R7943 (10 microM). However, KB-R7943 had no effect on peak [Ca2+]i changes caused by prolonged application of glutamate and did not inhibit glutamate-induced neuronal injury. KB-R7943 did not inhibit N-methyl-D-aspartate- or kainate-induced whole-cell currents, nor did it substantially inhibit voltage-sensitive Ca2+ currents, excluding a direct inhibition of these ion channels. These results suggest that reverse NCE contributes to the immediate rise in [Ca2+]i resulting from glutamate receptor activation. However, reverse NCE becomes less important as the stimulus time is increased, and Ca2+ entry by this route is not critical for the expression of excitotoxic injury.
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