N. Vinskaya scite author profile

The rate of Mn(2+)-induced fluorescence quenching (RFQ) was used as a relative measure of plasma membrane Ca2+ permeability (PCa) in fura-2-loaded cultured hippocampal neurons and cerebellar granule cells during and after protracted (15-30 min) glutamate (GLU) treatment. Some limitations of this method were evaluated using a kinetic model of a competitive binding of Mn2+ and Ca2+ to fura-2 in the cell. In parallel experiment a contribution of Ca2+ influx to the cytoplasmic Ca2+ ([Ca2+]i) was repeatedly examined during and following a prolonged GLU challenge by short-duration "low-Ca2+ trials" (50 microM EGTA) and by measurements of 45Ca2+ uptake. Experiments failed to reveal a putative persistent increase in PCa that earlier was thought to underlie Ca2+ overload of the neuron caused by its toxic GLU treatment. By contrast, a sustained increase of [Ca2+]i was found to be associated with a progressive decrease in PCa and Ca2+ influx both in the period of GLU application and after its termination. These findings give new evidence in favour of the hypothesis that the GLU-induced Ca2+ overload of the neuron mainly from an impairment of its Ca2+ extrusion systems.

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Dominant role of mitochondria in protection against a delayed neuronal Ca²⁺ overload induced by endogenous excitatory amino acids following a glutamate pulse

Pinelis

Storozhevykh

et al. 1996

FEBS Letters

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The objective of this study was to evaluate the contribution of mitochondria to the clearance of Ca 2+ loads induced by glutamate or 25 mM K ÷ pulses. The mitochondrial Ca 2+ uptake was suppressed by application of 0.5 ttM antimycin A or 3-5 mM NaCN in combination with 2.5 Ixg/ml oligomycin. In most cells such treatments both in the presence and in the absence of external Na + failed to abolish the early fast phase of

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Bi¹,

Storozhevykh²,

Surin³

et al. 2002

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Data obtained in studies of the nature of the correlation which we have previously observed [10,17] between mitochondrial depolarization and the level of disruption of Ca2+ homeostasis in cultivated brain neuronsare summarized. Experiments were performed on cultured cerebellar granule cells loaded with Fura-2-AM or rhodamine 123 to measure changes in cytoplasmic Ca2+ and mitochondrial potential during pathogenic treatments of the cells. Prolonged exposure to 100 microM glutamate induced a reversible increase in [Ca2+]i, which was accompanied by only a small degree of mitochondrial depolarization. A sharp increase in this mitochondrial depolarization, induced by addition of 3 mM NaCN or 300 microM dinitrophenol (DNP) to the glutamate-containing solution, resulted in further increase in [Ca2+]i, due to blockade of electrophoretic mitochondrial Ca2+ uptake. Prolonged exposure to CN- or DNP in the post-glutamate period maintained [Ca2+]i at a high level until the metabolic inhibitors were removed. In most cells, this plateau was characterized by low sensitivity to removal of external Ca2+, demonstrating that the mechanisms of Ca2+ release from neurons were disrupted. Addition of oligomycin, a blocker of mitochondrial ATP synthase/ATPase, to the solution containing glutamate and CN- or DNP eliminated the post-glutamate plateau. Parallel experiments with direct measurements of intracellular ATP levels ([ATP]) showed that profound mitochondrial depolarization induced by CN- or DNP sharply enhanced the drop in ATP due to glutamate, while oligomycin significantly weakened this effect of the metabolic inhibitors. Analysis of these data led to the conclusion that blockade of mitochondrial Ca2+ uptake and inhibition of ATP synthesis resulted from mitochondrial depolarization and plays a key role in the mechanism disrupting [Ca2+]i homeostasis after toxic exposure to glutamate.

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Role of Na⁺/Ca²⁺ exchange in regulation of neuronal Ca²⁺ homeostasis requires re‐evaluation

et al. 1998

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N. Vinskaya

Mitochondrial deenergization underlies neuronal calcium overload following a prolonged glutamate challenge

Effect of a Prolonged Glutamate Challenge on Plasmalemmal Calcium Permeability in Mammalian Central Neurones. Mn²⁺as a Tool to Study Calcium Influx Pathways

Dominant role of mitochondria in protection against a delayed neuronal Ca²⁺ overload induced by endogenous excitatory amino acids following a glutamate pulse

Untitled

Role of Na⁺/Ca²⁺ exchange in regulation of neuronal Ca²⁺ homeostasis requires re‐evaluation

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N. Vinskaya

Mitochondrial deenergization underlies neuronal calcium overload following a prolonged glutamate challenge

Effect of a Prolonged Glutamate Challenge on Plasmalemmal Calcium Permeability in Mammalian Central Neurones. Mn2+as a Tool to Study Calcium Influx Pathways

Dominant role of mitochondria in protection against a delayed neuronal Ca2+ overload induced by endogenous excitatory amino acids following a glutamate pulse

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Role of Na+/Ca2+ exchange in regulation of neuronal Ca2+ homeostasis requires re‐evaluation

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Effect of a Prolonged Glutamate Challenge on Plasmalemmal Calcium Permeability in Mammalian Central Neurones. Mn²⁺as a Tool to Study Calcium Influx Pathways

Dominant role of mitochondria in protection against a delayed neuronal Ca²⁺ overload induced by endogenous excitatory amino acids following a glutamate pulse

Role of Na⁺/Ca²⁺ exchange in regulation of neuronal Ca²⁺ homeostasis requires re‐evaluation