Neurotoxic glutamate treatment of cultured cerebellar granule cells induces Ca 2+-dependent collapse of mitochondrial membrane potential and ultrastructural alterations of mitochondria

Neurotoxic glutamate treatment of cultured cerebellar granule cells induces Ca 2+-dependent collapse of mitochondrial membrane potential and ultrastructural alterations of mitochondria

Rhodamine 123 staining and electron microscopy were used to reveal a correlation between the ultrastructural and functional state of cultured cerebellar granule cells after short glutamate treatment. Glutamate exposure (15 min, 100 μM) in Mg 2+-free solution caused considerable ultrastructural alter...

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Bibliographic Details
Published in:FEBS letters Vol. 392; no. 2; pp. 143 - 147
Main Authors: Isaev, Nikolaj K., Zorov, Dmitry B., Stelmashook, Elena V., Uzbekov, Rustem E., Kozhemyakin, Maxim B., Victorov, Ilya V.
Format: Journal Article
Language:English
Published: Elsevier B.V 26-08-1996
Subjects:
Cytosolic Ca 2
Glutamate
Membrane potential
Mitochondria
Neurotoxicity
Ultrastructure
GLU
MK-801
Mitochondria
Neurotoxicity
Ultrastructure
R123
NMDA
Membrane potential
Cytosolic Ca 2
Glutamate
BSM
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Summary:Rhodamine 123 staining and electron microscopy were used to reveal a correlation between the ultrastructural and functional state of cultured cerebellar granule cells after short glutamate treatment. Glutamate exposure (15 min, 100 μM) in Mg 2+-free solution caused considerable ultrastructural alterations in a granule cell: clumping of the chromatin, swelling of the endoplasmic reticulum and mitochondria, and disruption of the mitochondrial cristae. After glutamate treatment, the mitochondria of the neurons lost their ability to sequester rhodamine 123. Both the N- ethyl- d-aspartate receptor channel blocker MK-801 (30 μM) and cobalt chloride (2 mM) prevented the deteriorative effects of glutamate. These data suggest that glutamate-induced Ca 2+ overload of the neurons can lead to non-specific permeability of the inner mitochondrial membrane, resulting in neuronal death.
ISSN:0014-5793
1873-3468
DOI:10.1016/0014-5793(96)00804-6