Impaired mitochondrial bioenergetics determines glutamate-induced delayed calcium deregulation in neurons |
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Authors: | Andrey Y Abramov Michael R Duchen |
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Institution: | 1. Department of Molecular Neuroscience, UCL Institute of Neurology, Queen Square, London WC1N 3 BG, UK;2. Department of Developmental Cell Biology, University College London, Gower Street, London WC1B 6BT, UK |
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Abstract: | BackgroundAccumulation of glutamate in ischaemic CNS is thought to amplify neuronal death during a stroke. Exposure of neurons to toxic glutamate concentrations causes an initial transient increase in Ca2+]c followed by a delayed increase commonly termed delayed Ca2+]c deregulation (DCD).MethodsWe have used fluorescence imaging techniques to explore differences in glutamate-induced DCD in rat hippocampal neurons after different periods of time in culture (days in vitro; DIV).ResultsThe amplitude of both the initial Ca2+]c signal and the number of cells showing DCD in response to glutamate increased with the duration of culture. The capacity of mitochondria to accumulate calcium in permeabilised neurons decreased with time in culture, although mitochondrial membrane potential at rest did not change. The rate of ATP consumption, measured as an increase in Mg2+]c following inhibition of ATP synthesis, was lower in ‘young’ neurons. The sensitivity of ‘young’ neurons to glutamate-induced DCD approximated to that of ‘old’ neurons when mitochondrial function was impaired using either FCCP or oligomycin. Further, following such treatment, cells showed a DCD-like response to increased Ca2+]c induced by KCl induced depolarisation which was never otherwise seen.General significanceThus, changes in cellular bioenergetics dictate the onset of DCD in response to glutamate. |
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Keywords: | Mitochondria Glutamate Excitotoxicity Calcium |
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