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In vitro ischemia-induced intracellular Ca2+ elevation in cerebellar slices: a comparative study with the values found in hippocampal slices (1994)

Mitani, A. ; Yanase, Hisato ; Namba, Shigeru ; [et al.]

Springer

Acta neuropathologica 89 (1994), S. 2-7

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ISSN: 1432-0533

Keywords: Key words Calcium ; Ischemia ; Cerebellum ; Purkinje cell ; Microfluorometry

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Changes in levels of intracellular calcium ion ([Ca2+]i) induced by in vitro ischemic conditions in gerbil cerebellar and hippocampal slices were investigated using a calcium imaging system and electron microscopy. When the cerebellar slice was perfused with a glucose-free physiological medium equilibrated with a 95% N2/5% CO2 gas mixture (in vitro ischemic medium), a large [Ca2+]i elevation was region-specifically induced in the molecular layer of the cerebellar cortex (a dendritic field of Purkinje cells). When the hippocampal slice was perfused with in vitro ischemic medium, a large [Ca2+]i elevation was region-specifically induced in CA1 field of the hippocampal slices. Electron microscopic examinations showed that the large [Ca2+]i elevations occurred in Purkinje cells and CA1 pyramidal neurons. To isolate Ca2+ release from intracellular Ca2+ store sites, the slices were perfused with Ca2+-free in vitro ischemic medium. The increases in [Ca2+]i in both cerebellar and hippocampal slices were significantly lower than those observed in the slices perfused with the Ca2+-containing in vitro ischemic medium. However, the suppression of the [Ca2+]i elevation in the molecular layer of the cerebellar slices was smaller than that in the CA1 field of the hippocampal slices. These results reinforce the hypothesis that calcium plays a pivotal role in the development of ischemia-induced neuronal death, and suggest that Ca2+ release from intracellular Ca2+ store sites may play an important role in the ischemia-induced [Ca2+]i elevation in Purkinje cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00294252

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The role of remaining presynaptic terminals in the hippocampal CA1 after selective neuronal death: ischemia-induced glutamate efflux (1995)

Mitani, A. ; Matsuda, Seiji ; Yamamoto, Hiroshi ; [et al.]

Springer

Acta neuropathologica 91 (1995), S. 41-46

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ISSN: 1432-0533

Keywords: Key words Glutamate ; Ischemia ; Microdialysis ; Hippocampus ; Cell death

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Following selective neuronal death, numerous presynaptic terminals maintain their structural integrity in the brain region. The role that these remaining presynaptic terminals play in the brain region showing selective neuronal death is not known. In the present study, we investigated the possibility that brief transient ischemia induces an excessive release of glutamate from the remaining presynaptic terminals, which then spreads by diffusion. The glutamate could act as an excitotoxin and be a pathogenic factor in the local injured brain region. Transient ischemia of 3.5 min duration was used in the gerbil as a pretreatment to obtain hippocampal CA1 in which most of postsynaptic neurons were eliminated but numerous presynaptic terminals remained normal. At 10–14 days after the pretreatment, brain microdialysis experiments were performed in vivo in the CA1 to measure the levels of extracellular glutamate induced by 5 min ischemia. Prior to 5 min ischemia the basal concentration of glutamate in the CA1 was the same as that observed in gerbils that had been subjected to sham pretreatment. During 5 min ischemia, no significant increase in glutamate was induced in the CA1 which showed selective neuronal death. However, a massive increase in glutamate was induced in the CA1 of the sham-pretreated gerbils. These results suggest that the remaining presynaptic terminals are unlikely to play a pathogenic role in the CA1 after selective neuronal death has occurred.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004010050390

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