Michiaki Takato scite author profile

1. Extra- and intracellular potentials were recorded from neurons and glia during spreading depression (SD) in cerebral cortex of cats. The glial membrane depolarized during SD and the time course of depolarization was concurrent with the surface DC change of SD. The glial depolarization evoked by 20-Hz repetitive cortical stimulation disappeared during the negative DC shift of SD. Simultaneous recording of the extra- and intracellular potentials from a single glial cell with a coaxial microelectrode showed that the extracellular DC potential change was of opposite polarity to the glial intracellular potential, which suggests that the slow glial depolarization concurrent with SD is not the field potential. In contrast to glial cells, the neuronal burst discharges as well as the neuronal membrane depolarization associated with SD did not show a close relationship to SD: the neuronal membrane depolarization and discharge were frequently delayed by 10-3- s from the onset of the SD slow wave. Sometimes SD was observed without accompanying neuronal depolarization. The degree of neuronal depolarization was not always correlated with the amplitude of the negative wave of SD. 2. The effect of tetrodotoxin (TTX) on the negative DC potential of SD was examined. Simultaneous recording of glial membrane potential and the neuronal unit activity as well as extracellular DC potential and surface DC potential during SD was performed and the TTX-treated cortex was compared with the normal state. TTX did not change the DC level of the cerebral cortex. SD could be evoked by KCl when neuronal discharge was completely abolished by TTX application...

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Intracellular marking with Lucifer Yellow CH and horseradish peroxidase of cells electrophysiologically characterized as glia in the cerebral cortex of the cat

Takato

Goldring

1979

J of Comparative Neurology

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Intracellular microelectrodes filled with either Lucifer Yellow CH, a highly florescent dye, or horseradish peroxidase (HRP) were used to electrophysiologically characterize and mark cells in the cerebral cortex of cat. Fifty-eight cells, characterized electrophysiologically as glia, were marked with Lucifer Yellow CH. All were identified as protoplasmic astrocytes, and included cells in the glia limitans of the molecular layer. An additional 54 cells, similarly characterized as glia, were labeled with HRP. The results were the same; only protoplasmic astrocytes were labeled. The "staining quality" of the glia labeled with HRP was superior to that of cells injected with Lucifer Yellow; greater lengths of individual processes were revealed, and they could often be followed to blood vessels where they ended on the walls of vessels with expanded perivascular end-feet. The observations indicate that the many previously reported studies on presumed glial cells in the cat cerebral cortex have characterized the behavior of protoplasmic astrocytes. Neurons were also marked during these experiments. The "staining" quality of the Lucifer Yellow filled neurons was excellent; dendritic spines, axons, and axon collaterals were clearly visible. These fine neuronal details were not as well revealed after HRP labeling. High resting membrane potentials (RMP's) were not a prerequisite for obtaining well-marked neurons (mean RMP of Lucifer Yellow filled neurons was -33.6 mV; mean RMP of HRP filled neurons was 42.3 mV). In contrast, the mean RMPs of Lucifer Yellow and HRP marked glia was -68 Mv and -75 mV respectively, and the quality of "staining" appeared to be more closely related to the RMP.

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Potassium activity and changes in glial and neuronal membrane potentials during initiation and spread of afterdischarge in cerebral cortex of cat

1981

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The mechanism of vasodilatory effects by a cognitive enhancer BY-1949

Sugawa¹,

Koide²,

Naito³

et al. 1989

Japanese Journal of Pharmacology

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Improvement of cerebral circulation by anoyeldrug, 1,2-bis(nicotinamide)-propane(AVS)(2)

Koide¹,

Neichi²,

Takato³

et al. 1982

Japanese Journal of Pharmacology

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Michiaki Takato

Neuronal and glial activity during spreading depression in cerebral cortex of cat

Intracellular marking with Lucifer Yellow CH and horseradish peroxidase of cells electrophysiologically characterized as glia in the cerebral cortex of the cat

Potassium activity and changes in glial and neuronal membrane potentials during initiation and spread of afterdischarge in cerebral cortex of cat

The mechanism of vasodilatory effects by a cognitive enhancer BY-1949

Improvement of cerebral circulation by anoyeldrug, 1,2-bis(nicotinamide)-propane(AVS)(2)

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