Spontaneous calcium changes in striatal cells

The striatum plays an important role in linking cortical activity to basal ganglia outputs. We performed calcium (Ca2+) imaging to investigate the spontaneous activities of the striatum using acute slice preparations. Corticostriatal slices of rats were stained with Fura‐PE3‐AM. Long ‐lasting sponta...

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Veröffentlicht in:	Electronics and communications in Japan 2011-07, Vol.94 (7), p.43-52
Hauptverfasser:	Osanai, Makoto, Yaguchi, Yuichi, Yamada, Naohiro, Oboshi, Fumito, Yagi, Tetsuya
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Sprache:	eng
Schlagworte:	Calcium calcium ion Electronics glial cell imaging neuron On-line systems Online Spontaneous spontaneous activity Stores Synchronism time series analysis TTX
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creator	Osanai, Makoto Yaguchi, Yuichi Yamada, Naohiro Oboshi, Fumito Yagi, Tetsuya
description	The striatum plays an important role in linking cortical activity to basal ganglia outputs. We performed calcium (Ca2+) imaging to investigate the spontaneous activities of the striatum using acute slice preparations. Corticostriatal slices of rats were stained with Fura‐PE3‐AM. Long ‐lasting spontaneous intracellular Ca2+ ([Ca2+]i) changes, which lasted up to several hundred seconds, were observed. The amplitudes and the intervals of the changes were variable even in a single cell. Most cells exhibited irregular frequencies, but some exhibited oscillatory features. Most of these [Ca2+]i changes were not suppressed by TTX, a blocker of action potentials. The number of active cells, which exhibited the [Ca2+]i changes, was greatly reduced by the intracellular Ca2+ store depletor thapsigargin. Therefore, the intracellular Ca2+ store is likely to contribute to the [Ca2+]i transients. The [Ca2+]i changes under standard ACSF and TTX showed different levels of regularity. We tested synchronization of the [Ca2+]i changes between cell pairs under both conditions. The number of synchronized cell pairs was reduced in TTX. These results suggest that TTX‐insensitive and slow rate [Ca2+]i changes might be involved in information processing in the striatum. © 2011 Wiley Periodicals, Inc. Electron Comm Jpn, 94(7): 43–52, 2011; Published online in Wiley Online Library (wileyonlinelibrary.com). DOI 10.1002/ecj.10242
doi_str_mv	10.1002/ecj.10242
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Comm. Jpn</addtitle><description>The striatum plays an important role in linking cortical activity to basal ganglia outputs. We performed calcium (Ca2+) imaging to investigate the spontaneous activities of the striatum using acute slice preparations. Corticostriatal slices of rats were stained with Fura‐PE3‐AM. Long ‐lasting spontaneous intracellular Ca2+ ([Ca2+]i) changes, which lasted up to several hundred seconds, were observed. The amplitudes and the intervals of the changes were variable even in a single cell. Most cells exhibited irregular frequencies, but some exhibited oscillatory features. Most of these [Ca2+]i changes were not suppressed by TTX, a blocker of action potentials. The number of active cells, which exhibited the [Ca2+]i changes, was greatly reduced by the intracellular Ca2+ store depletor thapsigargin. Therefore, the intracellular Ca2+ store is likely to contribute to the [Ca2+]i transients. 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subjects	Calcium calcium ion Electronics glial cell imaging neuron On-line systems Online Spontaneous spontaneous activity Stores Synchronism time series analysis TTX
title	Spontaneous calcium changes in striatal cells
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