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Calcium release from intracellular stores in rodent astrocytes and neurons in situ

2003; Elsevier BV; Volume: 35; Issue: 1 Linguagem: Inglês

10.1016/s0143-4160(03)00171-4

1532-1991

Andreas Beck, Robin Zur Nieden, Hans‐Peter Schneider, Joachim W. Deitmer,

Alzheimer's disease research and treatments

Endoplasmic reticular Ca2+ stores, instrumental for intra- and intercellular calcium signalling, can be depleted by different receptor agonists. In the present study, the functional status of ER Ca2+ stores was probed by cyclopiazonic acid (CPA, 10–30 μM, inhibitor of SERCA-dependent ER Ca2+ uptake) and/or caffeine (20 mM, ryanodine receptor activator) in astrocytes and neurons of rat and mouse acute hippocampal brain slices (Stratum radiatum, Stratum moleculare), and in cultured astrocytes, using confocal microscopy and conventional Ca2+ imaging. Astrocytes and neurons in situ, identified by their Ca2+ response in K+-free saline (Dallwig and Deitmer [J. Neurosci. Methods 116 (2002) 77]), had a resting cytosolic Ca2+ level of 105 and 157 nM, respectively (P 80%), but only in less than 40% of astrocytes. The glial Ca2+ transients in the presence of caffeine had a large and variable delay (>50 s), as compared to those in neurons (≤10 s), and appeared to be spontaneous and/or secondary to the neuronal Ca2+ response, leading to release of neuronal transmitters. Astrocytes in culture responded to CPA, but never to caffeine with a Ca2+ rise. Our results indicate that astrocytes, in contrast to neurons, lack caffeine-sensitive Ca2+ stores, and have a relatively smaller leak from CPA-sensitive Ca2+ stores than neurons.