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Calcium-induced Release of Calcium Regulates Differentiation of Cultured Spinal Neurons

Overview
Journal Neuron
Publisher Cell Press
Specialty Neurology
Date 1991 Nov 1
PMID 1742025
Citations 37
Authors
J Holliday
R J Adams
T J Sejnowski
N C Spitzer
Affiliations
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Abstract

Voltage-dependent calcium influx has been shown to regulate the differentiation of cultured amphibian spinal neurons. We have examined the transient elevation of intracellular calcium induced by depolarization, using calcium indicators and confocal microscopy with high temporal and spatial resolution. Rapid calcium elevations in both the nucleus and the cytosol are primarily due to calcium-dependent release of calcium from intracellular stores. Depletion of stores associated with the endoplasmic reticulum reduces all transients. Elevations diminish with neuronal maturation. Depletion of stores of intracellular calcium at early times affects neuronal differentiation in a manner similar to the prevention of influx. The results indicate that both influx and release are necessary to promote neuronal differentiation.

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