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J Physiol. 1992 May;450:217-46.

A caffeine- and ryanodine-sensitive Ca2+ store in bullfrog sympathetic neurones modulates effects of Ca2+ entry on [Ca2+]i.

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1
Department of Molecular and Cellular Physiology, Stanford University School of Medicine, CA 94305-5426.

Abstract

1. We studied how in changes in cytosolic free Ca2+ concentration ([Ca2+]i) produced by voltage-dependent Ca2+ entry are influenced by a caffeine-sensitive Ca2+ store in bullfrog sympathetic neurones. Ca2+ influx was elicited by K+ depolarization and the store was manipulated with either caffeine or ryanodine. 2. For a time after discharging the store with caffeine and switching to a caffeine-free medium: (a) [Ca2+]i was depressed by up to 40-50 nM below the resting level, (b) caffeine responsiveness was diminished, and (c) brief K+ applications elicited [Ca2+]i responses with slower onset and faster recovery than controls. These effects were more pronounced as the conditioning caffeine concentration was increased over the range 1-30 mM. 3. [Ca2+]i, caffeine and K+ responsiveness recovered in parallel with a half-time of approximately 2 min. Recovery required external Ca2+ and was speeded by increasing the availability of cytosolic Ca2+, suggesting that it reflected replenishment of the store at the expense of cytosolic Ca2+. 4. During recovery, Ca2+ entry stimulated by depolarization had the least effect on [Ca2+]i when the store was filling most rapidly. This suggests that the effect of Ca2+ entry on [Ca2+]i is modified, at least in part, because some of the Ca2+ which enters the cytosol during stimulation is taken up by the store as it refills. 5. Further experiments were carried out to investigate whether the store can also release Ca2+ in response to stimulated Ca2+ entry. In the continued presence of caffeine at a low concentration (1 mM), high K+ elicited a faster and larger [Ca2+]i response compared to controls; at higher concentrations of caffeine (10 and 30 mM) responses were depressed. 6. Ryanodine (1 microM) reduced the rate at which [Ca2+]i increased with Ca2+ entry, but not to the degree observed after discharging the store. At this concentration, ryanodine completely blocked responses to caffeine but had no detectable effect on Ca2+ channel current or the steady [Ca2+]i level achieved during depolarization. 7. We propose that, depending on its Ca2+ content, the caffeine-sensitive store can either attenuate or potentiate responses to depolarization. When depleted and in the process of refilling, the store reduces the impact of Ca2+ entry as some of the Ca2+ entering the cytosol during stimulation is captured by the store.(ABSTRACT TRUNCATED AT 400 WORDS)

PMID:
1432708
PMCID:
PMC1176120
[Indexed for MEDLINE]
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