Intercellular Calcium Signaling in Astrocytes via ATP Release through Connexin Hemichannels

Intercellular Calcium Signaling in Astrocytes via ATP Release through Connexin Hemichannels

Astrocytes are capable of widespread intercellular communication via propagated increases in intracellular Ca2+ concentration. We have used patch clamp, dye flux, ATP assay, and Ca2+ imaging techniques to show that one mechanism for this intercellular Ca2+ signaling in astrocytes is the release of A...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 277; no. 12; pp. 10482 - 10488
Main Authors: Stout, Charles E., Costantin, James L., Naus, Christian C.G., Charles, Andrew C.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 22-03-2002
American Society for Biochemistry and Molecular Biology
Subjects:
Adenosine Triphosphate - metabolism
Animals
Animals, Newborn
Astrocytes - metabolism
Calcium - metabolism
Cells, Cultured
Connexin 43 - metabolism
Connexins - metabolism
Electrophysiology
Gadolinium - pharmacology
Glioma - metabolism
L-Lactate Dehydrogenase - metabolism
Mice
Microscopy, Fluorescence
Neuroglia - cytology
Quinine - pharmacology
Signal Transduction
Time Factors
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Summary:Astrocytes are capable of widespread intercellular communication via propagated increases in intracellular Ca2+ concentration. We have used patch clamp, dye flux, ATP assay, and Ca2+ imaging techniques to show that one mechanism for this intercellular Ca2+ signaling in astrocytes is the release of ATP through connexin channels (“hemichannels”) in individual cells. Astrocytes showed low Ca2+-activated whole-cell currents consistent with connexin hemichannel currents that were inhibited by the connexin channel inhibitor flufenamic acid (FFA). Astrocytes also showed molecular weight-specific influx and release of dyes, consistent with flux through connexin hemichannels. Transmembrane dye flux evoked by mechanical stimulation was potentiated by low Ca2+ and was inhibited by FFA and Gd3+. Mechanical stimulation also evoked release of ATP that was potentiated by low Ca2+ and inhibited by FFA and Gd3+. Similar whole-cell currents, transmembrane dye flux, and ATP release were observed in C6 glioma cells expressing connexin43 but were not observed in parent C6 cells. The connexin hemichannel activator quinine evoked ATP release and Ca2+ signaling in astrocytes and in C6 cells expressing connexin43. The propagation of intercellular Ca2+ waves in astrocytes was also potentiated by quinine and inhibited by FFA and Gd3+. Release of ATP through connexin hemichannels represents a novel signaling pathway for intercellular communication in astrocytes and other non-excitable cells.
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ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M109902200