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First published online October 19, 2007
Journal of Experimental Biology 210, 3771-3779 (2007)
Published by The Company of Biologists 2007
doi: 10.1242/jeb.008037
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G protein activation by uncaging of GTP-{gamma}-S in the leech giant glial cell

Ingo C. Hirth, Frank C. Britz and Joachim W. Deitmer*

Abteilung für Allgemeine Zoologie, FB Biologie, TU Kaiserslautern, PO Box 3049, D-67653 Kaiserslautern, Germany

* Author for correspondence (e-mail: deitmer{at}biologie.uni-kl.de)

Accepted 13 August 2007

Glial cells can be activated by neurotransmitters via metabotropic, G protein-coupled receptors. We have studied the effects of `global' G protein activation by GTP-{gamma}-S on the membrane potential, membrane conductance, intracellular Ca2+ and Na+ of the giant glial cell in isolated ganglia of the leech Hirudo medicinalis. Uncaging GTP-{gamma}-S (injected into a giant glial cell as caged compound) by moderate UV illumination hyperpolarized the membrane due to an increase in K+ conductance. Uncaging GTP-{gamma}-S also evoked rises in cytosolic Ca2+ and Na+, both of which were suppressed after depleting the intracellular Ca2+ stores with cyclopiazonic acid (20 µmol l–1). Uncaging inositol-trisphosphate evoked a transient rise in cytosolic Ca2+ and Na+ but no change in membrane potential. Injection of the fast Ca2+ chelator BAPTA or depletion of intracellular Ca2+ stores did not suppress the membrane hyperpolarization induced by uncaging GTP-{gamma}-S. Our results suggest that global activation of G proteins in the leech giant glial cell results in a rise of Ca2+-independent membrane K+ conductance, a rise of cytosolic Ca2+, due to release from intracellular stores, and a rise of cytosolic Na+, presumably due to increased Na+/Ca2+ exchange.

Key words: K+ conductance, cytosolic Ca2+, cytosolic Na+, Na+/Ca2+ exchange, BAPTA


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© The Company of Biologists Ltd 2007