Modulation of small conductance calcium-activated potassium channels in C6 glioma cells |
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Authors: | D Manor N Moran |
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Institution: | (1) Department of Neurobiology, The Weizmann Institute, 76100 Rehovot, Israel |
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Abstract: | Using the patch clamp technique, we have characterized a small conductance, calcium-activated potassium (SK) channel in the C6 glioma cell line. Elevation of cytosolic Ca2+ concentration (Ca2+]
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) by applications of serotonin or ionomycin induced bursts of channel openings recorded in the cell-attached configuration. These channels underlie the serotonin-induced, Ca2+]
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-activated whole-cell K+ conductance described previously. Ca2+]
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directly activated SK channels in inside-out patches with a biphasic concentration dependence. Submicromolar Ca2+]
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induced bursts of channel openings with a unitary conductance of about 25 pS, similar to that of the serotonin-induced channels. Supramicromolar Ca2+]
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caused prolonged openings with a unitary conductance of about 35 pS, resulting in a pronounced increase of the average current in patches exposed to Ca2+]
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above 100 m. The two modes of opening reflect the activity of the same SK channel. The channel conductance depended on external K+ concentration with K
Dof 5 m. The channel was slightly permeable to cations other than K+, with a permeability ratio for K+ Ca2+ Na+ of 1 0.040 0.030, respectively. ATP was required to maintain channel activity in outside-out patches but was not essential in inside-out patches. The modulation of SK channels in C6 cells by components in their microenvironment may be related to the role of glial cells in controlling the extracellular milieu in the CNS.The authors are grateful to Dr. M. Segal for continuous support, stimulating discussions and criticism throughout the course of this work, to Dr. I. Steinberg for helpful suggestions and to Dr. H. Jarosch, for helping with the Fortran application. N.M.'s research was supported in part by BARD, the U.S.-Israel Binational Agricultural Research and Development Fund, grant no. IS-1670-89RC. |
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Keywords: | SK channels ATP Serotonin Sublevels Patch clamp Glia |
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