TRPC5 Is a Ca2+-activated Channel Functionally Coupled to Ca2+-selective Ion Channels |
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Authors: | Stefan Alfred Gross Gustavo Adolfo Guzm??n Ulrich Wissenbach Stephan Ernst Philipp Michael Xi Zhu Dieter Bruns and Adolfo Cavali?? |
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Institution: | From the ‡Institut für Experimentelle und Klinische Pharmakologie und Toxikologie and ;§Institut für Physiologie, Universität des Saarlandes, 66421 Homburg/Saar, Germany and ;the ¶Department of Neuroscience and Center for Molecular Neurobiology, The Ohio State University, Columbus, Ohio 43210 |
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Abstract: | TRPC5 forms non-selective cation channels. Here we studied the role of internal Ca2+ in the activation of murine TRPC5 heterologously expressed in human embryonic kidney cells. Cell dialysis with various Ca2+ concentrations (Ca2+i) revealed a dose-dependent activation of TRPC5 channels by internal Ca2+ with EC50 of 635.1 and 358.2 nm at negative and positive membrane potentials, respectively. Stepwise increases of Ca2+i induced by photolysis of caged Ca2+ showed that the Ca2+ activation of TRPC5 channels follows a rapid exponential time course with a time constant of 8.6 ± 0.2 ms at Ca2+i below 10 μm, suggesting that the action of internal Ca2+ is a primary mechanism in the activation of TRPC5 channels. A second slow activation phase with a time to peak of 1.4 ± 0.1 s was also observed at Ca2+i above 10 μm. In support of a Ca2+-activation mechanism, the thapsigargin-induced release of Ca2+ from internal stores activated TRPC5 channels transiently, and the subsequent Ca2+ entry produced a sustained TRPC5 activation, which in turn supported a long-lasting membrane depolarization. By co-expressing STIM1 plus ORAI1 or the α1C and β2 subunits of L-type Ca2+ channels, we found that Ca2+ entry through either calcium-release-activated-calcium or voltage-dependent Ca2+ channels is sufficient for TRPC5 channel activation. The Ca2+ entry activated TRPC5 channels under buffering of internal Ca2+ with EGTA but not with BAPTA. Our data support the hypothesis that TRPC5 forms Ca2+-activated cation channels that are functionally coupled to Ca2+-selective ion channels through local Ca2+ increases beneath the plasma membrane. |
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