Literature DB >> 12154172

The Ca(V)2.3 Ca(2+) channel subunit contributes to R-type Ca(2+) currents in murine hippocampal and neocortical neurones.

Dmitry Sochivko1, Alexey Pereverzev, Neil Smyth, Cornelia Gissel, Toni Schneider, Heinz Beck.   

Abstract

Different subtypes of voltage-dependent Ca(2+) currents in native neurones are essential in coupling action potential firing to Ca(2+) influx. For most of these currents, the underlying Ca(2+) channel subunits have been identified on the basis of pharmacological and biophysical similarities. In contrast, the molecular basis of R-type Ca(2+) currents remains controversial. We have therefore examined the contribution of the Ca(V)2.3 (alpha(1E)) subunits to R-type currents in different types of central neurones using wild-type mice and mice in which the Ca(V)2.3 subunit gene was deleted. In hippocampal CA1 pyramidal cells and dentate granule neurones, as well as neocortical neurones of wild-type mice, Ca(2+) current components resistant to the combined application of omega-conotoxin GVIA and MVIIC, omega-agatoxin IVa and nifedipine (I(Ca,R)) were detected that were composed of a large R-type and a smaller T-type component. In Ca(V)2.3-deficient mice, I(Ca,R) was considerably reduced in CA1 neurones (79 %) and cortical neurones (87 %), with less reduction occurring in dentate granule neurones (47 %). Analysis of tail currents revealed that the reduction of I(Ca,R) is due to a selective reduction of the rapidly deactivating R-type current component in CA1 and cortical neurones. In all cell types, I(Ca,R) was highly sensitive to Ni(2+) (100 microM: 71-86 % block). A selective antagonist of cloned Ca(V)2.3 channels, the spider toxin SNX-482, partially inhibited I(Ca,R) at concentrations up to 300 nM in dentate granule cells and cortical neurones (50 and 57 % block, EC(50) 30 and 47 nM, respectively). I(Ca,R) in CA1 neurones was significantly less sensitive to SNX-482 (27 % block, 300 nM SNX-482). Taken together, our results show clearly that Ca(V)2.3 subunits underlie a significant fraction of I(Ca,R) in different types of central neurones. They also indicate that Ca(V)2.3 subunits may give rise to Ca(2+) currents with differing pharmacological properties in native neurones.

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Year:  2002        PMID: 12154172      PMCID: PMC2290463          DOI: 10.1113/jphysiol.2002.020677

Source DB:  PubMed          Journal:  J Physiol        ISSN: 0022-3751            Impact factor:   5.182


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