Characterization of zebrafish Cx43.4 connexin and its channels

Connexins (Cx) form intercellular junctional channels which are responsible for metabolic and electrical coupling. We report here on the biochemical and immunohistochemical characterization of zebrafish connexin zfCx43.4, an orthologue of mammalian and avian Cx45, and the electrophysiological proper...

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Veröffentlicht in:Experimental physiology 2003-11, Vol.88 (6), p.681-690
Hauptverfasser: Desplantez, T., Marics, I., Jarry-Guichard, T., Veteikis, R., Briand, J.-P., Weingart, R., Gros, D.
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Sprache:eng
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Zusammenfassung:Connexins (Cx) form intercellular junctional channels which are responsible for metabolic and electrical coupling. We report here on the biochemical and immunohistochemical characterization of zebrafish connexin zfCx43.4, an orthologue of mammalian and avian Cx45, and the electrophysiological properties of junctional channels formed by this protein. The investigations were performed on transfected COS-7 cells or HeLa cells. Using site-directed antibodies, zfCx43.4 cDNA (GenBank accession no. X96712) was demonstrated to code for a protein with a Mr of 45 000. In transfected cells, zfCx43.4 was localized in cell-cell contact areas as expected for a gap junction protein. zfCx43.4 channels were shown to transfer Lucifer Yellow. The multichannel currents were sensitive to the transjunctional voltage (Vj). Their properties were consistent with a two-state model and yielded the following Boltzmann parameters for negative/positive Vj: Vj,0 = -38.4/41.9 mV; gj,min = 0.19/0.18; z = 2.6/2.3. These parameters deviate somewhat from those of zfCx43.4 channels expressed in Xenopus oocytes and from those of Cx45, an orthologue of zfCx43.4, expressed in mammalian cells or Xenopus oocytes. Conceivably, the subtle differences may reflect differences in experimental methods and/or in the expression system. The single channel currents yielded two prominent levels attributable to a main conductance state (γj,main = 33.2 ± 1.5 pS) and a residual conductance state (γj,residual = 11.9 ± 0.6 pS). Experimental Physiology (2003) 88.6, 681-690.
ISSN:0958-0670
1469-445X
DOI:10.1113/eph8802584