ICln Ion channel splice variants in Caenorhabditis elegans

Fürst J, Ritter M, Rudzki J, Danzl JG, Gschwentner M, Scandella E, Jakab M, König M, Oehl B, Lang F, Deetjen P, Paulmichl M. 2002. ICln Ion channel splice variants in Caenorhabditis elegans. Journal of Biological Chemistry. 277(6), 4435–4445.

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Author
Fürst, Johannes; Ritter, Markus; Rudzki, Jakob; Danzl, Johann GISTA ; Gschwentner, Martin; Scandella, Elke; Jakab, Martin; König, Matthias; Oehl, Bernhard; Lang, Florian; Deetjen, Peter; Paulmichl, Markus
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Abstract
ICln is an ion channel identified by expression cloning using a cDNA library from Madin-Darby canine kidney cells. In all organisms tested so far, only one transcript for the ICln protein could be identified. Here we show that two splice variants of the ICln ion channel can be found in Caenorhabditis elegans. Moreover, we show that these two splice variants of the ICln channel protein, which we termed IClnN1 and IClnN2, can be functionally reconstituted and tested in an artificial lipid bilayer. In these experiments, the IClnN1-induced currents showed no voltage-dependent inactivation, whereas the IClnN2-induced currents fully inactivated at positive potentials. The molecular entity responsible for the voltage-dependent inactivation of IClnN2 is a cluster of positively charged amino acids encoded by exon 2a, which is absent in IClnN1. Our experiments suggest a mechanism of channel inactivation that is similar to the “ball and chain” model proposed for the Shaker potassium channel,i.e. a cluster of positively charged amino acids hinders ion permeation through the channel by a molecular and voltage-dependent interaction at the inner vestibulum of the pore. This hypothesis is supported by the finding that synthetic peptides with the same amino acid sequence as the positive cluster can transform the IClnN1-induced current to the current observed after reconstitution of IClnN2. Furthermore, we show that the nematode ICln gene is embedded in an operon harboring two additional genes, which we termed Nx and Ny. Co-reconstitution of Nx and IClnN2 and functional analysis of the related currents revealed a functional interaction between the two proteins, as evidenced by the fact that the IClnN2-induced current in the presence of Nx was no longer voltage-sensitive. The experiments described indicate that the genome organization in nematodes allows an effective approach for the identification of functional partner proteins of ion channels.
Publishing Year
Date Published
2002-02-08
Journal Title
Journal of Biological Chemistry
Publisher
Elsevier
Acknowledgement
We are grateful to D. E. Clapham, E. Wöll, G. Meyer, and G. Botta for helpful discussion and/or reading of the manuscript. We also thank T. Stiernagle for providing the N2 strain of C. elegans and A. Wimmer and M. Frick for technical assistance
Volume
277
Issue
6
Page
4435-4445
ISSN
IST-REx-ID

Cite this

Fürst J, Ritter M, Rudzki J, et al. ICln Ion channel splice variants in Caenorhabditis elegans. Journal of Biological Chemistry. 2002;277(6):4435-4445. doi:10.1074/jbc.m107372200
Fürst, J., Ritter, M., Rudzki, J., Danzl, J. G., Gschwentner, M., Scandella, E., … Paulmichl, M. (2002). ICln Ion channel splice variants in Caenorhabditis elegans. Journal of Biological Chemistry. Elsevier. https://doi.org/10.1074/jbc.m107372200
Fürst, Johannes, Markus Ritter, Jakob Rudzki, Johann G Danzl, Martin Gschwentner, Elke Scandella, Martin Jakab, et al. “ICln Ion Channel Splice Variants in Caenorhabditis Elegans.” Journal of Biological Chemistry. Elsevier, 2002. https://doi.org/10.1074/jbc.m107372200.
J. Fürst et al., “ICln Ion channel splice variants in Caenorhabditis elegans,” Journal of Biological Chemistry, vol. 277, no. 6. Elsevier, pp. 4435–4445, 2002.
Fürst J, Ritter M, Rudzki J, Danzl JG, Gschwentner M, Scandella E, Jakab M, König M, Oehl B, Lang F, Deetjen P, Paulmichl M. 2002. ICln Ion channel splice variants in Caenorhabditis elegans. Journal of Biological Chemistry. 277(6), 4435–4445.
Fürst, Johannes, et al. “ICln Ion Channel Splice Variants in Caenorhabditis Elegans.” Journal of Biological Chemistry, vol. 277, no. 6, Elsevier, 2002, pp. 4435–45, doi:10.1074/jbc.m107372200.
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