Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain

Low voltage activation of Ca(V)1.3 L-type Ca(2+) channels controls excitability in sensory cells and central neurons as well as sinoatrial node pacemaking. Ca(V)1.3-mediated pacemaking determines neuronal vulnerability of dopaminergic striatal neurons affected in Parkinson disease. We have previousl...

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Autores principales: Singh, Anamika, Gebhart, Mathias, Fritsch, Reinhard, Sinnegger-Brauns, Martina J., Poggiani, Chiara, Hoda, Jean-Charles, Engel, Jutta, Romanin, Christoph, Striessnig, Jörg, Koschak, Alexandra
Formato: Texto
Lenguaje:English
Publicado: American Society for Biochemistry and Molecular Biology 2008
Materias:
Mechanisms of Signal Transduction
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2475692/
https://www.ncbi.nlm.nih.gov/pubmed/18482979
http://dx.doi.org/10.1074/jbc.M802254200
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author Singh, Anamika
Gebhart, Mathias
Fritsch, Reinhard
Sinnegger-Brauns, Martina J.
Poggiani, Chiara
Hoda, Jean-Charles
Engel, Jutta
Romanin, Christoph
Striessnig, Jörg
Koschak, Alexandra
author_facet Singh, Anamika
Gebhart, Mathias
Fritsch, Reinhard
Sinnegger-Brauns, Martina J.
Poggiani, Chiara
Hoda, Jean-Charles
Engel, Jutta
Romanin, Christoph
Striessnig, Jörg
Koschak, Alexandra
author_sort Singh, Anamika
collection PubMed
description Low voltage activation of Ca(V)1.3 L-type Ca(2+) channels controls excitability in sensory cells and central neurons as well as sinoatrial node pacemaking. Ca(V)1.3-mediated pacemaking determines neuronal vulnerability of dopaminergic striatal neurons affected in Parkinson disease. We have previously found that in Ca(V)1.4 L-type Ca(2+) channels, activation, voltage, and calcium-dependent inactivation are controlled by an intrinsic distal C-terminal modulator. Because alternative splicing in the Ca(V)1.3 α1 subunit C terminus gives rise to a long (Ca(V)1.3(42)) and a short form (Ca(V)1.3(42A)), we investigated if a C-terminal modulatory mechanism also controls Ca(V)1.3 gating. The biophysical properties of both splice variants were compared after heterologous expression together with β3 and α2δ1 subunits in HEK-293 cells. Activation of calcium current through Ca(V)1.3(42A) channels was more pronounced at negative voltages, and inactivation was faster because of enhanced calcium-dependent inactivation. By investigating several Ca(V)1.3 channel truncations, we restricted the modulator activity to the last 116 amino acids of the C terminus. The resulting Ca(V)1.3(ΔC116) channels showed gating properties similar to Ca(V)1.3(42A) that were reverted by co-expression of the corresponding C-terminal peptide C(116). Fluorescence resonance energy transfer experiments confirmed an intramolecular protein interaction in the C terminus of Ca(V)1.3 channels that also modulates calmodulin binding. These experiments revealed a novel mechanism of channel modulation enabling cells to tightly control Ca(V)1.3 channel activity by alternative splicing. The absence of the C-terminal modulator in short splice forms facilitates Ca(V)1.3 channel activation at lower voltages expected to favor Ca(V)1.3 activity at threshold voltages as required for modulation of neuronal firing behavior and sinoatrial node pacemaking.
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spelling pubmed-24756922008-09-22 Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain Singh, Anamika Gebhart, Mathias Fritsch, Reinhard Sinnegger-Brauns, Martina J. Poggiani, Chiara Hoda, Jean-Charles Engel, Jutta Romanin, Christoph Striessnig, Jörg Koschak, Alexandra J Biol Chem Mechanisms of Signal Transduction Low voltage activation of Ca(V)1.3 L-type Ca(2+) channels controls excitability in sensory cells and central neurons as well as sinoatrial node pacemaking. Ca(V)1.3-mediated pacemaking determines neuronal vulnerability of dopaminergic striatal neurons affected in Parkinson disease. We have previously found that in Ca(V)1.4 L-type Ca(2+) channels, activation, voltage, and calcium-dependent inactivation are controlled by an intrinsic distal C-terminal modulator. Because alternative splicing in the Ca(V)1.3 α1 subunit C terminus gives rise to a long (Ca(V)1.3(42)) and a short form (Ca(V)1.3(42A)), we investigated if a C-terminal modulatory mechanism also controls Ca(V)1.3 gating. The biophysical properties of both splice variants were compared after heterologous expression together with β3 and α2δ1 subunits in HEK-293 cells. Activation of calcium current through Ca(V)1.3(42A) channels was more pronounced at negative voltages, and inactivation was faster because of enhanced calcium-dependent inactivation. By investigating several Ca(V)1.3 channel truncations, we restricted the modulator activity to the last 116 amino acids of the C terminus. The resulting Ca(V)1.3(ΔC116) channels showed gating properties similar to Ca(V)1.3(42A) that were reverted by co-expression of the corresponding C-terminal peptide C(116). Fluorescence resonance energy transfer experiments confirmed an intramolecular protein interaction in the C terminus of Ca(V)1.3 channels that also modulates calmodulin binding. These experiments revealed a novel mechanism of channel modulation enabling cells to tightly control Ca(V)1.3 channel activity by alternative splicing. The absence of the C-terminal modulator in short splice forms facilitates Ca(V)1.3 channel activation at lower voltages expected to favor Ca(V)1.3 activity at threshold voltages as required for modulation of neuronal firing behavior and sinoatrial node pacemaking. American Society for Biochemistry and Molecular Biology 2008-07-25 /pmc/articles/PMC2475692/ /pubmed/18482979 http://dx.doi.org/10.1074/jbc.M802254200 Text en Copyright © 2008, The American Society for Biochemistry and Molecular Biology, Inc. Author's Choice Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) applies to Author Choice Articles
spellingShingle Mechanisms of Signal Transduction
Singh, Anamika
Gebhart, Mathias
Fritsch, Reinhard
Sinnegger-Brauns, Martina J.
Poggiani, Chiara
Hoda, Jean-Charles
Engel, Jutta
Romanin, Christoph
Striessnig, Jörg
Koschak, Alexandra
Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain
title Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain
title_full Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain
title_fullStr Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain
title_full_unstemmed Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain
title_short Modulation of Voltage- and Ca(2+)-dependent Gating of Ca(V)1.3 L-type Calcium Channels by Alternative Splicing of a C-terminal Regulatory Domain
title_sort modulation of voltage- and ca(2+)-dependent gating of ca(v)1.3 l-type calcium channels by alternative splicing of a c-terminal regulatory domain
topic Mechanisms of Signal Transduction
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2475692/
https://www.ncbi.nlm.nih.gov/pubmed/18482979
http://dx.doi.org/10.1074/jbc.M802254200
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