Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain

Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain

Cav1.3 L-type Ca2+-channel function is regulated by a C-terminal automodulatory domain (CTM). It affects channel binding of calmodulin and thereby tunes channel activity by interfering with Ca2+- and voltage-dependent gating. Alternative splicing generates short C-terminal channel variants lacking t...

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Main Authors: Anja eScharinger, Stephanie eEckrich, David H Vandael, Kai eSchönig, Alexandra eKoschak, Dietmar eHecker, Gurjot eKaur, Amy eLee, Anupam eSah, Dusan eBartsch, Bruno eBenedetti, Andreas eLieb, Bernhard eSchick, Nicolas eSingewald, Martina J Brauns, Emilio eCarbone, Jutta eEngel, Joerg eStriessnig
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-08-01
Series:Frontiers in Cellular Neuroscience
Subjects:
Alternative Splicing
Calcium Channels
Chromaffin Cells
Hearing
channel gating
Hair cell
Online Access:http://journal.frontiersin.org/Journal/10.3389/fncel.2015.00309/full
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spelling doaj-3662552889844fe5b03051f69f53953c2020-11-24T22:08:16ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022015-08-01910.3389/fncel.2015.00309158602Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domainAnja eScharinger0Stephanie eEckrich1David H Vandael2Kai eSchönig3Alexandra eKoschak4Dietmar eHecker5Gurjot eKaur6Amy eLee7Anupam eSah8Dusan eBartsch9Bruno eBenedetti10Andreas eLieb11Bernhard eSchick12Nicolas eSingewald13Martina J Brauns14Emilio eCarbone15Jutta eEngel16Joerg eStriessnig17University of InnsbruckCenter for Integrative Physiology and Molecular Medicine (CIPMM), Saarland UniversityUniversity of TorinoCentral Inst. of Mental Health, Heidelberg UniversityUniversity of InnsbruckSaarland UniversityUniversity of InnsbruckUniversity of IowaUniversity of InnsbruckCentral Inst. of Mental Health, Heidelberg UniversityMedical University of InnsbruckUniversity of InnsbruckSaarland UniversityUniversity of InnsbruckUniversity of InnsbruckUniversity of TorinoCenter for Integrative Physiology and Molecular Medicine (CIPMM), Saarland UniversityUniversity of InnsbruckCav1.3 L-type Ca2+-channel function is regulated by a C-terminal automodulatory domain (CTM). It affects channel binding of calmodulin and thereby tunes channel activity by interfering with Ca2+- and voltage-dependent gating. Alternative splicing generates short C-terminal channel variants lacking the CTM resulting in enhanced Ca2+-dependent inactivation and stronger voltage-sensitivity upon heterologous expression. However, the role of this modulatory domain for channel function in its native environment is unkown. To determine its functional significance in vivo, we interrupted the CTM with a hemagglutinin tag in mutant mice (Cav1.3DCRDHA/HA). Using these mice we provide biochemical evidence for the existence of long (CTM-containing) and short (CTM-deficient) Cav1.3 α1-subunits in brain. The long (HA-labeled) Cav1.3 isoform was present in all ribbon synapses of cochlear inner hair cells. CTM-elimination impaired Ca2+-dependent inactivation of Ca2+-currents in hair cells but increased it in chromaffin cells, resulting in hyperpolarized resting potentials and reduced pacemaking. CTM disruption did not affect hearing thresholds. We show that the modulatory function of the CTM is affected by its native environment in different cells and thus occurs in a cell-type specific manner in vivo. It is required to stabilize gating properties of Cav1.3 channels required for normal electrical excitability.http://journal.frontiersin.org/Journal/10.3389/fncel.2015.00309/fullAlternative SplicingCalcium ChannelsChromaffin CellsHearingchannel gatingHair cell
collection DOAJ
language English
format Article
sources DOAJ
author Anja eScharinger
Stephanie eEckrich
David H Vandael
Kai eSchönig
Alexandra eKoschak
Dietmar eHecker
Gurjot eKaur
Amy eLee
Anupam eSah
Dusan eBartsch
Bruno eBenedetti
Andreas eLieb
Bernhard eSchick
Nicolas eSingewald
Martina J Brauns
Emilio eCarbone
Jutta eEngel
Joerg eStriessnig
spellingShingle Anja eScharinger
Stephanie eEckrich
David H Vandael
Kai eSchönig
Alexandra eKoschak
Dietmar eHecker
Gurjot eKaur
Amy eLee
Anupam eSah
Dusan eBartsch
Bruno eBenedetti
Andreas eLieb
Bernhard eSchick
Nicolas eSingewald
Martina J Brauns
Emilio eCarbone
Jutta eEngel
Joerg eStriessnig
Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain
Frontiers in Cellular Neuroscience
Alternative Splicing
Calcium Channels
Chromaffin Cells
Hearing
channel gating
Hair cell
author_facet Anja eScharinger
Stephanie eEckrich
David H Vandael
Kai eSchönig
Alexandra eKoschak
Dietmar eHecker
Gurjot eKaur
Amy eLee
Anupam eSah
Dusan eBartsch
Bruno eBenedetti
Andreas eLieb
Bernhard eSchick
Nicolas eSingewald
Martina J Brauns
Emilio eCarbone
Jutta eEngel
Joerg eStriessnig
author_sort Anja eScharinger
title Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain
title_short Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain
title_full Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain
title_fullStr Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain
title_full_unstemmed Cell-type-specific tuning of Cav1.3 Ca2+-channels by a C-terminal automodulatory domain
title_sort cell-type-specific tuning of cav1.3 ca2+-channels by a c-terminal automodulatory domain
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2015-08-01
description Cav1.3 L-type Ca2+-channel function is regulated by a C-terminal automodulatory domain (CTM). It affects channel binding of calmodulin and thereby tunes channel activity by interfering with Ca2+- and voltage-dependent gating. Alternative splicing generates short C-terminal channel variants lacking the CTM resulting in enhanced Ca2+-dependent inactivation and stronger voltage-sensitivity upon heterologous expression. However, the role of this modulatory domain for channel function in its native environment is unkown. To determine its functional significance in vivo, we interrupted the CTM with a hemagglutinin tag in mutant mice (Cav1.3DCRDHA/HA). Using these mice we provide biochemical evidence for the existence of long (CTM-containing) and short (CTM-deficient) Cav1.3 α1-subunits in brain. The long (HA-labeled) Cav1.3 isoform was present in all ribbon synapses of cochlear inner hair cells. CTM-elimination impaired Ca2+-dependent inactivation of Ca2+-currents in hair cells but increased it in chromaffin cells, resulting in hyperpolarized resting potentials and reduced pacemaking. CTM disruption did not affect hearing thresholds. We show that the modulatory function of the CTM is affected by its native environment in different cells and thus occurs in a cell-type specific manner in vivo. It is required to stabilize gating properties of Cav1.3 channels required for normal electrical excitability.
topic Alternative Splicing
Calcium Channels
Chromaffin Cells
Hearing
channel gating
Hair cell
url http://journal.frontiersin.org/Journal/10.3389/fncel.2015.00309/full
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