Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model

Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model

Clinical management of auditory synaptopathies like other genetic hearing disorders is currently limited to the use of hearing aids or cochlear implants. However, future gene therapy promises restoration of hearing in selected forms of monogenic hearing impairment, in which cochlear morphology is pr...

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Main Authors: David Oestreicher, Maria Magdalena Picher, Vladan Rankovic, Tobias Moser, Tina Pangrsic
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-08-01
Series:Frontiers in Molecular Neuroscience
Subjects:
hair cell
calcium channel
gene therapeutics
adeno-associated virus
hearing
restoration
Online Access:https://www.frontiersin.org/articles/10.3389/fnmol.2021.689415/full
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spelling doaj-daecb6e68fa44f6a92af0de315b24d542021-08-19T14:19:06ZengFrontiers Media S.A.Frontiers in Molecular Neuroscience1662-50992021-08-011410.3389/fnmol.2021.689415689415Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse ModelDavid Oestreicher0David Oestreicher1Maria Magdalena Picher2Vladan Rankovic3Vladan Rankovic4Tobias Moser5Tobias Moser6Tobias Moser7Tobias Moser8Tina Pangrsic9Tina Pangrsic10Tina Pangrsic11Tina Pangrsic12Experimental Otology Group, InnerEarLab, Department of Otolaryngology, University Medical Center Göttingen, Göttingen, GermanyAuditory Neuroscience Group, Max Planck Institute of Experimental Medicine, Göttingen, GermanyInstitute for Auditory Neuroscience and InnerEarLab, University Medical Center Göttingen, Göttingen, GermanyInstitute for Auditory Neuroscience and InnerEarLab, University Medical Center Göttingen, Göttingen, GermanyRestorative Cochlear Genomics Group, Auditory Neuroscience and Optogenetics Laboratory, German Primate Center, Göttingen, GermanyAuditory Neuroscience Group, Max Planck Institute of Experimental Medicine, Göttingen, GermanyInstitute for Auditory Neuroscience and InnerEarLab, University Medical Center Göttingen, Göttingen, GermanyCollaborative Research Center 889, University of Göttingen, Göttingen, GermanyMultiscale Bioimaging Cluster of Excellence (MBExC), University of Göttingen, Göttingen, GermanyExperimental Otology Group, InnerEarLab, Department of Otolaryngology, University Medical Center Göttingen, Göttingen, GermanyAuditory Neuroscience Group, Max Planck Institute of Experimental Medicine, Göttingen, GermanyCollaborative Research Center 889, University of Göttingen, Göttingen, GermanyMultiscale Bioimaging Cluster of Excellence (MBExC), University of Göttingen, Göttingen, GermanyClinical management of auditory synaptopathies like other genetic hearing disorders is currently limited to the use of hearing aids or cochlear implants. However, future gene therapy promises restoration of hearing in selected forms of monogenic hearing impairment, in which cochlear morphology is preserved over a time window that enables intervention. This includes non-syndromic autosomal recessive hearing impairment DFNB93, caused by defects in the CABP2 gene. Calcium-binding protein 2 (CaBP2) is a potent modulator of inner hair cell (IHC) voltage-gated calcium channels CaV1.3. Based on disease modeling in Cabp2–/– mice, DFNB93 hearing impairment has been ascribed to enhanced steady-state inactivation of IHC CaV1.3 channels, effectively limiting their availability to trigger synaptic transmission. This, however, does not seem to interfere with cochlear development and does not cause early degeneration of hair cells or their synapses. Here, we studied the potential of a gene therapeutic approach for the treatment of DFNB93. We used AAV2/1 and AAV-PHP.eB viral vectors to deliver the Cabp2 coding sequence into IHCs of early postnatal Cabp2–/– mice and assessed the level of restoration of hair cell function and hearing. Combining in vitro and in vivo approaches, we observed high transduction efficiency, and restoration of IHC CaV1.3 function resulting in improved hearing of Cabp2–/– mice. These preclinical results prove the feasibility of DFNB93 gene therapy.https://www.frontiersin.org/articles/10.3389/fnmol.2021.689415/fullhair cellcalcium channelgene therapeuticsadeno-associated virushearingrestoration
collection DOAJ
language English
format Article
sources DOAJ
author David Oestreicher
David Oestreicher
Maria Magdalena Picher
Vladan Rankovic
Vladan Rankovic
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser
Tina Pangrsic
Tina Pangrsic
Tina Pangrsic
Tina Pangrsic
spellingShingle David Oestreicher
David Oestreicher
Maria Magdalena Picher
Vladan Rankovic
Vladan Rankovic
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser
Tina Pangrsic
Tina Pangrsic
Tina Pangrsic
Tina Pangrsic
Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model
Frontiers in Molecular Neuroscience
hair cell
calcium channel
gene therapeutics
adeno-associated virus
hearing
restoration
author_facet David Oestreicher
David Oestreicher
Maria Magdalena Picher
Vladan Rankovic
Vladan Rankovic
Tobias Moser
Tobias Moser
Tobias Moser
Tobias Moser
Tina Pangrsic
Tina Pangrsic
Tina Pangrsic
Tina Pangrsic
author_sort David Oestreicher
title Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model
title_short Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model
title_full Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model
title_fullStr Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model
title_full_unstemmed Cabp2-Gene Therapy Restores Inner Hair Cell Calcium Currents and Improves Hearing in a DFNB93 Mouse Model
title_sort cabp2-gene therapy restores inner hair cell calcium currents and improves hearing in a dfnb93 mouse model
publisher Frontiers Media S.A.
series Frontiers in Molecular Neuroscience
issn 1662-5099
publishDate 2021-08-01
description Clinical management of auditory synaptopathies like other genetic hearing disorders is currently limited to the use of hearing aids or cochlear implants. However, future gene therapy promises restoration of hearing in selected forms of monogenic hearing impairment, in which cochlear morphology is preserved over a time window that enables intervention. This includes non-syndromic autosomal recessive hearing impairment DFNB93, caused by defects in the CABP2 gene. Calcium-binding protein 2 (CaBP2) is a potent modulator of inner hair cell (IHC) voltage-gated calcium channels CaV1.3. Based on disease modeling in Cabp2–/– mice, DFNB93 hearing impairment has been ascribed to enhanced steady-state inactivation of IHC CaV1.3 channels, effectively limiting their availability to trigger synaptic transmission. This, however, does not seem to interfere with cochlear development and does not cause early degeneration of hair cells or their synapses. Here, we studied the potential of a gene therapeutic approach for the treatment of DFNB93. We used AAV2/1 and AAV-PHP.eB viral vectors to deliver the Cabp2 coding sequence into IHCs of early postnatal Cabp2–/– mice and assessed the level of restoration of hair cell function and hearing. Combining in vitro and in vivo approaches, we observed high transduction efficiency, and restoration of IHC CaV1.3 function resulting in improved hearing of Cabp2–/– mice. These preclinical results prove the feasibility of DFNB93 gene therapy.
topic hair cell
calcium channel
gene therapeutics
adeno-associated virus
hearing
restoration
url https://www.frontiersin.org/articles/10.3389/fnmol.2021.689415/full
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