The Role of GJD2(Cx36) in Refractive Error Development

Refractive errors are common eye disorders characterized by a mismatch between the focal power of the eye and its axial length. An increased axial length is a common cause of the refractive error myopia (nearsightedness). The substantial increase in myopia prevalence over the last decades has raised...

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Autores principales: van der Sande, Emilie, Haarman, Annechien E. G., Quint, Wim H., Tadema, Kirke C. D., Meester-Smoor, Magda A., Kamermans, Maarten, De Zeeuw, Chris I., Klaver, Caroline C. W., Winkelman, Beerend H. J., Iglesias, Adriana I.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Association for Research in Vision and Ophthalmology 2022
Materias:
Review
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8934558/
https://www.ncbi.nlm.nih.gov/pubmed/35262731
http://dx.doi.org/10.1167/iovs.63.3.5
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author van der Sande, Emilie
Haarman, Annechien E. G.
Quint, Wim H.
Tadema, Kirke C. D.
Meester-Smoor, Magda A.
Kamermans, Maarten
De Zeeuw, Chris I.
Klaver, Caroline C. W.
Winkelman, Beerend H. J.
Iglesias, Adriana I.
author_facet van der Sande, Emilie
Haarman, Annechien E. G.
Quint, Wim H.
Tadema, Kirke C. D.
Meester-Smoor, Magda A.
Kamermans, Maarten
De Zeeuw, Chris I.
Klaver, Caroline C. W.
Winkelman, Beerend H. J.
Iglesias, Adriana I.
author_sort van der Sande, Emilie
collection PubMed
description Refractive errors are common eye disorders characterized by a mismatch between the focal power of the eye and its axial length. An increased axial length is a common cause of the refractive error myopia (nearsightedness). The substantial increase in myopia prevalence over the last decades has raised public health concerns because myopia can lead to severe ocular complications later in life. Genomewide association studies (GWAS) have made considerable contributions to the understanding of the genetic architecture of refractive errors. Among the hundreds of genetic variants identified, common variants near the gap junction delta-2 (GJD2) gene have consistently been reported as one of the top hits. GJD2 encodes the connexin 36 (Cx36) protein, which forms gap junction channels and is highly expressed in the neural retina. In this review, we provide current evidence that links GJD2(Cx36) to the development of myopia. We summarize the gap junctional communication in the eye and the specific role of GJD2(Cx36) in retinal processing of visual signals. Finally, we discuss the pathways involving dopamine and gap junction phosphorylation and coupling as potential mechanisms that may explain the role of GJD2(Cx36) in refractive error development.
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spelling pubmed-89345582022-03-21 The Role of GJD2(Cx36) in Refractive Error Development van der Sande, Emilie Haarman, Annechien E. G. Quint, Wim H. Tadema, Kirke C. D. Meester-Smoor, Magda A. Kamermans, Maarten De Zeeuw, Chris I. Klaver, Caroline C. W. Winkelman, Beerend H. J. Iglesias, Adriana I. Invest Ophthalmol Vis Sci Review Refractive errors are common eye disorders characterized by a mismatch between the focal power of the eye and its axial length. An increased axial length is a common cause of the refractive error myopia (nearsightedness). The substantial increase in myopia prevalence over the last decades has raised public health concerns because myopia can lead to severe ocular complications later in life. Genomewide association studies (GWAS) have made considerable contributions to the understanding of the genetic architecture of refractive errors. Among the hundreds of genetic variants identified, common variants near the gap junction delta-2 (GJD2) gene have consistently been reported as one of the top hits. GJD2 encodes the connexin 36 (Cx36) protein, which forms gap junction channels and is highly expressed in the neural retina. In this review, we provide current evidence that links GJD2(Cx36) to the development of myopia. We summarize the gap junctional communication in the eye and the specific role of GJD2(Cx36) in retinal processing of visual signals. Finally, we discuss the pathways involving dopamine and gap junction phosphorylation and coupling as potential mechanisms that may explain the role of GJD2(Cx36) in refractive error development. The Association for Research in Vision and Ophthalmology 2022-03-09 /pmc/articles/PMC8934558/ /pubmed/35262731 http://dx.doi.org/10.1167/iovs.63.3.5 Text en Copyright 2022 The Authors https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 International License.
spellingShingle Review
van der Sande, Emilie
Haarman, Annechien E. G.
Quint, Wim H.
Tadema, Kirke C. D.
Meester-Smoor, Magda A.
Kamermans, Maarten
De Zeeuw, Chris I.
Klaver, Caroline C. W.
Winkelman, Beerend H. J.
Iglesias, Adriana I.
The Role of GJD2(Cx36) in Refractive Error Development
title The Role of GJD2(Cx36) in Refractive Error Development
title_full The Role of GJD2(Cx36) in Refractive Error Development
title_fullStr The Role of GJD2(Cx36) in Refractive Error Development
title_full_unstemmed The Role of GJD2(Cx36) in Refractive Error Development
title_short The Role of GJD2(Cx36) in Refractive Error Development
title_sort role of gjd2(cx36) in refractive error development
topic Review
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8934558/
https://www.ncbi.nlm.nih.gov/pubmed/35262731
http://dx.doi.org/10.1167/iovs.63.3.5
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