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The choroid-sclera interface: An ultrastructural study

Emmetropization is an active and visually guided process that involves the retina, choroid and sclera, and results in compensatory changes in eye growth. This guided growth is the result of visual cues and possibly mechanical interactions being translated into growth signals via molecular events fro...

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Autores principales: Platzl, C., Kaser-Eichberger, A., Benavente-Perez, A., Schroedl, F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9108890/
https://www.ncbi.nlm.nih.gov/pubmed/35586330
http://dx.doi.org/10.1016/j.heliyon.2022.e09408
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author Platzl, C.
Kaser-Eichberger, A.
Benavente-Perez, A.
Schroedl, F.
author_facet Platzl, C.
Kaser-Eichberger, A.
Benavente-Perez, A.
Schroedl, F.
author_sort Platzl, C.
collection PubMed
description Emmetropization is an active and visually guided process that involves the retina, choroid and sclera, and results in compensatory changes in eye growth. This guided growth is the result of visual cues and possibly mechanical interactions being translated into growth signals via molecular events from the retina into the choroid and sclera, through the choroidal scleral transition zone. If mechanical interactions were a part of the choroid-sclera signaling transduction cascade, specific morphological arrangements should be detectable in this region at the ultrastructural level. The goal of this study was to investigate the ultrastructural features of the choroidal scleral transition zone by comparing avian, non-human primate and human eyes, with the goal to confirm whether specific mechanical structures are present. Choroidal and scleral tissue from chicken, marmoset, and human eyes were imaged using transmission electron microscopy to document the choroid-sclera transition zone. In chicken eyes, fibroblast lamellae bordered the scleral matrix and formed thin end elongated processes that were undercut by scleral collagen fibrils. These processes back-looped into the scleral matrix, and displayed small club-like membrane protrusions. Differences in these arrangements in mature vs young chickens were not detected. The club-like membrane protrusions identified in chickens were rare in marmoset eyes, which instead exhibited two types of collagen fibrils discriminated by size, and were absent in the human eyes investigated. In marmoset and human eyes, elastic components were detected in the transition zone that were absent in chickens. In summary, cellular/membrane specializations indicating a mechanical interaction at the choroid-sclera transition zone were not detected in chicken, non-human primate or human eyes. If mechanotransduction is necessary for scleral growth, matrix integrity or development, alternative structural arrangements might be required.
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spelling pubmed-91088902022-05-17 The choroid-sclera interface: An ultrastructural study Platzl, C. Kaser-Eichberger, A. Benavente-Perez, A. Schroedl, F. Heliyon Research Article Emmetropization is an active and visually guided process that involves the retina, choroid and sclera, and results in compensatory changes in eye growth. This guided growth is the result of visual cues and possibly mechanical interactions being translated into growth signals via molecular events from the retina into the choroid and sclera, through the choroidal scleral transition zone. If mechanical interactions were a part of the choroid-sclera signaling transduction cascade, specific morphological arrangements should be detectable in this region at the ultrastructural level. The goal of this study was to investigate the ultrastructural features of the choroidal scleral transition zone by comparing avian, non-human primate and human eyes, with the goal to confirm whether specific mechanical structures are present. Choroidal and scleral tissue from chicken, marmoset, and human eyes were imaged using transmission electron microscopy to document the choroid-sclera transition zone. In chicken eyes, fibroblast lamellae bordered the scleral matrix and formed thin end elongated processes that were undercut by scleral collagen fibrils. These processes back-looped into the scleral matrix, and displayed small club-like membrane protrusions. Differences in these arrangements in mature vs young chickens were not detected. The club-like membrane protrusions identified in chickens were rare in marmoset eyes, which instead exhibited two types of collagen fibrils discriminated by size, and were absent in the human eyes investigated. In marmoset and human eyes, elastic components were detected in the transition zone that were absent in chickens. In summary, cellular/membrane specializations indicating a mechanical interaction at the choroid-sclera transition zone were not detected in chicken, non-human primate or human eyes. If mechanotransduction is necessary for scleral growth, matrix integrity or development, alternative structural arrangements might be required. Elsevier 2022-05-10 /pmc/articles/PMC9108890/ /pubmed/35586330 http://dx.doi.org/10.1016/j.heliyon.2022.e09408 Text en © 2022 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Article
Platzl, C.
Kaser-Eichberger, A.
Benavente-Perez, A.
Schroedl, F.
The choroid-sclera interface: An ultrastructural study
title The choroid-sclera interface: An ultrastructural study
title_full The choroid-sclera interface: An ultrastructural study
title_fullStr The choroid-sclera interface: An ultrastructural study
title_full_unstemmed The choroid-sclera interface: An ultrastructural study
title_short The choroid-sclera interface: An ultrastructural study
title_sort choroid-sclera interface: an ultrastructural study
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9108890/
https://www.ncbi.nlm.nih.gov/pubmed/35586330
http://dx.doi.org/10.1016/j.heliyon.2022.e09408
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