Interactions of the choroid, Bruch's membrane, retinal pigment epithelium, and neurosensory retina collaborate to form the outer blood-retinal-barrier

Interactions of the choroid, Bruch's membrane, retinal pigment epithelium, and neurosensory retina collaborate to form the outer blood-retinal-barrier

The three interacting components of the outer blood-retinal barrier are the retinal pigment epithelium (RPE), choriocapillaris, and Bruch's membrane, the extracellular matrix that lies between them. Although previously reviewed independently, this review integrates these components into a more...

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Veröffentlicht in:Progress in retinal and eye research 2020-05, Vol.76, p.100803-100803, Article 100803
Hauptverfasser: Fields, Mark A., Del Priore, Lucian V., Adelman, Ron A., Rizzolo, Lawrence J.
Format: Artikel
Sprache:eng
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Blood-retinal barrier
Blood-Retinal Barrier - physiology
Bruch Membrane - metabolism
Bruch Membrane - pathology
Bruch's membrane
Choriocapillaris
Choroid - metabolism
Choroid - pathology
Humans
Macular degeneration
Macular Degeneration - diagnosis
Macular Degeneration - metabolism
Retina
Retinal Pigment Epithelium - metabolism
Retinal Pigment Epithelium - pathology
RPE
Stem cell-derived organoids
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creator Fields, Mark A.
Del Priore, Lucian V.
Adelman, Ron A.
Rizzolo, Lawrence J.
description The three interacting components of the outer blood-retinal barrier are the retinal pigment epithelium (RPE), choriocapillaris, and Bruch's membrane, the extracellular matrix that lies between them. Although previously reviewed independently, this review integrates these components into a more wholistic view of the barrier and discusses reconstitution models to explore the interactions among them. After updating our understanding of each component's contribution to barrier function, we discuss recent efforts to examine how the components interact. Recent studies demonstrate that claudin-19 regulates multiple aspects of RPE's barrier function and identifies a barrier function whereby mutations of claudin-19 affect retinal development. Co-culture approaches to reconstitute components of the outer blood-retinal barrier are beginning to reveal two-way interactions between the RPE and choriocapillaris. These interactions affect barrier function and the composition of the intervening Bruch's membrane. Normal or disease models of Bruch's membrane, reconstituted with healthy or diseased RPE, demonstrate adverse effects of diseased matrix on RPE metabolism. A stumbling block for reconstitution studies is the substrates typically used to culture cells are inadequate substitutes for Bruch's membrane. Together with human stem cells, the alternative substrates that have been designed offer an opportunity to engineer second-generation culture models of the outer blood-retinal barrier.
doi_str_mv 10.1016/j.preteyeres.2019.100803
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A stumbling block for reconstitution studies is the substrates typically used to culture cells are inadequate substitutes for Bruch's membrane. 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subjects Blood-retinal barrier
Blood-Retinal Barrier - physiology
Bruch Membrane - metabolism
Bruch Membrane - pathology
Bruch's membrane
Choriocapillaris
Choroid - metabolism
Choroid - pathology
Humans
Macular degeneration
Macular Degeneration - diagnosis
Macular Degeneration - metabolism
Retina
Retinal Pigment Epithelium - metabolism
Retinal Pigment Epithelium - pathology
RPE
Stem cell-derived organoids
title Interactions of the choroid, Bruch's membrane, retinal pigment epithelium, and neurosensory retina collaborate to form the outer blood-retinal-barrier
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