Retinal pigment epithelium lipid metabolic demands and therapeutic restoration

Retinal pigment epithelium lipid metabolic demands and therapeutic restoration

One of the defining features of the retina is the tight metabolic coupling between cells such as photoreceptors and the retinal pigment epithelium (RPE). This necessitates the compartmentalization and proper substrate availability required for specialized processes such as photo-transduction. Glucos...

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Main Authors: Nicholas D Nolan, Laura A Jenny, Nan-Kai Wang, Stephen H Tsang
Format: Article
Language:English
Published: Wolters Kluwer Medknow Publications 2021-01-01
Series:Taiwan Journal of Ophthalmology
Subjects:
beta-oxidation
fatty acids
gene therapy
metabolic coupling
metabolism
mitochondria
retina
retinal pigment epithelium
Online Access:http://www.e-tjo.org/article.asp?issn=2211-5056;year=2021;volume=11;issue=3;spage=216;epage=220;aulast=Nolan
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spelling doaj-10a3e29279474e90bf83f38f119299be2021-10-07T05:55:20ZengWolters Kluwer Medknow PublicationsTaiwan Journal of Ophthalmology2211-50562211-50722021-01-0111321622010.4103/tjo.tjo_31_21Retinal pigment epithelium lipid metabolic demands and therapeutic restorationNicholas D NolanLaura A JennyNan-Kai WangStephen H TsangOne of the defining features of the retina is the tight metabolic coupling between cells such as photoreceptors and the retinal pigment epithelium (RPE). This necessitates the compartmentalization and proper substrate availability required for specialized processes such as photo-transduction. Glucose metabolism is preferential in many human cell types for adenosine triphosphate generation, yet fatty acid β-oxidation generates essential fuel for RPE. Here, we provide a brief overview of metabolic demands in both the healthy and dystrophic RPE with an emphasis on fatty acid oxidation. We outline therapies aimed at renormalizing this metabolism and explore future avenues for therapeutic intervention.http://www.e-tjo.org/article.asp?issn=2211-5056;year=2021;volume=11;issue=3;spage=216;epage=220;aulast=Nolanbeta-oxidationfatty acidsgene therapymetabolic couplingmetabolismmitochondriaretinaretinal pigment epithelium
collection DOAJ
language English
format Article
sources DOAJ
author Nicholas D Nolan
Laura A Jenny
Nan-Kai Wang
Stephen H Tsang
spellingShingle Nicholas D Nolan
Laura A Jenny
Nan-Kai Wang
Stephen H Tsang
Retinal pigment epithelium lipid metabolic demands and therapeutic restoration
Taiwan Journal of Ophthalmology
beta-oxidation
fatty acids
gene therapy
metabolic coupling
metabolism
mitochondria
retina
retinal pigment epithelium
author_facet Nicholas D Nolan
Laura A Jenny
Nan-Kai Wang
Stephen H Tsang
author_sort Nicholas D Nolan
title Retinal pigment epithelium lipid metabolic demands and therapeutic restoration
title_short Retinal pigment epithelium lipid metabolic demands and therapeutic restoration
title_full Retinal pigment epithelium lipid metabolic demands and therapeutic restoration
title_fullStr Retinal pigment epithelium lipid metabolic demands and therapeutic restoration
title_full_unstemmed Retinal pigment epithelium lipid metabolic demands and therapeutic restoration
title_sort retinal pigment epithelium lipid metabolic demands and therapeutic restoration
publisher Wolters Kluwer Medknow Publications
series Taiwan Journal of Ophthalmology
issn 2211-5056
2211-5072
publishDate 2021-01-01
description One of the defining features of the retina is the tight metabolic coupling between cells such as photoreceptors and the retinal pigment epithelium (RPE). This necessitates the compartmentalization and proper substrate availability required for specialized processes such as photo-transduction. Glucose metabolism is preferential in many human cell types for adenosine triphosphate generation, yet fatty acid β-oxidation generates essential fuel for RPE. Here, we provide a brief overview of metabolic demands in both the healthy and dystrophic RPE with an emphasis on fatty acid oxidation. We outline therapies aimed at renormalizing this metabolism and explore future avenues for therapeutic intervention.
topic beta-oxidation
fatty acids
gene therapy
metabolic coupling
metabolism
mitochondria
retina
retinal pigment epithelium
url http://www.e-tjo.org/article.asp?issn=2211-5056;year=2021;volume=11;issue=3;spage=216;epage=220;aulast=Nolan
work_keys_str_mv AT nicholasdnolan retinalpigmentepitheliumlipidmetabolicdemandsandtherapeuticrestoration
AT lauraajenny retinalpigmentepitheliumlipidmetabolicdemandsandtherapeuticrestoration
AT nankaiwang retinalpigmentepitheliumlipidmetabolicdemandsandtherapeuticrestoration
AT stephenhtsang retinalpigmentepitheliumlipidmetabolicdemandsandtherapeuticrestoration
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