Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue

Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue

Dysfunction in mitochondrial oxidative phosphorylation (OXPHOS) underlies a wide spectrum of human ailments known as mitochondrial diseases. Deficiencies in complex I of the electron transport chain (ETC) contribute to 30–40% of all cases of mitochondrial diseases, and leads to eye disease including...

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Main Authors: Naveen K. Mekala, Jacob Kurdys, Mikayla M. Depuydt, Edwin J. Vazquez, Mariana G. Rosca
Format: Article
Language:English
Published: Elsevier 2019-01-01
Series:Redox Biology
Online Access:http://www.sciencedirect.com/science/article/pii/S2213231718307626
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spelling doaj-1e4fd0bd3ced4272841d0f30a5a8d3fc2020-11-25T01:49:41ZengElsevierRedox Biology2213-23172019-01-0120107117Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blueNaveen K. Mekala0Jacob Kurdys1Mikayla M. Depuydt2Edwin J. Vazquez3Mariana G. Rosca4Department of Foundational Sciences at Central Michigan University College of Medicine, Mount Pleasant, MI, United StatesDepartment of Foundational Sciences at Central Michigan University College of Medicine, Mount Pleasant, MI, United StatesDepartment of Foundational Sciences at Central Michigan University College of Medicine, Mount Pleasant, MI, United StatesDepartment of Foundational Sciences at Central Michigan University College of Medicine, Mount Pleasant, MI, United StatesCorrespondence to: Central Michigan University College of Medicine, 2630 Denison Drive, Research Building Room 105, Mount Pleasant, MI 48858, United States.; Department of Foundational Sciences at Central Michigan University College of Medicine, Mount Pleasant, MI, United StatesDysfunction in mitochondrial oxidative phosphorylation (OXPHOS) underlies a wide spectrum of human ailments known as mitochondrial diseases. Deficiencies in complex I of the electron transport chain (ETC) contribute to 30–40% of all cases of mitochondrial diseases, and leads to eye disease including optic nerve atrophy and retinal degeneration. The mechanisms responsible for organ damage in mitochondrial defects may include energy deficit, oxidative stress, and an increase in the NADH/NAD+ redox ratio due to decreased NAD+ regeneration. Currently, there is no effective treatment to alleviate human disease induced by complex I defect.Photoreceptor cells have the highest energy demand and dependence on OXPHOS for survival, and the lowest reserve capacity indicating that they are sensitive to OXPHOS defects. We investigated the effect of mitochondrial OXPHOS deficiency on retinal photoreceptors in a model of mitochondrial complex I defect (apoptosis inducing factor, AIF-deficient mice, Harlequin mice), and tested the protective effect of a mitochondrial redox compound (methylene blue, MB) on mitochondrial and photoreceptor integrity. MB prevented the reduction in the retinal thickness and protein markers for photoreceptor outer segments, Muller and ganglion cells, and altered mitochondrial integrity and function induced by AIF deficiency. In rotenone-induced complex I deficient 661 W cells (an immortalized mouse photoreceptor cell line) MB decreased the NADH/NAD+ ratio and oxidative stress without correcting the energy deficit, and improved cell survival. MB deactivated the mitochondrial stress response pathways, the unfolding protein response and mitophagy. In conclusion, preserving mitochondrial structure and function alleviates retinal photoreceptor degeneration in mitochondrial complex I defect. Keywords: Mitochondria, Complex I, Retina, Photoreceptors, Redox, Methylene bluehttp://www.sciencedirect.com/science/article/pii/S2213231718307626
collection DOAJ
language English
format Article
sources DOAJ
author Naveen K. Mekala
Jacob Kurdys
Mikayla M. Depuydt
Edwin J. Vazquez
Mariana G. Rosca
spellingShingle Naveen K. Mekala
Jacob Kurdys
Mikayla M. Depuydt
Edwin J. Vazquez
Mariana G. Rosca
Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue
Redox Biology
author_facet Naveen K. Mekala
Jacob Kurdys
Mikayla M. Depuydt
Edwin J. Vazquez
Mariana G. Rosca
author_sort Naveen K. Mekala
title Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue
title_short Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue
title_full Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue
title_fullStr Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue
title_full_unstemmed Apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. The protective role of the redox compound methylene blue
title_sort apoptosis inducing factor deficiency causes retinal photoreceptor degeneration. the protective role of the redox compound methylene blue
publisher Elsevier
series Redox Biology
issn 2213-2317
publishDate 2019-01-01
description Dysfunction in mitochondrial oxidative phosphorylation (OXPHOS) underlies a wide spectrum of human ailments known as mitochondrial diseases. Deficiencies in complex I of the electron transport chain (ETC) contribute to 30–40% of all cases of mitochondrial diseases, and leads to eye disease including optic nerve atrophy and retinal degeneration. The mechanisms responsible for organ damage in mitochondrial defects may include energy deficit, oxidative stress, and an increase in the NADH/NAD+ redox ratio due to decreased NAD+ regeneration. Currently, there is no effective treatment to alleviate human disease induced by complex I defect.Photoreceptor cells have the highest energy demand and dependence on OXPHOS for survival, and the lowest reserve capacity indicating that they are sensitive to OXPHOS defects. We investigated the effect of mitochondrial OXPHOS deficiency on retinal photoreceptors in a model of mitochondrial complex I defect (apoptosis inducing factor, AIF-deficient mice, Harlequin mice), and tested the protective effect of a mitochondrial redox compound (methylene blue, MB) on mitochondrial and photoreceptor integrity. MB prevented the reduction in the retinal thickness and protein markers for photoreceptor outer segments, Muller and ganglion cells, and altered mitochondrial integrity and function induced by AIF deficiency. In rotenone-induced complex I deficient 661 W cells (an immortalized mouse photoreceptor cell line) MB decreased the NADH/NAD+ ratio and oxidative stress without correcting the energy deficit, and improved cell survival. MB deactivated the mitochondrial stress response pathways, the unfolding protein response and mitophagy. In conclusion, preserving mitochondrial structure and function alleviates retinal photoreceptor degeneration in mitochondrial complex I defect. Keywords: Mitochondria, Complex I, Retina, Photoreceptors, Redox, Methylene blue
url http://www.sciencedirect.com/science/article/pii/S2213231718307626
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