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Reduced Metabolic Capacity in Aged Primary Retinal Pigment Epithelium (RPE) is Correlated with Increased Susceptibility to Oxidative Stress

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Retinal Degenerative Diseases

Part of the book series: Advances in Experimental Medicine and Biology ((AEMB,volume 854))

Abstract

One of the affected tissues in age-related macular degeneration (AMD) is the retinal pigment epithelium (RPE), a tissue that consists of terminally differentiated cells and that accumulates damage over time. In all tissues, mitochondria (mt), which play an essential role in both cell health (energy) and death (initiator of apoptosis), undergo an aging process through the accumulation of mtDNA damage, changes in mitochondrial dynamics, a reduction in biogenesis, and mitophagy, leading to an overall reduction in mitochondrial energy production and other non-energy-related functions. Here we have compared energy metabolism in primary human RPE cells isolated from aborted fetus or aged donor eyes and grown as stable monolayers. H2O2 treatment resulted in the generation of reactive oxygen species and superoxide, an effect that was significantly augmented by age. Mitochondrial metabolism, as analyzed by Seahorse respirometry, revealed reduced mitochondrial oxygen consumption (ATP production) at baseline and a complete loss of reserve capacity in aged cells. Likewise, glycolysis was blunted in aged cells. Taken together, these studies showed that RPE cells derived from aged donor eyes are more susceptible to oxidative stress, and exhibit a loss in mitochondrial respiratory reserve capacity and a reduction in glycolysis. These data suggest that while old cells may have sufficient energy at rest, they cannot mount a stress response requiring additional ATP and reducing agents. In summary, these data support the hypothesis that mitochondria or energy metabolism is a valid target for therapy in AMD.

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Acknowledgments

This work was supported in part by the National Institutes of Health (R01EY019320), Veterans Affairs (I01 RX000444), Foundation Fighting Blindness, and an unrestricted grant to MUSC from Research to Prevent Blindness. The authors have no financial conflicts of interest.

Author information

Authors and Affiliations

  1. Department of Ophthalmology, Medical University of South Carolina, 167 Ashley Ave, SEI614, 29425, Charleston, SC, USA

    Bärbel Rohrer PhD & Mausumi Bandyopadhyay PhD

  2. Department of Drug Discovery and Biomedical Sciences, Medical University of South Carolina, 167 Ashley Ave, SEI614, 29425, Charleston, SC, USA

    Craig Beeson PhD

  3. Research Service, Ralph H. Johnson VA Medical Center, Charleston, SC, USA

    Bärbel Rohrer PhD

Authors
  1. Bärbel Rohrer PhD
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  2. Mausumi Bandyopadhyay PhD
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  3. Craig Beeson PhD
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Corresponding author

Correspondence to Bärbel Rohrer PhD .

Editor information

Editors and Affiliations

  1. Department of Ophthalmology, Duke University Medical Center, Durham, North Carolina, USA

    Catherine Bowes Rickman

  2. Beckman Vision Center, University of California, San Francisco School of Medicine, San Francisco, California, USA

    Matthew M. LaVail

  3. Dean A. McGee Eye Inst., University of Oklahoma Health Science Center, Oklahoma City, Oklahoma, USA

    Robert E. Anderson

  4. University Hospital Zurich, Zurich, Switzerland

    Christian Grimm

  5. Case Western Reserve University Cleveland Clinic Lerner College of Med, Cleveland, Ohio, USA

    Joe Hollyfield

  6. Univ of Florida Dept of Ophthalmology/Arb R112, Gainesville, Florida, USA

    John Ash

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© 2016 Springer International Publishing Switzerland

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Rohrer, B., Bandyopadhyay, M., Beeson, C. (2016). Reduced Metabolic Capacity in Aged Primary Retinal Pigment Epithelium (RPE) is Correlated with Increased Susceptibility to Oxidative Stress. In: Bowes Rickman, C., LaVail, M., Anderson, R., Grimm, C., Hollyfield, J., Ash, J. (eds) Retinal Degenerative Diseases. Advances in Experimental Medicine and Biology, vol 854. Springer, Cham. https://doi.org/10.1007/978-3-319-17121-0_106

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