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Review
. 2011 Sep;22(5):325-31.
doi: 10.1097/ICU.0b013e328349419d.

Mitochondrial disorders and the eye

Samantha A Schrier  1 Marni J Falk
Affiliations
Review

Mitochondrial disorders and the eye

Samantha A Schrier et al. Curr Opin Ophthalmol. 2011 Sep.

Abstract

Purpose of review: Mitochondrial disease is a heterogeneous group of energy metabolism disorders that present across all ages with a wide range of ocular or multisystemic manifestations. This review focuses on recent progress made toward understanding the various ophthalmologic manifestations of primary mitochondrial diseases and discusses the implications of mitochondrial dysfunction, placing particular emphasis on recent investigations into the pathogenesis and emerging therapies for mitochondrial-based ophthalmologic disorders.

Recent findings: Novel pathogenic mitochondrial DNA mutations continue to be detected in diverse ethnic populations for primary mitochondrial ophthalmologic disorders that commonly affect the optic nerve, retina, and extraocular muscles. Promising antioxidant and gene therapy approaches are being actively investigated to treat these ophthalmologic manifestations, as in Leber's hereditary optic neuropathy. Mitochondrial dysfunction is also increasingly implicated in common ophthalmologic disorders of aging, including diabetic retinopathy, age-related macular degeneration, and glaucoma. Several proteins recently recognized to play a role in the mitochondrial oxidative stress response within retinal cells, such as prohibitin and MMP2, may serve as novel biomarkers and therapeutic targets for common ophthalmologic disorders. Therapies that inhibit mitochondrial function and induce apoptosis within tumor cells, such as EDL-155 and curcumin, may offer novel therapeutic agents for ocular neoplasms such as retinoblastoma and uveal melanoma.

Summary: Primary mitochondrial genetic disease manifestations can involve almost all aspects of the eye. Mitochondrial dysfunction is increasingly recognized as playing a causative role in the common ophthalmologic disorders in aging. This understanding has unleashed a range of emerging therapeutic approaches for mitochondrial-based ophthalmologic disorders directed at optimizing mitochondrial function.

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References

    1. Falk MJ. Neurodevelopmental manifestations of mitochondrial disease. J Dev Behav Pediatr. 2010;31(7):610–621. - PMC - PubMed
    1. Haas RH, Parikh S, Falk MJ, et al. Mitochondrial disease: a practical approach for primary care physicians. Pediatrics. 2007;120(6):1326–1333. - PubMed
    1. Calvo S, Jain M, Xie X, et al. Systematic identification of human mitochondrial disease genes through integrative genomics. Nat Genet. 2006;38(5):576–582. - PubMed
    1. Haas RH, Parikh S, Falk MJ, et al. The in-depth evaluation of suspected mitochondrial disease. Mol Genet Metab. 2008;94(1):16–37. - PMC - PubMed

    1. Yu-Wai-Man P, Griffiths PG, Burke A, et al. The prevalence and natural history of dominant optic atrophy due to OPA1 mutations. Ophthalmology. 2010;117(8):1538–1546. 1546 e1. This study examined 188 individuals with bilateral optic atrophy for OPA1 and OPA3 nuclear gene mutations, as well as common mitochondrial DNA gene mutations that cause LHON. 27 different OPA1 mutations were detected, establishing OPA1 as the most common genetic cause of suspected dominant optic atrophy. OPA3 mutations were much less common and less significant in this population.

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