First published online as a Review in Advance on September 12, 2006

Diseases Caused by Defects in the Visual Cycle: Retinoids as Potential Therapeutic Agents

Gabriel H. Travis,¹ Marcin Golczak,² Alexander R. Moise,² and Krzysztof Palczewski²

¹Department of Ophthalmology, UCLA School of Medicine, Los Angeles, California 90095; email: travis@jsei.ucla.edu

²Department of Pharmacology, Case School of Medicine, Case Western Reserve University, Cleveland, Ohio 44106-4965; email: kxp65@case.edu

Abstract Absorption of a photon by an opsin pigment causes isomerization of the chromophore from 11-cis-retinaldehyde to all-trans-retinaldehyde. Regeneration of visual chromophore following light exposure is dependent on an enzyme pathway called the retinoid or visual cycle. Our understanding of this pathway has been greatly facilitated by the identification of disease-causing mutations in the genes coding for visual cycle enzymes. Defects in nearly every step of this pathway are responsible for human-inherited retinal dystrophies. These retinal dystrophies can be divided into two etiologic groups. One involves the impaired synthesis of visual chromophore. The second involves accumulation of cytotoxic products derived from all-trans-retinaldehyde. Gene therapy has been successfully used in animal models of these diseases to rescue the function of enzymes involved in chromophore regeneration, restoring vision. Dystrophies resulting from impaired chromophore synthesis can also be treated by supplementation with a chromophore analog. Dystrophies resulting from the accumulation of toxic pigments can be treated pharmacologically by inhibiting the visual cycle, or limiting the supply of vitamin A to the eyes. Recent progress in both areas provides hope that multiple inherited retinal diseases will soon be treated by pharmaceutical intervention.

Acronyms and Definitions

Chromophore: Any chemical group that absorbs light. In vision of vertebrates 11-cis-Retinal is utilized as a light-absorbing compound

Cone cell: photoreceptor cell that functions in bright light and, based on the expression of the particular cone opsin gene (blue, green, or red), responds to different wavelengths of light

Electroretinography (ERG): technique used to measure electrical response of rods, cones, and ganglion cells. It is employed for diagnosis of various retinal diseases as well as verification of photoreceptor cells functions

G protein–coupled receptor (GPCR): family of integral membrane proteins characterized by seven membrane-spanning regions involved in signal transduction across cell membranes

Leber Congenital Amaurosis (LCA): degenerative disease resulting in severe loss of vision owing to abnormal development of photoreceptor cells in the retina or premature degeneration of the retinal cells

Macula: the central part of the retina responsible for perceiving fine visual details

Outer segment (OS): a membranous structure of rod and cone photoreceptors comprising a stack of flattened discs, which are the sites of photon-capture and the reactions of visual transduction

Photoisomerization: light-induced changes of conformation resulting in a switch from one isomer to another

Photoreceptor cell: cell specialized in sensing light and conversion of the rate of photon absorption into nervous signal

Retinal dystrophy: eye disease leading to impairment of vision and loss of color vision, followed by night blindness and decrease of visual field

Retinal pigment epithelium (RPE): The pigment cell monolayer forming the outer blood-retinal barrier that nourishes the retinal cells and plays a central role in retinal physiology by supporting the function of the photoreceptors

Rod cell: photoreceptor cell specialized to function in dim light and subserves monochromatic vision

Schiff base: a carbon-nitrogen double bond where nitrogen is connected to aryl or alkyl groups but not to hydrogen

Stargardt macular degeneration: an inherited disease of children causing progressive loss of central vision and caused by mutations in the ABCA4 gene

Full Text

PDF

Chain of Reviews: Annual Reviews chapters connected to this topic

Most recent citing papers (via CrossRef)

Loss of cone photoreceptors caused by chromophore depletion is partially prevented by the artificial chromophore pro-drug, 9-cis-retinyl acetate

T. Maeda, A. V. Cideciyan, A. Maeda, M. Golczak, T. S. Aleman, S. G. Jacobson, K. Palczewski

Human Molecular Genetics 18(12):2277-2287 (2009)

[CrossRef]

Klinische Manifestationen von Funktionsstörungen des retinalen Pigmentepithels

M.A. Gamulescu, A.B. Renner, H. Helbig

Der Ophthalmologe 106(4):305-310 (2009)

[CrossRef]

Treatment of Leber Congenital Amaurosis Due to RPE65 Mutations by Ocular Subretinal Injection of Adeno-Associated Virus Gene Vector: Short-Term Results of a Phase I Trial

William W. Hauswirth, Tomas S. Aleman, Shalesh Kaushal, Artur V. Cideciyan, Sharon B. Schwartz, Lili Wang, Thomas J. Conlon, Sanford L. Boye, Terence R. Flotte, Barry J. Byrne, Samuel G. Jacobson

Human Gene Therapy 19(10):979-990 (2008)

[CrossRef]

Human gene therapy for RPE65 isomerase deficiency activates the retinoid cycle of vision but with slow rod kinetics

A. V. Cideciyan, T. S. Aleman, S. L. Boye, S. B. Schwartz, S. Kaushal, A. J. Roman, J.-j. Pang, A. Sumaroka, E. A. M. Windsor, J. M. Wilson, T. R. Flotte, G. A. Fishman, E. Heon, E. M. Stone, B. J. Byrne, S. G. Jacobson, W. W. Hauswirth

Proceedings of the National Academy of Sciences 105(39):15112-15117 (2008)

[CrossRef]

Alpha-retinals as Rhodopsin ChromophoresPreference for the 9- Z Configuration and Partial Agonist Activity

Yajie Wang, Petra H. M. Bovee-Geurts, Johan Lugtenburg, Willem J. DeGrip

Photochemistry and Photobiology 84(4):889-894 (2008)

[CrossRef]

All citing papers (via CrossRef)

Acronyms and Definitions

Chain of Reviews: Annual Reviews chapters connected to this topic

Most recent citing papers (via CrossRef)

Users who read this review also read: