Journal
HUMAN MOLECULAR GENETICS
Volume 31, Issue 4, Pages 548-560Publisher
OXFORD UNIV PRESS
DOI: 10.1093/hmg/ddab267
Keywords
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Funding
- National Eye Institute [EY028121, EY011373]
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Deficiency of the retinol-binding protein receptor STRA6 in vertebrate eyes disrupts the biosynthesis of retinal pigment and visual pigments, leading to impaired vision and retinal degeneration. Maintaining the balance between chromophore and opsins in rod and cone photoreceptors is critical for optimal retinal function and preventing ocular pathologies associated with vitamin A deprivation.
The retinal pigment epithelium of the vertebrate eyes acquires vitamin A from circulating retinol binding protein for chromophore biosynthesis. The chromophore covalently links with an opsin protein in the adjacent photoreceptors of the retina to form the bipartite visual pigment complexes. We here analyzed visual pigment biosynthesis in mice deficient for the retinol-binding protein receptor STRA6. We observed that chromophore content was decreased throughout the life cycle of these animals, indicating that lipoprotein-dependent delivery pathways for the vitamin cannot substitute for STRA6. Changes in the expression of photoreceptor marker genes, including a downregulation of the genes encoding rod and cone opsins, paralleled the decrease in ocular retinoid concentration in STRA6-deficient mice. Despite this adaptation, cone photoreceptors displayed absent or mislocalized opsins at all ages examined. Rod photoreceptors entrapped the available chromophore but exhibited significant amounts of chromophore-free opsins in the dark-adapted stage. Treatment of mice with pharmacological doses of vitamin A ameliorated the rod phenotype but did not restore visual pigment synthesis in cone photoreceptors of STRA6-deficient mice. The imbalance between chromophore and opsin concentrations of rod and cone photoreceptors was associated with an unfavorable retinal physiology, including diminished electrical responses of photoreceptors to light, and retinal degeneration during aging. Together, our study demonstrates that STRA6 is critical to adjust the stoichiometry of chromophore and opsins in rod and cone photoreceptors and to prevent pathologies associated with ocular vitamin A deprivation.
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