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Relative Contributions of All-Trans and 11-Cis Retinal to Formation of Lipofuscin and A2E Accumulating in Mouse Retinal Pigment Epithelium
Author(s) -
Nicholas P. Boyer,
Debra A. Thompson,
Yiannis Koutalos
Publication year - 2021
Publication title -
investigative ophthalmology and visual science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.935
H-Index - 218
eISSN - 1552-5783
pISSN - 0146-0404
DOI - 10.1167/iovs.62.2.1
Subject(s) - lipofuscin , retinal , retinal pigment epithelium , darkness , retina , macular degeneration , biology , chemistry , biochemistry , ophthalmology , medicine , neuroscience , botany
Purpose Bis -retinoids are a major component of lipofuscin that accumulates in the retinal pigment epithelium (RPE) in aging and age-related macular degeneration (AMD). Although bis -retinoids are known to originate from retinaldehydes required for the light response of photoreceptor cells, the relative contributions of the chromophore, 11- cis retinal, and photoisomerization product, all- trans retinal, are unknown. In photoreceptor outer segments, all- trans retinal, but not 11- cis retinal, is reduced by retinol dehydrogenase 8 (RDH8). Using Rdh8 −/− mice, we evaluated the contribution of increased all- trans retinal to the formation and stability of RPE lipofuscin. Methods Rdh8 − / − mice were reared in cyclic-light or darkness for up to 6 months, with selected light-reared cohorts switched to dark-rearing for the final 1 to 8 weeks. The bis -retinoid A2E was measured from chloroform-methanol extracts of RPE-choroid using HPLC-UV/VIS spectroscopy. Lipofuscin fluorescence was measured from whole flattened eyecups (excitation, 488 nm; emission, 565–725 nm). Results Cyclic-light-reared Rdh8 −/− mice accumulated A2E and RPE lipofuscin approximately 1.5 times and approximately 2 times faster, respectively, than dark-reared mice. Moving Rdh8 −/− mice from cyclic-light to darkness resulted in A2E levels less than expected to have accumulated before the move. Conclusions Our findings establish that elevated levels of all- trans retinal present in cyclic-light-reared Rdh8 −/− mice, which remain low in wild-type mice, contribute only modestly to RPE lipofuscin formation and accumulation. Furthermore, decreases in A2E levels occurring after moving cyclic-light-reared Rdh8 −/− mice to darkness are consistent with processing of A2E within the RPE and the existence of a mechanism that could be a therapeutic target for controlling A2E cytotoxicity.

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