Abstract
Phototransduction is initiated by the photoisomerization of rhodopsin (Rho) chromophore 11-cis-retinylidene to all-trans-retinylidene. Here, using Rho regenerated with retinal analogs with different ring sizes, which prevent isomerization around the C(11)=C(12) double bond, the activation mechanism of this G-protein-coupled receptor was investigated. We demonstrate that 11-cis-7-ring-Rho does not activate G-protein in vivo and in vitro, and that it does not isomerize along other double bonds, suggesting that it fits tightly into the binding site of opsin. In contrast, bleaching 11-cis-6-ring-Rho modestly activates phototransduction in vivo and at low pH in vitro. These results reveal that partial activation is caused by isomerization along other double bonds in more rigid 6-locked retinal isomers and protonation of key residues by lowering pH in 11-cis-6-ring-Rhos. Full activation is not achieved, because isomerization does not induce a complete set of conformational rearrangements of Rho. These results with 6- and 7-ring-constrained retinoids provide new insights into Rho activation and suggest a potential use of locked retinals, particularly 11-cis-7-ring-retinal, to inactivate opsin in some retinal degeneration diseases.
Highlights
In vertebrate retinal photoreceptor cells, isomerization of the visual pigment chromophore, 11-cis-retinal to all-trans-retinal, triggers a set of reactions collectively termed the phototransduction cascade [1, 2]
The light-triggered events in photoreceptors are intimately intertwined with the regeneration reactions that involve a twocell system, photoreceptor cells and the retinal pigment epithelial cells (RPE)
Lack of Activity for 11-cis-7-Ring-Rho in Vivo—To increase the sensitivity of the assay and to assess the properties of Rho regenerated with 7-lock isomers in vivo, we employed Rpe65Ϫ/Ϫ mice treated with isomer 3
Summary
In vertebrate retinal photoreceptor cells, isomerization of the visual pigment chromophore, 11-cis-retinal to all-trans-retinal, triggers a set of reactions collectively termed the phototransduction cascade [1, 2]. Using Rho regenerated with retinal analogs with different ring sizes, which prevent isomerization around the C11؍C12 double bond, the activation mechanism of this G-protein-coupled receptor was investigated.
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