Department of Ophthalmology, Medical University of South Carolina, 167 Ashley Avenue, Charleston, SC 29425, USA.
Photochem Photobiol Sci. 2010 Nov;9(11):1475-9. doi: 10.1039/c0pp00124d. Epub 2010 Aug 9.
All-trans retinol is formed in the outer segments of vertebrate rod photoreceptors from the reduction of the all-trans retinal released by photoactivated rhodopsin. The reduction requires NADPH and is therefore dependent on metabolic input. In metabolically intact photoreceptors, a large increase in rod outer segment fluorescence, attributed to the fluorescence of all-trans retinol, follows rhodopsin photoactivation. The fluorescence increase is biphasic, including a rapid and a slow component. In metabolically compromised cells, there is a much smaller fluorescence increase following rhodopsin photoactivation, but it too contains a rapid component. We have measured the fluorescence signal in single living frog and mouse rod photoreceptors, and have characterized its dependence on the wavelengths of light selected for excitation and for collecting emission. We find that in metabolically intact cells, the excitation and emission properties of both the rapid and slow components of the fluorescence signal are in close agreement with those of all-trans retinol fluorescence. In metabolically compromised cells, however, the signal can only partially be due to all-trans retinol, and most of it is consistent with all-trans retinal. The results suggest that in the outer segments of living rod photoreceptors there is rapid release of all-trans retinal, which in metabolically intact cells is accompanied by rapid conversion to all-trans retinol.
全反式视黄醇是脊椎动物视杆感光细胞外段由光激活视紫红质释放的全反式视黄醛还原而成。还原需要 NADPH,因此依赖于代谢输入。在代谢完整的感光细胞中,视紫红质光激活后,视杆外段荧光会大幅增加,这归因于全反式视黄醇的荧光。荧光增加呈双相,包括快速和缓慢成分。在代谢受损的细胞中,视紫红质光激活后荧光增加幅度要小得多,但也包含快速成分。我们已经在单个活青蛙和老鼠视杆感光细胞中测量了荧光信号,并对其对激发和发射选择的光波长的依赖性进行了表征。我们发现,在代谢完整的细胞中,荧光信号的快速和缓慢成分的激发和发射特性与全反式视黄醇荧光非常吻合。然而,在代谢受损的细胞中,信号只能部分归因于全反式视黄醇,其余部分与全反式视黄醛一致。结果表明,在活视杆感光细胞的外段中,全反式视黄醛迅速释放,在代谢完整的细胞中,迅速转化为全反式视黄醇。