Parker Ryan O, Fan Jie, Nickerson John M, Liou Gregory I, Crouch Rosalie K
Department of Neurosciences, Storm Eye Institute, Medical University of South Carolina,167 Ashley Avenue, Charleston, SC 29403-5836, USA.
J Neurosci. 2009 Apr 8;29(14):4616-21. doi: 10.1523/JNEUROSCI.0063-09.2009.
11-cis-retinal is the light-sensitive component in rod and cone photoreceptors, and its isomerization to all-trans retinal in the presence of light initiates the visual response. For photoreceptors to function normally, all-trans retinal must be converted back into 11-cis-retinal through a series of enzymatic steps known as the visual cycle. The interphotoreceptor retinoid-binding protein (IRBP) is a proposed retinoid transporter in the visual cycle, but rods in Irbp(-/-) mice have a normal visual cycle. While rods are primarily responsible for dim light vision, the ability of cones to function in constant light is essential to human vision and may be facilitated by cone-specific visual cycle pathways. We analyzed the cones in Irbp(-/-) mice to determine whether IRBP has a cone-specific visual cycle function. Cone electroretinogram (ERG) responses were reduced in Irbp(-/-) mice, but similar responses from Irbp(-/-) mice at all ages suggest that degeneration does not underlie cone dysfunction. Furthermore, cone densities and opsin levels in Irbp(-/-) mice were similar to C57BL/6 (wild-type) mice, and both cone opsins were properly localized to the cone outer segments. To test for retinoid deficiency in Irbp(-/-) mice, ERGs were analyzed before and after intraperitoneal injections of 9-cis-retinal. Treatment with 9-cis-retinal produced a significant recovery of the cone response in Irbp(-/-) mice and shows that retinoid deficiency underlies cone dysfunction. These data indicate that IRBP is essential to normal cone function and demonstrate that differences exist in the visual cycle of rods and cones.
11-顺式视黄醛是视杆和视锥光感受器中的光敏感成分,在光照下它异构化为全反式视黄醛会引发视觉反应。为使光感受器正常发挥功能,全反式视黄醛必须通过一系列称为视觉循环的酶促步骤转化回11-顺式视黄醛。细胞间视黄醇结合蛋白(IRBP)被认为是视觉循环中的一种视黄醇转运蛋白,但Irbp基因敲除小鼠的视杆细胞具有正常的视觉循环。虽然视杆细胞主要负责暗光视觉,但视锥细胞在持续光照下发挥功能的能力对人类视觉至关重要,并且可能由视锥细胞特异性的视觉循环途径促进。我们分析了Irbp基因敲除小鼠的视锥细胞,以确定IRBP是否具有视锥细胞特异性的视觉循环功能。Irbp基因敲除小鼠的视锥细胞视网膜电图(ERG)反应降低,但不同年龄的Irbp基因敲除小鼠的类似反应表明,视锥细胞功能障碍并非由退化引起。此外,Irbp基因敲除小鼠的视锥细胞密度和视蛋白水平与C57BL/6(野生型)小鼠相似,并且两种视锥视蛋白都正确定位于视锥细胞外段。为了检测Irbp基因敲除小鼠是否存在视黄醇缺乏,在腹腔注射9-顺式视黄醛前后分析了ERG。用9-顺式视黄醛处理后,Irbp基因敲除小鼠的视锥细胞反应显著恢复,表明视黄醇缺乏是视锥细胞功能障碍的原因。这些数据表明,IRBP对视锥细胞的正常功能至关重要,并证明视杆细胞和视锥细胞的视觉循环存在差异。