RPE65型
生物
错义突变
色素性视网膜炎
视网膜
视网膜变性
视觉光转导
视紫红质
顺反异构体
视网膜电图
突变
营养不良
遗传学
移码突变
人类视网膜的基因治疗
空等位基因
视网膜色素上皮
突变体
生物化学
基因
异构酶
肽基脯氨酰异构酶
作者
Marijana Samardzija,Johannes von Lintig,N. Tanimoto,Vitus Oberhauser,Markus Thiersch,Charlotte E. Remé,Mathias W. Seeliger,Christian Grimm,A. Wenzel
摘要
RPE65 is a retinal pigment epithelial protein essential for the regeneration of 11-cis-retinal, the chromophore of cone and rod visual pigments. Mutations in RPE65 lead to a spectrum of retinal dystrophies ranging from Leber's congenital amaurosis to autosomal recessive retinitis pigmentosa. One of the most frequent missense mutations is an amino acid substitution at position 91 (R91W). Affected patients have useful cone vision in the first decade of life, but progressively lose sight during adolescence. We generated R91W knock-in mice to understand the mechanism of retinal degeneration caused by this aberrant Rpe65 variant. We found that in contrast to Rpe65 null mice, low but substantial levels of both RPE65 and 11-cis-retinal were present. Whereas rod function was impaired already in young animals, cone function was less affected. Rhodopsin metabolism and photoreceptor morphology were disturbed, leading to a progressive loss of photoreceptor cells and retinal function. Thus, the consequences of the R91W mutation are clearly distinguishable from an Rpe65 null mutation as evidenced by the production of 11-cis-retinal and rhodopsin as well as by less severe morphological and functional disturbances at early age. Taken together, the pathology in R91W knock-in mice mimics many aspects of the corresponding human blinding disease. Therefore, this mouse mutant provides a valuable animal model to test therapeutic concepts for patients affected by RPE65 missense mutations.
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