年轻人中 NR2E3 转录因子功能缺陷导致的人圆锥光感受器马赛克破坏。
Disruption of the human cone photoreceptor mosaic from a defect in NR2E3 transcription factor function in young adults.
机构信息
Department of Ophthalmology, Columbia University, New York, NY, USA,
出版信息
Graefes Arch Clin Exp Ophthalmol. 2013 Oct;251(10):2299-309. doi: 10.1007/s00417-013-2296-5. Epub 2013 Apr 19.
BACKGROUND
Enhanced S-cone syndrome is an orphan disease caused by mutations in the NR2E3 gene which result in an increased number of S-cones overpopulating the retina. Although the characteristic onset of enhanced S-cone syndrome can be well-documented by current ophthalmic imaging modalities, techniques such as spectral-domain optical coherence tomography (SD-OCT) and scanning laser ophthalmoscopy (SLO) fail to provide sufficient details regarding the microstructure of photoreceptors in retinal diseases. Adaptive optics (AO) provides a unique opportunity to analyze the effects of genetic mutations on photoreceptors by compensating aberrations of human eyes.
METHODS
Three eyes of three young adults with enhanced S-cone syndrome were studied by clinical examination, genetic screening, fundus autofluorescence (FAF) imaging, SD-OCT, and electroretinography (ERG). Cone mosaic imaging was accomplished by an AO-SLO equipped with a dual crystal on silicon spatial light modulator. Qualitative image analyses and genetic findings were investigated in each patient.
RESULTS
The diagnosis of patients was confirmed by ERG finding. Genetic screening confirmed the presence of two disease-causing mutations in the NR2E3 gene in each study patient, as well as identified a novel mutation (202 A > G, S68G). Fundus photograph, FAF, and SD-OCT found rosette-like lesion within the mid-periphery along the vascular arcades of the retina. In all AO-SLO images of patients, sparse distribution and asymmetric size of cone mosaic pattern were found within central retina. There were regions of dark space between groups of photoreceptors, distinguishable from shadowing and artifacts.
CONCLUSIONS
AO-SLO provided an in-depth window into the retina of live enhanced S-cone syndrome patients beyond the ability of other current imaging modalities. Dark lesions within the central retina in each patient contain structurally dysfunctional cones which account for retinal mosaic disorganization, and may predispose affected areas to other abnormalities such as rosette lesions. AO-SLO can be an efficient diagnostic tool in clinics for examining cellular-level pathologies in various retinal dystrophies.
背景
增强型 S- cone 综合征是一种孤儿病,由 NR2E3 基因突变引起,导致 S- cone 数量增加,在视网膜上过度生长。尽管目前的眼科成像方式可以很好地记录增强型 S- cone 综合征的特征性发病,但光谱域光学相干断层扫描(SD-OCT)和扫描激光检眼镜(SLO)等技术无法提供有关视网膜疾病中光感受器微观结构的足够详细信息。自适应光学(AO)通过补偿人眼像差,为分析基因突变对光感受器的影响提供了独特的机会。
方法
对 3 名患有增强型 S- cone 综合征的年轻成年人的 3 只眼进行了临床检查、基因筛查、眼底自发荧光(FAF)成像、SD-OCT 和视网膜电图(ERG)检查。AO-SLO 配备了双硅晶空间光调制器,用于进行锥体细胞镶嵌成像。对每位患者进行定性图像分析和基因发现研究。
结果
通过 ERG 发现确诊患者。基因筛查证实每位研究患者的 NR2E3 基因中存在两种致病突变,并发现一种新的突变(202A>G,S68G)。眼底照片、FAF 和 SD-OCT 在视网膜血管弓的中周边发现了玫瑰花结样病变。在所有患者的 AO-SLO 图像中,均发现中央视网膜的锥体细胞镶嵌模式分布稀疏且大小不对称。在光感受器组之间存在暗区,与阴影和伪影不同。
结论
AO-SLO 为 live enhanced S-cone syndrome 患者的视网膜提供了深入的了解,超出了其他当前成像方式的能力。每位患者的中央视网膜中的暗区包含结构功能失调的锥体,这是视网膜镶嵌紊乱的原因,并且可能使受影响区域易发生其他异常,如玫瑰花结病变。AO-SLO 可以成为各种视网膜营养不良临床检查细胞水平病理学的有效诊断工具。
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