Novel TRPM1 mutations in two Chinese families with early-onset high myopia, with or without complete congenital stationary night blindness

AIM：To investigate the relationship between high myopia [with or without complete congenital stationary night blindness（CSNB1）] and TRPM1 and NYX.METHODS： Two unrelated families with early-onset high myopia（eo HM） and 96 normal controls were recruited.Sanger sequencing or clone sequencing were used for mutation screening.Further analyses of the available family members and the 96 normal controls were subsequently conducted to obtain additional evidence of the pathogenicity of these variants.The initial diagnosis of the probands was eo HM.We performed a further comprehensive examination of the available family members after mutations were detected in TRPM1 or NYX. RESULTS： Two novel compound heterozygous mutations in TRPM1 were detected in the recruited families.The proband in family A with eo HM carried a c.2594 C 〉T missense mutation in exon 19 and a c.669 ＋3_669 ＋6del AAGT splicing mutation,which was co-segregated with CSNB1 in this family.A patient in family B with a compound heterozygous missense mutation（c.3262 G〉A and c.3250 T〉C） was detected.No mutations were found in NYX.These two identified compound heterozygous mutations were not found in the 96 normal controls.After further examination of the family members,the patients in family A could be diagnosed as eo HM with CSNB1.However due to the limited clinic data,the patient in family B cloud not clearly diagnosed as CSNB1.CONCLUSION： This study has expanded the mutation spectrum of TRPM1 for CSNB1 and additional studiesare needed to elucidate the association between isolated high myopia and TRPM1 and NYX.

A Light-Deprivation Mouse Model Potentially for Studying the Complete Congenital Stationary Night Blindness

Current rodent models of the complete congenital stationary night blindness (CSNB1) were time- consuming in breeding and validation, which makes it imperative to find a more “easily handle” animal model to broaden our understanding of this disorder. In the present study, a light-deprivation (LD) mouse model was made to validate whether it was a more “suitable” animal mode for investigating the pathogenesis of the CSNB1. Compared with controls, the LD mice exhibited a remarkable reduction in the amplitude of the dark-adapted electroretinogram (ERG) b-wave, the Max-ERG b-wave and also the oscillatory potentials (Ops), indicating an abnormal activity of rod bipolar cells in the retina. However, the ERG a-wave was relatively normal in the LD mice, which was quite consistent with what was confirmed in previously reported animal models of the CSNB1 and CSNB patients. Taken together, the LD mouse model showed CSNB1-like negative ERG responses as evidenced by the abnormal b-wave. Our study will provide a potentially useful animal model to decipher the pathogenesis of the CSNB1.

类似先天性静止性夜盲症视觉电生理异常大鼠1例

目的 观察正常 SD大鼠和一例患遗传性视网膜疾病大鼠的视觉电生理学特点 .方法 按国际临床视觉电生理学会标准化方案 ,采用 REPIport系统和自制的氯化银角膜电极、不锈钢针状电极对成年雄性 SD大鼠进行视网膜电图暗适应 (ERG)、振荡电位 (OPs波 )和明适应 ERG进行观察 .结果 正常大鼠 ERG特性与人类相似 ,一只大鼠视觉电生理明显异常 ,ERG呈负波型 ,表现为暗适应 ERG b波基本消失 ,暗适应 ERG a波幅值明显降低 ,明适应 ERG a,b波幅值降低 ,峰时延长 ,OPs波幅值基本消失 .该例大鼠的视觉电生理学特点与人类先天性静止性夜盲症患者视觉电生理特点相似 ,而与视网膜色素变性病例不同 .结论 发现一例自然发生的基因突变大鼠 。

先天性静止性夜盲家系的全视野暗视ERG分析

对一个AD遗传型CSNB家系的11名患者22眼检测、分析了全视野暗视ERG。结果所有患眼的暗视ERG均有异常,并发现三种明显不同的类型。即以a波正常b波降低甚至出现负电反应为特征的Schubert-Bornschein型,以a波、b波振幅均下降为特征的Riggs型和以暗视白光和蓝光刺激下均无波为特征的无波型。认为不同类型的ERG反应并不表示不同的遗传本质,只代表CSNB基因的不同表现度。指出全视野暗视ERG检查对于CSNB的临床诊断、分型及与其它视网膜病的鉴别诊断均有重要价值。

显性遗传先天性静止性夜盲全视野明视ERG的分析

对同一家系11名显性遗传CSNB 患者进行全视野明视ERG 分析,发现8名患者出现异常,表现为:1.明视白光刺激的b 波峰时延长或振幅降低;2.白光刺激出现负电反应;3.对闪烁光刺激的反应振幅降低甚至无波。认为CSNB 的主要病损在视网膜杆体系统,但锥体系统也受到不同程度的损害。提出根据电生理和心理物理检查可将本病分为仅累及杆体系统的单纯型和杆体、锥体均受到损害的混合型。临床上这两种不同的亚型是CSNB 基因不同表现度的反映。

先天性静止性夜盲大鼠视杆双极细胞L-钙通道电生理特征

目的研究先天性静止性夜盲(CSNB)大鼠视杆双极细胞(RBCs)L-钙通道的生理学特征,探讨其与视觉信号传导通路障碍的关系。方法选取4～8周龄SD大鼠20只(对照组)、CSNB大鼠23只(实验组),深度麻醉后处死大鼠,制作视网膜切片,红外显微镜下寻找RBCs胞体,运用全细胞膜片钳模式记录L-钙通道电流,并记录程序刺激后细胞静息膜电容(restCm)的变化值(△Cm),计算胞吐系数(EI)。结果对照组L-钙通道电流于-20～-30mV达到峰值(-33.2±2.5)pA,实验组电流于-15mV左右达峰值,为(12.2±2.3)pA;L-钙通道特异性阻断剂nifedipine(10μm)可以完全阻断所记录的钙电流。GABA受体阻断剂PTX(100μm)能够明显阻断实验组除极时诱发的外向电流。与对照组比较,实验组的△Cm和EI均明显降低(P<0.01)。结论 CSNB大鼠双极细胞L-钙通道电生理特征的改变会严重影响其向下级神经元释放神经递质,这可能是导致CSNB发病的机制之一。

先天性静止性夜盲症候选基因附近6个STR基因座在河南汉族人群中的遗传多态性分析

目的:对先天性静止性夜盲症(CSNB)候选基因附近的6个STR基因座在河南汉族人群中的遗传多态性分布进行群体遗传学研究。方法:取100名健康无关个体的河南汉族人群血样,提取DNA,应用PCR结合非变性聚丙烯酰胺凝胶电泳及银染技术,对CSNB候选致病基因RHO、PDE6B和GNAT1附近的D3R1、D3R2、D4P1、D4P2、D3G1及D3G2等6个STR基因座进行基因型分析。结果:6个STR基因座的基因型分布均符合Hardy-Weinberg平衡定律,杂合度在0.660～0.800,多态性信息含量为0.550～0.730(≥0.5),个体识别率在0.761～0.891(>0.7),D3R1、D4P2、D3G2的非父排除率>0.5。结论:这6个基因座是一组良好的遗传标记,可用于CSNB致病基因的定位;D3R1、D4P2及D3G2在法医学方面具有一定的应用价值。

Riggs型先天性静止性夜盲的分子机制及治疗研究进展

Riggs型先天性静止性夜盲是一种眼科少见的视网膜退行性疾病,是由基因突变引起的非进行性遗传性视网膜病变,主要影响视网膜的信号处理光感受器细胞。Riggs型先天性静止性夜盲的病理改变是视网膜的感光细胞变性,此特征也是患者视力损害的主要原因。目前已知有4个基因的突变与Riggs型先天性静止性夜盲有关,此基因突变包括编码光转导和光电导的基因突变。目前尚无Riggs型先天性静止性夜盲的有效治疗方案,但正在进行的其他视网膜退行性疾病的临床试验可以为其治疗提供思路。

利用锥体细胞失功能大鼠和先天性静止性夜盲大鼠对视锥与视杆通路振荡电位的分离研究

背景振荡电位（OPs）是评估视网膜缺血缺氧性疾病视网膜功能变化的重要工具，利用视网膜退行性病变动物模型对视锥、视杆通路起源的OPs特点进行研究非常重要。目的在两种自发性视网膜退行性病变模型大鼠中分离视锥、视杆通路，对比分析视杆、视锥通路起源的OPs波的特点。方法采用雄性SD大鼠、锥体细胞失功能（RCD）大鼠、先天性静止性夜盲（CSNB）大鼠各6只，以RETI—scan视觉生理记录系统分别在暗适应（12h）和明适应（10min）条件下，用不同强度的刺激光（-35、-25、-15、-5、0、5db）进行刺激，记录各组大鼠的闪光视网膜电图（FERG），通过Matlab7．0的Butterworth滤波提取OPs，采用快速傅里叶变换（FFT）对所得OPs进行频谱分析。结果暗适应条件下SD大鼠和RCD大鼠的ERG均可见a波和b波，但CSNB大鼠b波阙如；明适应条件下，sD大鼠和CSNB大鼠可见b波，但RCD大鼠各波阙如。暗适应较高刺激光强度下，SD大鼠和RCD大鼠均有低频（主频）和高频（次频）两个明显的频峰，分别为75～110Hz、90～120Hz和90—120Hz、110～135Hz；不同刺激光强度下，CSNB大鼠只有一个频峰，为70～100Hz。而明适应不同刺激光强度下，sD大鼠和CSNB大鼠均只有一个频峰，分别为75～95Hz和70～85Hz。明适应条件下与sD大鼠比较，CSNB大鼠b波隐含时延长，b波振幅明显下降，差异均有统计学意义（P〈O．05）；暗适应条件下，RCD大鼠b波隐含时和振幅与sD大鼠比较，差异无统计学意义（P〉0．05）；与sD大鼠比较，RCD和CSNB大鼠OPs波振幅下降，隐含时延长，差异均有统计学意义（P〈0．05）；明适应条件下不同刺激光强度下CSNB大鼠OPs波的隐含时明显长于sD大鼠，振幅明显低于SD大鼠，差异均有统计学意义（P〈0．05）。结论视锥、视杆通路起源的OPs有不同特性，自发性视网膜退行性改变大鼠的视杆OPs有两个频峰，正常情况下，视杆通路对OPs的贡献比视锥通路大。

Targeting molecular pathways for the treatment of inherited retinal degeneration

Inherited retinal degeneration is a major cause of incurable blindness characterized by loss of retinal photoreceptor cells.Inherited retinal degeneration is characterized by high genetic and phenotypic heterogeneity with several genes mutated in patients affected by these genetic diseases.The high genetic heterogeneity of these diseases hampers the development of effective therapeutic interventions for the cure of a large cohort of patients.Common cell demise mechanisms can be envisioned as targets to treat patients regardless the specific mutation.One of these targets is the increase of intracellular calcium ions,that has been detected in several murine models of inherited retinal degeneration.Recently,neurotrophic factors that favor the efflux of calcium ions to concentrations below toxic levels have been identified as promising molecules that should be evaluated as new treatments for retinal degeneration.Here,we discuss therapeutic options for inherited retinal degeneration and we will focus on neuroprotective approaches,such as the neuroprotective activity of the Pigment epithelium-derived factor.The characterization of specific targets for neuroprotection opens new perspectives together with many questions that require deep analyses to take advantage of this knowledge and develop new therapeutic approaches.We believe that minimizing cell demise by neuroprotection may represent a promising treatment strategy for retinal degeneration.

LRIT3基因突变与先天性静止性夜盲

Schubert-Bornschein先天性静止性夜盲(Schubert-Bornschein congenital stationary night blindness,CSNB)是一种罕见的遗传性视网膜疾病,主要由基因突变致ON-双极细胞(ON-bipolar cells)信号传导复合体功能障碍导致,临床表现以无进行性加重的夜盲以及视网膜电图上b波无法引出或是重度下降为特征。基于视觉电生理特点CSNB分为两型:视杆系统完全无功能的完全型CSNB(complete CSNB cCSNB或CSNB1)和视杆系统保留一定功能的不完全型CSNB(incomplete CSNB icCSNB或CSNB2)。由基因突变导致离子通道的缺失及跨膜蛋白表达的缺如为近年来本病的研究热点。

CACNA1F基因变异相关眼病临床表型特征

目的观察CACNA1F基因变异相关眼病患者临床表型特征。方法回顾性临床研究。2022年1月1日至2023年10月1日于长沙爱尔眼科医院和济南普瑞眼科医院经临床检查和基因检测确诊的CACNA1F基因变异相关眼病患者36例纳入研究。患者均行最佳矫正视力(BCVA)、医学验光、眼底彩色照相、光相干断层扫描(OCT)、全视野视网膜电图(ERG)、眼球震颤检查以及基因全外显子测序(WES)。采用对数视力表行BCVA检查,记录时转换为最小分辨角对数(logMAR)视力。采用眼电理仪行全视野ERG检查,采用头盔式多功能视频眼动记录(EMR)系统行眼球震颤检查。观察患者的临床表型特征。结果36例患者纳入研究。均为男性,年龄(6.69±5.26)岁。近视14例(38.89%,14/36),等效球镜度(−3.01±4.84)D。WES共发现34个不同核苷酸序列变异,其中致病性、可疑致病性、致病性不明分别为7、20、9例。logMAR BCVA 0.67±0.27;视神经萎缩26例(72.22%,26/36);视神经发育不良6例(16.67%,6/36);眼底色素发育不良伴轻度虹膜透照4例(11.11%,4/36)。中心凹发育不良(Thomas分级)1级5例(13.89%,5/36)。全视野ERG检查,暗适应最大混合反应b波降低呈负波形,振荡电位振幅严重降低。主要表现为残存型(残存暗适应0.01反应波和明适应3.0反应波,30 Hz反应下降呈双峰宽波)、明适下降为主型(明适应全熄灭,残存暗适应反应波)、全熄灭型(明适应暗适应全熄灭)3种表型,分别为10(27.78%,10/36)、8(22.22%,8/36)、18(50.00%,18/36)例。EMR结果显示,36例患者中,低振幅高频率钟摆(PLAHF)眼球震颤32例(88.89%,32/36),其中伴晃头、下颌上抬头位分别为27(75.00%,27/36)、26(72.22%,26/36)例。结论CACNA1F基因变异相关眼病临床表型多样;PLAHF眼球震颤与CACNA1F基因变异眼病密切相关。

一个先天性静止性夜盲症家系致病基因的突变分析

目的检测和分析河南1个常染色体显性先天性静止性夜盲症 （autosomal dominantcongenital stationary night blindness,ADCSNB）家系相关基因的致病突变。方法从该家系14名成员的外周血提取基因组DNA，根据已报道的ADCSNB的3个致病基因的6个相关位点设计引物。利用PCR扩增相关位点所在的外显子，纯化扩增产物后进行正反向测序。结果在该家系患者的RHO基因中发现了1个c．281C〉T的杂合错义点突变，该突变在蛋白质水平将导致p．Thr94Ile的改变，而在该家系正常成员以及50名正常对照中未发现此突变。结论RHO基因c．281C〉T突变（p．Thr94Ile）为该家系先天性静止性夜盲症发病的分子遗传学基础。