Progressive Optic Neuropathy in Hydrocephalic Ccdc13 Mutant Mice Caused by Impaired Axoplasmic Transport at the Optic Nerve Head.

IF 5 2区 医学 Q1 OPHTHALMOLOGY
Mingjuan Wu, Xinyi Zhao, Shanzhen Peng, Xiaoyu Zhang, Jiali Ru, Lijing Xie, Tao Wen, Yingchun Su, Shujuan Xu, Dianlei Guo, Jianmin Hu, Haotian Lin, Tiansen Li, Chunqiao Liu
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引用次数: 0

Abstract

Purpose: Optic nerve head (ONH) atrophy is frequently associated with hydrocephalic conditions. Cerebrospinal fluid (CSF)-containing meninges form a subarachnoid space that terminates at the ONH, which physically impacts it. This study aims to characterize optic neuropathy in congenital hydrocephalic mice with genetic disruption of the Ccdc13 gene.

Methods: The ccdc13 germline knockout mice were generated. The hydrocephalus phenotype and subarachnoid space surrounding the optic nerve were evaluated using routine histology and Evans blue stain. Optic neuropathy was examined with immunohistochemistry and transmission electron microscopy (TEM). Axon transport was indicated by cholera toxin subunit B (CTB) fluorescence conjugate. Retinal function was evaluated by electroretinography (ERG), and Ccdc13 expression was revealed by a knock-in Gfp reporter.

Results: Ccdc13 mutant mice manifested hydrocephalus at birth. ONH displacement, or negative cupping, and enlarged subarachnoid space at the optic terminus occurred as early as 1 month after birth. Intraocular pressure (IOP) was normal. Optic neuropathy was first observed at the ONH, followed by a distal-to-proximal progression of optic nerve pathology indicated by alteration of axonal ultrastructure and deposition of unphosphorylated neurofilament heavy chain. Anterograde axonal transport was also hampered. Retinal ganglion cell (RGC) function was compromised as early as postnatal day 21 (P21), along with reduced neurofilament heavy chain expression. Optic neuropathy caused by disruption of Ccd13 was non-cell autonomous, stemming from hydrocephalus with presumed high intracranial pressure (ICP), which physically impacts the ONH by increasing the translaminar pressure gradient.

Conclusions: We provided knowledge of optic neuropathy from a congenital mouse model for hydrocephalus. The hydrocephalus in mice could damage the ONH by increasing the translaminar pressure gradient and negative cupping, leading to impairment in axoplasmic transport and RGC pathology. Our findings highlight the importance of the interplay between IOP and ICP in the development of glaucoma.

脑积水 Ccdc13 突变小鼠的渐进性视神经病变是由视神经头的轴质运输受损引起的
目的:视神经头(ONH)萎缩经常与脑积水有关。含脑脊液(CSF)的脑膜形成了一个蛛网膜下腔,该腔的末端位于视神经头,对视神经头产生物理影响。本研究旨在描述先天性脑积水小鼠视神经病变的特征,这些小鼠的Ccdc13基因被遗传性破坏:方法:产生了ccdc13种系基因敲除小鼠。采用常规组织学和伊文思蓝染色法评估脑积水表型和视神经周围的蛛网膜下腔。用免疫组化和透射电子显微镜(TEM)检查视神经病变。轴突运输通过霍乱毒素亚单位 B(CTB)荧光共轭物进行检测。视网膜功能通过视网膜电图(ERG)进行评估,Ccdc13的表达通过基因敲入Gfp报告基因进行揭示:结果:Ccdc13突变体小鼠出生时表现为脑积水。Ccdc13突变体小鼠出生时即表现为脑积水,出生后1个月即出现ONH移位或负性凹陷,视神经末端蛛网膜下腔增大。眼压(IOP)正常。视神经病变首先出现在视网膜上端,随后视神经病变从远端向近端发展,表现为轴突超微结构改变和未磷酸化的神经丝重链沉积。轴突的前向运输也受到阻碍。视网膜神经节细胞(RGC)的功能早在出生后第21天(P21)就受到了损害,同时神经丝重链的表达也减少了。Ccd13中断导致的视神经病变是非细胞自主性的,源于脑积水和假定的高颅内压(ICP),后者通过增加层间压力梯度对视网膜上皮细胞产生物理影响:我们从先天性小鼠脑积水模型中获得了视神经病变的知识。小鼠脑积水可通过增加层间压力梯度和负压杯损害ONH,导致轴质运输受损和RGC病变。我们的研究结果突显了眼压和ICP之间的相互作用在青光眼发展过程中的重要性。
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来源期刊
CiteScore
6.90
自引率
4.50%
发文量
339
审稿时长
1 months
期刊介绍: Investigative Ophthalmology & Visual Science (IOVS), published as ready online, is a peer-reviewed academic journal of the Association for Research in Vision and Ophthalmology (ARVO). IOVS features original research, mostly pertaining to clinical and laboratory ophthalmology and vision research in general.
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