VEP Latency Delay Reflects Demyelination Beyond the Optic Nerve in the Cuprizone Model.

IF 5 2区 医学 Q1 OPHTHALMOLOGY
Roshana Vander Wall, Devaraj Basavarajappa, Viswanthram Palanivel, Samridhi Sharma, Vivek Gupta, Alexander Klistoner, Stuart Graham, Yuyi You
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Abstract

Purpose: Remyelination therapies are advancing for multiple sclerosis, focusing on visual pathways and using visual evoked potentials (VEPs) for de/remyelination processes. While the cuprizone (CZ) model and VEPs are core tools in preclinical trials, many overlook the posterior visual pathway. This study aimed to assess functional and structural changes across the murine visual pathway during de/remyelination.

Methods: One group of C57BL/6 mice underwent a CZ diet for 6 weeks to simulate demyelination, with a subset returning to a regular diet to induce remyelination. An additional group was fed a protracted CZ diet for 12 weeks to maintain chronic demyelination. Visual function was evaluated using electrophysiological recordings, including scotopic threshold responses (STRs) and electroretinograms (ERGs), with VEPs serving as a key biomarker for overall pathway health. Tissues from eyes, brains, and optic nerves (ONs) were collected at different time points for structural analysis.

Results: Our results demonstrated significant effects on VEPs, including increased N1 latencies and reduced amplitudes in the CZ mouse model. However, retinal function remained unaffected, as evidenced by unchanged STRs, ERGs, and retinal ganglion cell counts. Analysis of ONs revealed morphological changes, characterized by a significantly decreased axon diameter in the core region compared to the subpial region. Additionally, there was a significant increase in the g-ratio of the core region at 12 weeks CZ compared to controls. Immunofluorescence further demonstrated a decrease in myelin basic protein levels at 6 and 12 weeks in CZ animals. Interestingly, the dorsal lateral geniculate nucleus and primary visual cortex (V1) exhibited similar myelin changes, correlating with VEP latency alterations.

Conclusions: These data reveal that interpreting VEP latency solely as a marker for ON demyelination is incomplete. Previous preclinical studies have overlooked the posterior visual pathways, necessitating a broader interpretation of VEP latency to cover the entire visual pathway.

VEP 延迟反映了 Cuprizone 模型中视神经以外的脱髓鞘情况
目的:针对多发性硬化症的再髓鞘化疗法正在取得进展,其重点是视觉通路,并利用视觉诱发电位(VEPs)进行去/再髓鞘化过程。虽然铜绿素(CZ)模型和视觉诱发电位是临床前试验的核心工具,但许多人忽视了后部视觉通路。本研究旨在评估脱髓鞘过程中小鼠视觉通路的功能和结构变化:方法:一组C57BL/6小鼠接受为期6周的CZ饮食以模拟脱髓鞘,其中一部分小鼠恢复正常饮食以诱导再髓鞘化。另一组小鼠则被长期喂食 CZ 12 周,以维持慢性脱髓鞘。使用电生理记录评估视觉功能,包括散光阈值反应(STR)和视网膜电图(ERG),其中VEP是整体通路健康的关键生物标志物。我们在不同时间点采集了眼睛、大脑和视神经(ON)的组织进行结构分析:结果:我们的研究结果表明,CZ 小鼠模型对 VEPs 有明显影响,包括 N1 延迟增加和振幅减小。然而,视网膜功能未受影响,STR、ERG 和视网膜神经节细胞数量均未发生变化。对ON的分析显示了形态学上的变化,其特征是核心区域的轴突直径明显小于皮下区域。此外,与对照组相比,核心区的g比率在12周CZ时显著增加。免疫荧光进一步显示,在6周和12周时,CZ动物的髓鞘碱性蛋白水平有所下降。有趣的是,背侧膝状核和初级视觉皮层(V1)表现出类似的髓鞘变化,与 VEP 潜伏期的改变相关:这些数据表明,仅将 VEP 潜伏期解释为 ON 脱髓鞘的标志是不全面的。以往的临床前研究忽略了后部视觉通路,因此有必要对 VEP 延迟进行更广泛的解释,以涵盖整个视觉通路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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