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视网膜色素变性犬模型中视网膜功能改变的视网膜电图(ERG)评估及可转化基因增强疗法反应的监测

ERG assessment of altered retinal function in canine models of retinitis pigmentosa and monitoring of response to translatable gene augmentation therapy.

作者信息

Pasmanter Nate, Occelli Laurence M, Petersen-Jones Simon M

机构信息

Department of Small Animal Clinical Sciences, College of Veterinary Medicine, Michigan State University, 736 Wilson Road, D-208, East Lansing, MI, 48824, USA.

出版信息

Doc Ophthalmol. 2021 Oct;143(2):171-184. doi: 10.1007/s10633-021-09832-0. Epub 2021 Apr 5.

DOI:10.1007/s10633-021-09832-0
PMID:33818677
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8509084/
Abstract

PURPOSE

To analyze ERG responses from two dog models of retinitis pigmentosa, one due to a PDE6A mutation and the other a CNGB1 mutation, both to assess the effect of these mutations on retinal function and the ability of gene augmentation therapy to restore normal function.

METHODS

Scotopic and photopic ERGs from young affected and normal control dogs and affected dogs following AAV-mediated gene augmentation therapy were analyzed. Parameters reflecting rod and cone function were collected by modeling the descending slope of the a-wave to measure receptor response and sensitivity. Rod-driven responses were further assessed by Naka-Rushton fitting of the first limb of the scotopic b-wave luminance-response plot.

RESULTS

PDE6A dogs showed a dramatic decrease in rod-driven responses with very reduced rod maximal responses and sensitivity. There was a minor reduction in the amplitude of maximal cone responses. In contrast, CNGB1 dogs had some residual rod responses with reduced amplitude and sensitivity and normal cone responses. Following gene augmentation therapy, rod parameters were substantially improved in both models with restoration of sensitivity parameters log S and log K and a large increase in log R in keeping with rescue of normal rod phototransduction in the treated retinal regions.

CONCLUSIONS

Modeling of rod and cone a-waves and the luminance-response function of the scotopic b-wave characterized the loss of rod photoreceptor function in two dog models of retinitis pigmentosa and showed the effectiveness of gene augmentation therapy in restoring normal functional parameters.

摘要

目的

分析两种视网膜色素变性犬模型的视网膜电图(ERG)反应,一种是由于磷酸二酯酶6A(PDE6A)突变引起的,另一种是由于CNGB1突变引起的,以评估这些突变对视网膜功能的影响以及基因增强疗法恢复正常功能的能力。

方法

分析了年轻的患病犬和正常对照犬以及接受腺相关病毒(AAV)介导的基因增强疗法后的患病犬的暗视和明视ERG。通过对a波下降斜率进行建模来收集反映视杆和视锥功能的参数,以测量感受器反应和敏感性。通过对暗视b波亮度反应图的第一部分进行中纳-拉什顿(Naka-Rushton)拟合,进一步评估视杆驱动的反应。

结果

PDE6A犬的视杆驱动反应显著降低,视杆最大反应和敏感性极低。最大视锥反应的幅度略有降低。相比之下,CNGB1犬有一些残留的视杆反应,幅度和敏感性降低,视锥反应正常。基因增强治疗后,两个模型中的视杆参数均有显著改善,敏感性参数log S和log K恢复,log R大幅增加,这与治疗视网膜区域正常视杆光转导功能的恢复一致。

结论

对视杆和视锥a波以及暗视b波的亮度反应函数进行建模,可表征两种视网膜色素变性犬模型中视杆光感受器功能的丧失,并显示基因增强疗法在恢复正常功能参数方面的有效性。

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Gene Supplementation Rescues Rod Function and Preserves Photoreceptor and Retinal Morphology in Dogs, Leading the Way Toward Treating Human -Retinitis Pigmentosa.基因补充疗法可挽救犬类的视杆功能,并保留光感受器和视网膜形态,为治疗人类视网膜色素变性指明了方向。
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