All-in-one AAV-mediated Nrl gene inactivation rescues retinal degeneration in Pde6a mice
Zhiquan Liu, … , Qing Wang, Yang Sun
Zhiquan Liu, … , Qing Wang, Yang Sun
Published November 5, 2024
Citation Information: JCI Insight. 2024;9(24):e178159. https://doi.org/10.1172/jci.insight.178159.
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Research Article Ophthalmology Therapeutics

All-in-one AAV-mediated Nrl gene inactivation rescues retinal degeneration in Pde6a mice

Abstract

Retinitis pigmentosa (RP) is a complex group of inherited retinal diseases characterized by progressive death of photoreceptor cells and eventual blindness. Pde6a, which encodes a cGMP-specific phosphodiesterase, is a crucial pathogenic gene for autosomal recessive RP (RP43); there is no effective therapy for this form of RP. The compact CRISPR/Staphylococcus aureus Cas9 (CRISPR/SaCas9) system, which can be packaged into a single adeno-associated virus (AAV), holds promise for simplifying effective gene therapy. Here, we demonstrated that all-in-one AAV-SaCas9–mediated Nrl gene inactivation can efficiently prevent retinal degeneration in a RP mouse model with Pde6anmf363/nmf363 mutation. We screened single-guide RNAs capable of efficiently editing the mouse Nrl gene in N2a cells and then achieved effective gene editing by using a single AAV to codeliver SaCas9 and an optimal Nrl-sg2 into the mouse retina. Excitingly, in vivo inactivation of Nrl improved photoreceptor cell survival and rescued retinal function in treated Pde6a-deficient mice. Thus, we showed that a practical, gene-independent method, AAV-SaCas9–mediated Nrl inactivation, holds promise for future therapeutic applications in patients with RP.

Authors

Zhiquan Liu, Siyu Chen, Chien-Hui Lo, Qing Wang, Yang Sun

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Figure 1

Gene editing of Nrl/Nr2e3 in N2a cells using AAV-SaCas9 vector.

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Gene editing of Nrl/Nr2e3 in N2a cells using AAV-SaCas9 vector. (A) Work...
(A) Workflow for the screening of sgRNAs targeting Nrl/Nr2e3 using the all-in-one AAV-SaCas9 vector in N2a cells (created by BioRender.com). (B) Schematic representation of the mouse Nrl/Nr2e3 locus, illustrating the position of the designed sgRNA target. The 21-nt targeted sgRNA sequence is marked in black, and the NNGRRT protospacer adjacent motif sequence is highlighted in green. All sgRNAs were positioned in the coding sequence to disrupt gene function. (C) Comparison of the indel efficiency of the tested sgRNAs targeting Nrl/Nr2e3 using the all-in-one AAV-SaCas9 vector in N2a cells. (D) Representative Sanger sequencing chromatograms of edited N2a cells at the Nrl-sg2 site. The dashed line represents the expected cleavage sites of SaCas9. WT. Data are shown as the mean ± SEM and n = 3 biologically independent experiments.