1. Clustered Regularly Interspaced Short Palindromic Repeats-Based Genome Surgery for the Treatment of Autosomal Dominant Retinitis Pigmentosa.
- Author
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Tsai, Yi-Ting, Wu, Wen-Hsuan, Lee, Ting-Ting, Wu, Wei-Pu, Xu, Christine L., Park, Karen S., Cui, Xuan, Justus, Sally, Lin, Chyuan-Sheng, Jauregui, Ruben, Su, Pei-Yin, and Tsang, Stephen H.
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RETINITIS pigmentosa , *PALINDROMIC DNA , *ELECTRORETINOGRAPHY , *VISION disorders , *OPHTHALMOLOGY , *GENETICS , *GENE therapy , *THERAPEUTICS - Abstract
Purpose To develop a universal gene therapy to overcome the genetic heterogeneity in retinitis pigmentosa (RP) resulting from mutations in rhodopsin ( RHO ). Design Experimental study for a combination gene therapy that uses both gene ablation and gene replacement. Participants This study included 2 kinds of human RHO mutation knock-in mouse models: Rho P23H and Rho D190N . In total, 23 Rho P23H/P23H , 43 Rho P23H/+ , and 31 Rho D190N/+ mice were used for analysis. Methods This study involved gene therapy using dual adeno-associated viruses (AAVs) that (1) destroy expression of the endogenous Rho gene in a mutation-independent manner via an improved clustered regularly interspaced short palindromic repeats-based gene deletion and (2) enable expression of wild-type protein via exogenous cDNA. Main Outcome Measures Electroretinographic and histologic analysis. Results The thickness of the outer nuclear layer (ONL) after the subretinal injection of combination ablate-and-replace gene therapy was approximately 17% to 36% more than the ONL thickness resulting from gene replacement-only therapy at 3 months after AAV injection. Furthermore, electroretinography results demonstrated that the a and b waves of both Rho P23H and Rho D190N disease models were preserved more significantly using ablate-and-replace gene therapy ( P < 0.001), but not by gene replacement monotherapy. Conclusions As a proof of concept, our results suggest that the ablate-and-replace strategy can ameliorate disease progression as measured by photoreceptor structure and function for both of the human mutation knock-in models. These results demonstrate the potency of the ablate-and-replace strategy to treat RP caused by different Rho mutations. Furthermore, because ablate-and-replace treatment is mutation independent, this strategy may be used to treat a wide array of dominant diseases in ophthalmology and other fields. Clinical trials using ablate-and-replace gene therapy would allow researchers to determine if this strategy provides any benefits for patients with diseases of interest. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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