1. In SituGene Therapy via AAV-CRISPR-Cas9-Mediated Targeted Gene Regulation
- Author
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Moreno, Ana M., Fu, Xin, Zhu, Jie, Katrekar, Dhruva, Shih, Yu-Ru V., Marlett, John, Cabotaje, Jessica, Tat, Jasmine, Naughton, John, Lisowski, Leszek, Varghese, Shyni, Zhang, Kang, and Mali, Prashant
- Abstract
Development of efficacious in vivodelivery platforms for CRISPR-Cas9-based epigenome engineering will be critical to enable the ability to target human diseases without permanent modification of the genome. Toward this, we utilized split-Cas9 systems to develop a modular adeno-associated viral (AAV) vector platform for CRISPR-Cas9 delivery to enable the full spectrum of targeted in situgene regulation functionalities, demonstrating robust transcriptional repression (up to 80%) and activation (up to 6-fold) of target genes in cell culture and mice. We also applied our platform for targeted in vivogene-repression-mediated gene therapy for retinitis pigmentosa. Specifically, we engineered targeted repression of Nrl, a master regulator of rod photoreceptor determination, and demonstrated Nrlknockdown mediates in situreprogramming of rod cells into cone-like cells that are resistant to retinitis pigmentosa-specific mutations, with concomitant prevention of secondary cone loss. Furthermore, we benchmarked our results from Nrlknockdown with those from in vivo Nrlknockout via gene editing. Taken together, our AAV-CRISPR-Cas9 platform for in vivoepigenome engineering enables a robust approach to target disease in a genomically scarless and potentially reversible manner.
- Published
- 2018
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