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Low-dose AAV-CRISPR-mediated liver-specific knock-in restored hemostasis in neonatal hemophilia B mice with subtle antibody response

Xijing He, Zhenjie Zhang, Junyi Xue, Yaofeng Wang, Siqi Zhang, Junkang Wei, Chenzi Zhang, Jue Wang, Brian Anugerah Urip, Chun Christopher Ngan, Junjiang Sun, Yuefeng Li, Zhiqian Lü, Hui Zhao, Duanqing Pei, Chi Kong Li, Bo Feng

2022Nature Communications37 citationsDOIOpen Access PDF

Abstract

Abstract AAV-delivered CRISPR/Cas9 (AAV-CRISPR) has shown promising potentials in preclinical models to efficiently insert therapeutic gene sequences in somatic tissues. However, the AAV input doses required were prohibitively high and posed serious risk of toxicity. Here, we performed AAV-CRISPR mediated homology-independent knock-in at a new target site in mAlb 3’UTR and demonstrated that single dose of AAVs enabled long-term integration and expression of hF9 transgene in both adult and neonatal hemophilia B mice ( mF9 −/−) , yielding high levels of circulating human Factor IX (hFIX) and stable hemostasis restoration during entire 48-week observation period. Furthermore, we achieved hemostasis correction with a significantly lower AAV dose (2 × 10 9 vg/neonate and 1 × 10 10 vg/adult mouse) through liver-specific gene knock-in using hyperactive hF9 R338L variant. The plasma antibodies against Cas9 and AAV in the neonatal mice receiving low-dose AAV-CRISPR were negligible, which lent support to the development of AAV-CRISPR mediated somatic knock-in for treating inherited diseases.

Topics & Concepts

CRISPRHemostasisGenetic enhancementTransgeneSomatic cellCas9MedicineGene knockinFactor IXBiologyGeneImmunologyVirologyGeneticsInternal medicineCRISPR and Genetic EngineeringCAR-T cell therapy researchVirus-based gene therapy research
Low-dose AAV-CRISPR-mediated liver-specific knock-in restored hemostasis in neonatal hemophilia B mice with subtle antibody response | Litcius