Preclinical translation of Neurofibromatosis type 1 (NF1) exon 17 skipping using targeted U7-SnRNA packaged into engineered AAV serotypes.

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Preclinical translation of Neurofibromatosis type 1 (NF1) exon 17 skipping using targeted U7-SnRNA packaged into engineered AAV serotypes.

Authors

Moore, M.; Rayat-Sanati, K.; Zhang, X.; Liu, H.; Rostamitehrani, Z.; Vijayasarathy, T.; Westin, E.; Esteves, M.; Maguire, C. A.; Kesterson, R. A.; Popplewell, L.; Wallis, D.

Abstract

To facilitate the translation of NF1 exon 17 skipping as a mutation-specific therapy for Neurofibromatosis type 1 into in vivo testing, we have continued to develop more efficient antisense oligonucleotides (ASOs), humanized mouse models, and explored multiple delivery platforms including an adeno-associated virus (AAV)-U7-SnRNA vector approach. We evaluated both biodistribution and exon skipping efficacy of a U7-SnRNA targeting NF1 exon 17 with an SFFV-driven cassette containing T2A-linked Luciferase (Luc) and eGFP packaged in AAV-9, AAV-F and AAV-B1 capsids. We show that AAV-F is superior to AAV-9 and AAV-B1 for mouse brain delivery based on DNA transduction, GFP expression, and luciferase activity, but AAV-B1 delivers 2-4 fold more to sciatic nerve (SCN). In terms of exon skipping, AAV-F appears to induce the most skipping in liver and optic nerve (ON), while AAV-B1 mediates highest skipping in the liver, SCN, and ON. The identification of AAV serotypes that allow efficient transduction and delivery of transgenes to the mouse CNS and PNS is impactful for preclinical research in murine models of other diseases. Furthermore, this is both the first report of NF1 exon skipping efficacy in vivo and the first successful application of an U7-SnRNA for the restoration of functional neurofibromin for NF1.

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