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Extending AAV Packaging Cargo through Dual Co-Transduction: Efficient Protein Trans-Splicing at Low Vector Doses

Mariana V. Ferreira, Sofia Fernandes, Ana I. Almeida, S. Gaudêncio Neto, João P. Mendes, Ricardo J. S. Silva, Cristina Peixoto, Ana S. Coroadinha

2023International Journal of Molecular Sciences13 citationsDOIOpen Access PDF

Abstract

Adeno-associated viral (AAV) vectors represent one of the leading platforms for gene delivery. Nevertheless, their small packaging capacity restricts their use for diseases requiring large-gene delivery. To overcome this, dual-AAV vector systems that rely on protein trans-splicing were developed, with the split-intein Npu DnaE among the most-used. However, the reconstitution efficiency of Npu DnaE is still insufficient, requiring higher vector doses. In this work, two split-inteins, Cfa and Gp41-1, with reportedly superior trans-splicing were evaluated in comparison with Npu DnaE by transient transfections and dual-AAV in vitro co-transductions. Both Cfa and Gp41-1 split-inteins enabled reconstitution rates that were over two-fold higher than Npu DnaE and 100% of protein reconstitution. The impact of different vector preparation qualities in split-intein performances was also evaluated in co-transduction assays. Higher-quality preparations increased split-inteins' performances by three-fold when compared to low-quality preparations (60-75% vs. 20-30% full particles, respectively). Low-quality vector preparations were observed to limit split-gene reconstitutions by inhibiting co-transduction. We show that combining superior split-inteins with higher-quality vector preparations allowed vector doses to be decreased while maintaining high trans-splicing rates. These results show the potential of more-efficient protein-trans-splicing strategies in dual-AAV vector co-transduction, allowing the extension of its use to the delivery of larger therapeutic genes.

Topics & Concepts

Transduction (biophysics)InteinViral vectorVector (molecular biology)GeneGene deliveryBiologyRNA splicingProtein engineeringGenetic enhancementComputational biologyCell biologyMolecular biologyGeneticsBiochemistryEnzymeRecombinant DNARNAVirus-based gene therapy researchRNA Interference and Gene DeliveryViral Infections and Immunology Research