Retinal gene therapy for Stargardt disease with dual AAV intein vectors is both safe and effective in large animal models
Authors: Rita Ferla, Eugenio Pugni, Mariangela Lupo, Paola Tiberi, Federica Fioretto, Andrea Perota, Roberto Duchi, Irina Lagutina, Carlo Gesualdo, Settimio Rossi, Domenico Ventrella, Alberto Elmi, Benjamin McClinton, Carmel Toomes, Tongzhou Xu, Robert S. Molday, Enrico M. Surace, Francesca Simonelli, Maria L. Bacci, Cesare Galli, Muhammad A. Memon, Naveed Shams, Alberto Auricchio, Ivana Trapani.
Year: 2025
Sources: Science Advances
Abstract:
Retinal gene therapy using dual adeno-associated viral (AAV) intein vectors can be applied to genetic forms of blindness caused by mutations in genes with coding sequences that exceed single AAV cargo capacity, such as Stargardt disease (STGD1), the most common inherited macular dystrophy. In view of clinical translation of dual AAV intein vectors, here we set to evaluate both the efficiency and safety of their subretinal administration in relevant large animal models. Accordingly, we have developed the first pig model of STGD1, which we found to accumulate lipofuscin similarly to patients. This accumulation is significantly reduced upon subretinal administration of dual AAV intein vectors whose safety and pharmacodynamics we then tested in nonhuman primates, which showed modest and reversible inflammation as well as high levels of photoreceptor transduction. This bodes well for further clinical translation of dual AAV intein vectors in patients with STGD1 as well as for other blinding diseases that require the delivery of large genes.
Category: journals