Project Summary/Abstract: Our goal is to advance our current intravitreal gene therapy platform consisting of DNA nanoparticles (DNA- NPs)/hyaluronic acid nanospheres (HA-NSs) to deliver large genes in order to develop safe/effective therapies for visual loss in Usher Syndrome type 2A (USH2A). Currently, there are no treatments for USH2A. Our complementary expertise in nanoformulation and in molecular biology/physiology of the visual and auditory systems will facilitate the advancement of our non-viral therapy to rescue vision loss associated with the most common USH2A mutation in usherin, c.2299delG. Our platform consists of: 1) CK30PEG DNA-NPs that efficiently transfect photoreceptors (PRs), exert no toxic effects after multiple injections, and are distributed throughout the subretinal space in both mouse and baboon models. Critically, these DNA-NPs provide structural/functional rescue in multiple mouse retinal disease models. 2) HA-NS made of hyaluronic acid which house DNA or DNA-NPs for controlled long-term DNA release. HA-NSs are capable of reaching the PRs after intravitreal delivery. 3) Sulfotyrosine (ST), which is a non-toxic small molecule that enhances retinal penetration of intravitreally delivered HA-NS. 4) Engineered DNA vectors with genomic elements to carry and promote expression of large therapeutic genes. Developing an effective treatment for USH2A has been challenging due to its large coding sequence (15.8 kb) that has precluded its delivery using standard approaches and the presence of multiple isoforms with functions that are not fully understood. We have already cloned two usherin isoforms to be tested with our innovative platform (DNA-NP/HA-NS/ST) to safely advance gene therapy for USH2A. We will use three previously generated knockin mouse models to learn more about usherin transcripts, isoforms, and their role in PRs to help develop well-designed therapies for USH2A. The models are: 1) UNYFP, where YFP with a 3XFlag tag was inserted after the secretory sequence at the N-terminus of Ush2a; 2) UCmKate, where mKATE2 with a 3XMyc tag was inserted at the C-terminus before the transmembrane domain of Ush2a; and 3) ush2aG/G, where the mouse-equivalent of human c.2299delG mutation was introduced followed by the human 20 aa extension followed by 3XFlag tag. In aim 1, we will evaluate Ush2a isoforms in the retina vs cochlea, the mechanism of auditory and visual defects in the ush2aG/G model, and in vitro testing of the most suitable Ush2a isoform(s) for gene therapy. In aim 2, we will investigate the transduction efficiency and therapeutic efficacy of Ush2a-containing intravitreally delivered DNA-NPs/HA-NSs/ST in the ush2aG/G model. First, we will perform short-term studies to evaluate the ability of intravitreal vs subretinally delivered usherin to generate gene expression in PRs in the ush2aG/G retina. Second, we will longitudinally assess long-term therapeutic efficacy of the platform/vectors/isoform identified from Part I to pr...