The present invention provides humanized viral vectors and methods of use thereof for delivery of transgenes or therapeutic nucleic acids to human subjects. Humanized viral vectors are modified from known viral vectors such as those based on AAV by coating their surface with a human protein such as human serum albumin and optionally a lipid coating or formulation, so that the foreign or non-human nature of the vector is masked. The coating is performed in a manner that reduces or prevents binding of antibodies to the vector surface, thereby reducing or preventing antibody-mediated clearance of vector, but still allowing the vector to transduce target cells and achieve therapeutic gene transfer. Such humanized vectors therefore evade pre-existing immune surveillance, reduce immune responses, and achieve therapeutic gene transfer in the presence of pre-existing antibodies to the viral vector.

The disclosure relates to optimized polynucleotide sequences for LAMP-2B, expression cassettes, vectors, and methods of use thereof in treating disease, e.g. Danon disease.

The disclosure relates to optimized polynucleotide sequences for LAMP-2B, expression cassettes, vectors, and methods of use thereof in treating disease, e.g. Danon disease.

Materials and methods related to gene targeting (e.g., gene targeting with transcription activator-like effector nucleases; TALENS) are provided.

The present invention relates to viral vectors that are capable of delivering a heterologous gene to the retina and in particular delivering RLBP1 to RPE and Mller cells of the retina. The invention also relates nucleic acids useful for producing viral vectors, compositions comprising the viral vectors and uses of the compositions and viral vectors. The invention also relates to methods of delivering and/or expressing a heterologous gene to the retina, improving the rate of dark adaption in a subject and treating RLBP1-associated retinal dystrophy.

The disclosure in some aspects relates to recombinant adeno-associated viruses having distinct tissue targeting capabilities. In some aspects, the disclosure relates to gene transfer methods using the recombinant adeno-associated viruses. In some aspects, the disclosure relates to isolated AAV capsid proteins and isolated nucleic acids encoding the same.

Disclosed herein are compositions of retroviruses and methods of using the same for gene delivery, wherein the retroviruses comprise a viral envelope protein comprising at least one mutation that diminishes its native function, a non-viral membrane-bound protein comprising a membrane-bound domain and an extracellular targeting domain.

Methods, systems, compositions and strategies for the delivery of WW domain-containing fusion proteins into cells in vivo, ex vivo, or in vitro via ARMMs are provided. Methods, systems, compositions and strategies for the delivery of Cas9 proteins and/or Cas9 variants into cells in vivo, ex vivo, or in vitro via fusion to ARMM associated proteins (e.g., ARRDC1 or TSG101) are also provided.

The disclosure in some aspects relates to recombinant adeno-associated viruses having distinct tissue targeting capabilities. In some aspects, the disclosure relates to gene transfer methods using the recombinant adeno-associated viruses. In some aspects, the disclosure relates to isolated AAV capsid proteins and isolated nucleic acids encoding the same.

Nanoparticle-based compositions, assays, kits, methods and platforms for delivering an antigen (peptides, proteins) or a nucleic acid encoding an antigen to professional APCs (PAPCs) result in the generation of autologous APCs that present a natural peptide repertoire of the antigen for use in assessing the efficacy of a vaccine (e.g., a cytotoxic T lymphocyte (CTL) response to a particular antigen) or other therapy or intervention (cell-based therapy, adjuvant therapy, etc.). The compositions, kits, assays and methods also can be used for delivering a drug or biologic or portion thereof to APCs for assessing the immunogenicity of drugs and biologics. The composition, kits, assays and methods involve the combined use of MHC targeting, universal DR binding peptides (e.g., PADRE, HA) with charged (e.g., positively-charged) highly branched polymeric dendrimers (e.g., PAMAM and other dendrimers) as vehicles for the targeted delivery of nucleic acids, peptides, biologics, drugs, or polypeptides to APCs, giving rise to a new nanoparticle-based method for assessing the immune response (CTL response) to a vaccination or other therapy or intervention, or for assessing the immunogenicity of a biologic or drug. Targeted delivery of nucleic acids, peptides, biologics, drugs, or polypeptides to APCs for effective expression and processing generates more physiologically relevant target antigens for evaluation of cell-mediated immune responses to vaccination, for example, and provides a low-cost approach for rapid generation of reagents and development of assay systems for more accurate profiling of immuno-logical responses to infection, immunization, and other therapies or interventions. Immunoevaluation kits using targeted nanoparticle-based antigen delivery are described herein.