The present disclosure pertains to compositions and methods for the production of recombinant adeno-associated viruses (rAAVs).

The present disclosure provides methods for producing recombinant adeno-associated virus (rAAV) virions. The present disclosure provides compositions for producing rAAV virions.

The invention provides a viral vector particle based on AAV2, which in its capsid protein (CAP) contains an inserted amino acid section which confers tropism for cardiomyocytes.

The present invention provides methods of generating a recombinant AAV vector with reduced immunogenicity, comprising: providing eukaryotic cells with a nucleic acid comprising a sequence of interest that is flanked by AAV inverted terminal repeats, wherein the nucleic acid comprises CpG dinucleotide sites, wherein at least a portion of the CpG dinucleotide sites are methylated, wherein the eukaryotic cell expresses one or more other components necessary to achieve recombinant AAV biosynthesis, whereby the recombinant AAV vector is generated by the eukaryotic cell, wherein the generated recombinant AAV vector comprises nucleic acid wherein at least a portion of the CpG dinucleotide sites are methylated.

Provided herein are methods and compositions useful in the screening and production of recombinant AAV (rAAV) that have structural fitness and potency in insect cells and mammalian cells. The disclosure provides a directed evolution system for generating and selecting rAAV variants based on their Kozak sequences. In some embodiments, methods disclosed herein comprise the use of modified Kozak sequences to express AAV2 VP1 proteins in amounts that are useful for producing rAAV particles having high infectivities and/or transduction efficiencies. In some embodiments, methods of producing, and methods of screening, rAAV are provided that comprise the steps of infecting insect cells by administering rAAV to these cells, recovering rAAV-integrated DNA from these insect cells, and transfecting recovered rAAV into mammalian cells. Also provided herein are nucleic acids comprising nucleotide sequences encoding novel Kozak sequences. Further provided herein are mammalian cells, baculovirus particles and insect cells comprising these nucleic acids.

The present invention relates to host cells comprising a nucleic acid encoding Adeno-associated virus (AAV) Rep proteins Rep78 and Rep68, wherein the internal AAV promoter p19 has been inactivated by one or more mutations that maintain the functionality of said Rep78 and Rep68 proteins. The present invention further relates to respective nucleic acids and vectors comprising the same, as well as respective methods for the production of AAV.

The present invention includes methods and compositions for the production of high titer recombinant Adeno-Associated Virus (rAAV) in a variety of mammalian cells. The disclosed rAAV are useful in gene therapy applications. Disclosed methods based on co-infection of cells with two or more replication-defective recombinant herpes virus (rHSV) vectors are suitable for high-titer, large-scale production of infectious rAAV.

Adeno-associated virus (AAV) Clade F vectors or AAV vector variants (relative to AAV9) for precise editing of the genome of a cell and methods and kits thereof are provided. Targeted genome editing using the AAV Clade F vectors or AAV vector variants provided herein occurred at frequencies that were shown to be 1,000 to 100,000 fold more efficient than has previously been reported. Also provided are methods of treating a disease or disorder in a subject by editing the genome of a cell of the subject via transducing the cell with an AAV Clade F vector or AAV vector variant as described herein and further transplanting the transduced cell into the subject to treat the disease or disorder of the subject. Also provided herein are methods of treating a disease or disorder in a subject by in vivo genome editing by directly administering the AAV Clade F vector or AAV vector variant as described herein to the subject.

Regimens useful in reducing the frequency of apheresis in a human patient having familial hypercholesterolemia are described. The method involves administering to the human subject via a peripheral vein by infusion of a suspension of replication deficient recombinant adeno-associated virus (rAAV).

The instant technology relates to a production system to produce AAV vectors in a serum free suspension platform and at high titers. This technology uses reagents comprising media, cells, transfection reagent, AAV enhancer, and a lysis buffer, each of which is designed to provide maximal AAV production from suspension culture of mammalian cells, e.g. HEK293 cells. With this new system we are able to deliver up to about 2×10.sup.11 viral genomes per milliliter (vg/mL) of unconcentrated AAV vectors.