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.

An isolated recombinant parvovirus vector comprising a synthetic enhancer comprising plurality of enhancer sequences operably linked to a promoter, and methods of using the vector, are provided.

Disclosed herein are viral vectors for use in recombinant molecular biology techniques. In particular, the present disclosure relates to self-limiting viral vectors comprising genes encoding site-specific endonucleases as well as recognition sequences for site-specific endonucleases such that expression of the endonuclease in a cell cleaves the viral vector and limits its persistence time. In some embodiments, the viral vectors disclosed herein also carry directives to delete, insert, or change a target sequence.

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.

This disclosure provides methods and compositions for treating disorders or injuries that affect motor function and control in a subject. In one aspect, the invention provides a method to deliver a transgene to a subject's spinal cord by administering a recombinant neurotropic viral vector containing the transgene. The viral vector delivers the transgene to a region of the deep cerebellar nuclei region of the brain. Also provided are compositions and methods to deliver a transgene to a subject's spinal cord by administering a recombinant neurotropic viral vector containing the transgene to the motor cortex region of the subject's brain.

The present invention provides a recombinant adipose-derived stem cell expressing a BDDhFVIII gene, and a preparation method and application thereof, and belongs to the technical field of genetically engineered drugs. The recombinant adipose-derived stem cell is obtained by infecting an adipose-derived stem cell with an adenoviral vector expressing the BDDhFVIII gene. The preparation method includes the following steps: constructing an adenoviral vector expressing a BDDhFVIII gene; extracting an adipose-derived stem cell; and infecting the adipose-derived cell with the adenoviral vector expressing the BDDhFVIII gene to obtain the recombinant adipose-derived stem cell. The recombinant adipose-derived stem cell can express the blood coagulation factor VIII safely and persistently, and have a high application prospect for treating the hemophilia A.

The disclosure pertains to methods and compositions for treating disorders affecting the central nervous system (CNS). These disorders include neurometabolic disorders such as lysosomal storage diseases that affect the central nervous system, e.g., Niemann-Pick A disease. They also include disorders such as Alzheimer's disease. The disclosed methods involve contacting an axonal ending of a neuron with a composition containing high titer AAV carrying a therapeutic transgene so that the AAV vector is axonally transported in a retrograde fashion and transgene product is expressed distally to the administration site.

Disclosed herein are viral vectors for use in recombinant molecular biology techniques. In particular, the present disclosure relates to self-limiting viral vectors comprising genes encoding site-specific endonucleases as well as recognition sequences for site-specific endonucleases such that expression of the endonuclease in a cell cleaves the viral vector and limits its persistence time. In some embodiments, the viral vectors disclosed herein also carry directives to delete, insert, or change a target sequence.

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 210.sup.11 viral genomes per milliliter (vg/mL) of unconcentrated AAV vectors.

Disclosed herein are viral vectors for use in recombinant molecular biology techniques. In particular, the present disclosure relates to self-limiting viral vectors comprising genes encoding site-specific endonucleases as well as recognition sequences for site-specific endonucleases such that expression of the endonuclease in a cell cleaves the viral vector and limits its persistence time. In some embodiments, the viral vectors disclosed herein also carry directives to delete, insert, or change a target sequence.