A “localizable” systemic gene therapy system is provided substantially increasing the transfection efficiency of the gene vectors into targeted tissue cells and substantially reducing the escape of the gene vectors from the targeted tissue volume, such as would waste the vectors, promote undesired immune reactions, and/or incur prohibitive costs for the required dose of gene-containing virus vectors. In this regard, the invention provides a means to simultaneously achieve local electroporation and gene-containing vector injection in a portion of a vascularized organ. It includes two double-balloon catheters that create contained volumes in parallel blood vessels for the introduction of vectors with reduced loss along with electrodes providing electroporation of the cells in the same location where the vectors are injected.

The present disclosure relates to methods and compounds for reprogramming metabolism in one specific retinal and neuronal cell type leading to improved cell and tissue survival and function. In particular, the present disclosure relates to increasing PGC1α/Pgc1α or NRF2/Nrf2 or inhibiting HIF/Hif or KEAP1/Keap1 to reprogram metabolism and survival of cells in a variety of neurodegenerative conditions, and specifically those which cause blindness.

Recombinant vectors operably encoding a CR2-FH fusion protein comprising a CR2 portion comprising CR2 protein or a fragment thereof and a FH portion comprising a factor H protein or a fragment thereof, and pharmaceutical compositions comprising the recombinant vector, are described. Also provided are methods of using the compositions for treatment eye diseases such as macular degeneration or glaucoma.

This invention provides compositions and methods for preventing inflammatory diseases of the joints, including rheumatoid and osteoarthritis, tendonitis, bursitis, inflammation of the ligament, synovitis, gout, and systemic lupus erythematosus, wherein the methods include injecting into the inflamed joint a therapeutic anti-inflammatory composition comprising a bacterial or viral IL-10 expression construct, wherein the IL-10 expression construct comprises a bacterial or viral backbone and a nucleic acid sequence encoding interleukin-10.

This disclosure concerns transcription cassettes comprising nucleic acid molecules comprising a nucleotide sequence encoding AP-4 subunits; vectors comprising said transcription cassettes; pharmaceutical compositions comprising said vector; and vectors or compositions for use in the treatment of AP-4-Hereditary Spastic Paraplegia.

The present invention relates to the field of gene therapy. In particular, the invention relates to a nucleic acid molecule comprising a nucleic acid sequence able to regulate the expression of a transgene of interest, to a vector or a cell comprising said nucleic acid molecule, and uses thereof.

The present disclosure relates generally to the use of sphingolipid-metabolizing proteins to mitigate or minimize tissue damage resulting from injury or from disease, for example, pulmonary arterial hypertension (PAH) when the sphingolipid-metabolizing protein is delivered via expression from an Anc80 vector.

Disclosed are compositions and methods for treating diseases of the mammalian eye, and in particular, complications of the retina associated with Usher syndrome IB (USH1B). Further disclosed are compositions and methods for treating diseases of the mammalian inner ear, and in particular, complications of ear hair cells associated with Usher syndrome IB (USH1B). The disclosure provides improved AAV-based, dual vector systems that facilitate the expression of full-length proteins whose coding sequences exceed that of the polynucleotide packaging capacity of an individual AAV vector. Described herein are modified hybrid dual vector systems that shift the coding sequence for the MY07A tail domain from the front-half vector to the back-half vector by altering the split point (e.g., from between exons 23 and 24, to between exons 21 and 22), in order to eliminate the production of truncated MY07A protein. Further described herein are improved, codon-modified hybrid and overlap vector systems in which putative stop codons and residual sequences in non-coding sequences are removed.

The present invention relates to regulatory nucleic acid sequences, in particular CNS—specific promoters, and elements thereof. The invention also relates to expression constructs, vectors, virions, pharmaceutical compositions and cells comprising such promoters and to methods of their use. The regulatory nucleic acid sequences are of particular utility for gene therapy applications.

Compositions and methods for treating disorders affecting motor function, such as motor function affected by disease or injury to the brain and/or spinal cord, are disclosed.