The present invention provides viral vectors for use in the treatment and prevention of diseases associated with Schwann cells by delivering polynucleotides specifically to Schwann cells and achieving Schwann cell specific expression. The present invention has particular application in treatment and prevention of Charcot-Marie-Tooth disease and other demyelinating neuropathies. The preferred vectors are adeno-associated vectors (AAV) having a Schwann cell-specific promoter from the Myelin Protein Zero (Mpz, P0) or a minimal Mpz promoter.

Methods are disclosed for treating a cone rod homeobox transcription factor (CRX) autosomal dominant retinopathy in a subject. These methods include administering to the subject an effective amount of a nucleic acid molecule comprising a retinal specific promoter operably linked to a nucleic acid molecule encoding a CRX protein. Compositions are disclosed that include an effective amount of a nucleic acid molecule comprising a retinal specific promoter operably linked to a nucleic acid molecule encoding CRX, for use in treating a CRX autosomal dominant retinopathy in a subject. A retinal specific promoter is disclosed that includes the nucleotide sequence of SEQ ID NO: 1.

Provided herein are gene therapy methods for the treatment of mucopolysaccharidosis type IV A (MPS IV A) involving the use of recombinant adeno-associated viruses (rAAVs) to deliver human N-acetylgalactosamine-6-sulfate sulfatase (hGALNS) to the bone of a human subject diagnosed with MPS IVA. Also provided herein are rAAVs that can be used in the gene therapy methods and methods of making such rAAVs.

The present invention relates to adeno-associated viral vector useful for transducing adipose tissue. The invention also relates to polynucleotides, plasmids, vectors and methods for the production of such adeno-associated viral vector. The invention also relates to gene therapy methods useful for the treatment of a disease that requires the regulation of the expression levels of a gene.

Provided are assay systems for determining the therapeutic or toxic effect of a putative drug based on assaying its activity in cells which have been differentiated in vitro from stem cells, and induced to display a phenotype that resembles a disease to be treated.

Provided herein are methods, systems, and related vectors and compositions allowing for noninvasive control of neural circuits. In particular, the methods and systems herein described utilize acoustically targeted chemogenetics to achieve a noninvasive neuromodulation in specifically selected cell-types among spatially selected brain regions.

Artificial expression constructs for selectively modulating gene expression in selected central nervous system cell types are described. Particularly, the artificial expression constructs can be used to selectively express synthetic genes and/or modify gene expression in neocortical glutamatergic layer 5 neurons, such as glutamatergic layer 5 extratelencephalic-projecting (L5 ET) neurons.

The present disclosure provides codon optimized nucleotide sequences encoding human REP1, vectors, and host cells comprising codon optimized REP1 sequences, and methods of treating retinal disorders such as choroideremia comprising administering to the subject a codon optimized sequence encoding human REP1.

Described herein are muscle-specific targeting moieties and compositions including the muscle specific targeting motifs. Also described herein are uses of the muscle-specific targeting motifs and compositions including the muscle specific targeting moieties. In some embodiments, the muscle-specific targeting moieties and compositions including the muscle specific targeting moieties can be used to direct delivery of a cargo to a muscle cell.

Described are nucleic acid regulatory elements that are able to enhance liver-specific expression of genes, methods employing these regulatory elements and uses of these elements. Expression cassettes and vectors containing these nucleic acid regulatory elements are also disclosed. These are particularly useful for applications using gene therapy.