Disclosed are compositions and methods for treating neurological diseases, disorders, and injuries in a subject in need thereof. Particularly disclosed are compositions and methods for treating neurological diseases, disorders, and injuries that are associated with upper motor neurons in a subject in need thereof in which methods expression of ubiquitin carboxyl hydrolase ligase 1 (UCHL1) is modulated in the subject, for example, via gene therapy being administered to the subject in order to express UCHL1 in upper motor neurons of the subject. Also disclosed are expression vectors comprising the UCHL1 promoter operably linked to a nucleic acid encoding a therapeutic gene product.

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.

Sequences that enhance permeation of agents into cells and/or across the blood brain barrier, compositions comprising the sequences, and methods of use thereof.

Codon optimized nucleic acid sequences for RDH12 are provided, as well as recombinant viral vectors, such as AAV, expression cassettes, proviral plasmids or other plasmids containing the codon optimized sequence for functional RDH12. Recombinant vectors are provided that express the codon optimized, functional RDH12. Compositions containing these codon optimized sequences are useful in methods for treating, retarding or halting certain blinding diseases resulting from the absence, deficiency or inappropriate expression of RDH12. Other compositions and methods are providing for correcting a non-functional, defective or inadequately expressed native RDH12.

Provided herein are pharmaceutical compositions (e.g., formulations) that can provide for the long-term stability of AAV vectors. Also provided herein are methods of making and using the pharmaceutical compositions. The pharmaceutical compositions provided by the present disclosure generally comprise an AAV, histidine, a stabilizing agent, a salt, and a surfactant.

The present disclosure provides infectious recombinant adeno-associated virus (rAAV) virions that comprise a variant capsid protein and a heterologous nucleic acid. The present disclosure further provides the variant adeno-associated virus (AAV) capsid proteins (and/or a nucleic acid encoding the variant AAV capsid proteins), which confer to an infectious rAAV virion an increased resistance to human AAV neutralizing antibodies. The present disclosure further provides host cells comprising an infectious rAAV virion and/or a nucleic acid encoding a subject variant AAV capsid protein. The present disclosure further provides methods of delivering a heterologous nucleic acid to a target cell where the target cell is contacted with a subject infectious rAAV virion. The present disclosure further provides methods of delivering a gene product to an individual, the methods generally involving administering an effective amount of a subject rAAV virion to an individual in need thereof.

Disclosed herein are circular RNA s and transfer vehicles, along with related compositions and methods of treatment. The circular RNAs can comprise group I intron fragments, spacers, an IRES, duplex forming regions, and/or an expression sequence, thereby having the features of improved expression, functional stability, low immunogenicity, ease of manufacturing, and/or extended half-life compared to linear RNA. Pharmaceutical compositions comprising such circular RNAs and transfer vehicles are particularly suitable for efficient protein expression in immune cells in vivo. Also disclosed are precursor RNAs and materials useful in producing the precursor or circular RNAs, which have improved circularization efficiency and/or are compatible with effective circular RNA purification methods.

Disclosed herein are circular RNAs and transfer vehicles, along with related compositions and methods of treatment. The circular RNAs can comprise group I intron fragments, spacers, an IRES, duplex forming regions, and/or an expression sequence, thereby having the features of improved expression, functional stability, low immunogenicity, ease of manufacturing, and/or extended half-life compared to linear RNA. Pharmaceutical compositions comprising such circular RNAs and transfer vehicles are particularly suitable for efficient protein expression in immune cells in vivo. Also disclosed are precursor RNAs and materials useful in producing the precursor or circular RNAs, which have improved circularization efficiency and/or are compatible with effective circular RNA purification methods.

There are provided for herein novel amine-containing transfection compounds and methods for making and using same. The compounds are generally obtained by reacting a primary amine with an unsaturated compound. Transfection complexes made using the amine-containing transfection compounds in combination with additional compounds to encapsulate biologically active agents such as nucleic acids are also provided for herein. Methods of using the transfection complexes for the in vivo or in vitro delivery of biologically active agents are also described. The transfection complexes of the present invention are highly potent, thereby allowing effective modulation of a biological activity at relatively low doses compared to analogous transfection compounds known in the art.

Provided herein are pseudotyped recombinant lyssavirus particles and methods for their use in delivering a transgene into a target cell. Also provided are packaging systems and methods of using the packaging systems to produce pseudotyped recombinant lyssavirus particles.