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.

Methods and materials for effective dosages of AAV gene therapy for the treatment and prophylaxis of hemophilia A.

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.

A novel transgene for use to produce a coronavirus vaccine is provided. The transgene encodes: i) an RNA polymerase promoter; ii) a 5′ UTR; iii) a secretory sequence; iv) a coronavirus spike protein component, wherein the spike protein component incorporates a variant sequence at amino acid position 614 of a native spike protein; and v) a 3′ UTR and poly A sequence. A vaccine is also provided comprising the transgene or an mRNA transcript thereof.

The present disclosure provides adeno-associated virus (AAV) virions with altered capsid protein, where the AAV virions exhibit greater infectivity of retinal cells compared to wild-type AAV. The present disclosure further provides methods of delivering a gene product to a retinal cell in an individual, and methods of treating ocular disease.

The present disclosure provides, among other aspects, codon-altered polynucleotides encoding Factor VIII variants for expression in mammalian cells. In some embodiments, the disclosure also provides mammalian gene therapy vectors and methods for treating hemophilia A. In some embodiments, the present disclosure provides methods for dosing a hemophilia A patient with a polynucleotide, e.g., a codon-altered polynucleotide, encoding a Factor VIII polypeptide.

The disclosure features lipid nanoparticle (LNP) compositions comprising metabolic reprogramming molecules and uses thereof. The LNP compositions of the present disclosure comprise mRNA therapeutics encoding metabolic reprogramming polypeptides, e.g., IDO, TDO, AMPK, AhR, ALDH1A2, HMOX1, CD73 or CD39. The LNP compositions of the present disclosure can reprogram myeloid and/or dendritic cells, suppress T cells and/or induce immune tolerance in vivo.

The present invention provides a therapy for treating loss of GABA-mediated pre-synaptic inhibition after spinal injury. The therapeutic regimen includes spinal segment-specific upregulation of GAD65 (glutamate decarboxylase) and VGAT (vesicular GABA transporter) to modulate chronic spasticity in patients after spinal traumatic or ischemic injury.

The present invention relates to a gene delivery complex comprising: a biocompatible polymer backbone; and pegylated lactoferrin connected to the biocompatible polymer backbone by means of a covalent bond. The gene delivery complex is orally administered into an individual, can be absorbed in vivo by means of a lactoferrin receptor, and enables the in vivo delivery of a target gene and the expression thereof.