An expression vector capable of disrupting the silencing of cell cycle genes in adult cells, such as adult cardiac myocytes and other quiescent cells in terminally differentiated tissues, comprising: (a) a nucleic acid sequence encoding lysine-specific demethylase 4D (KDM4D); (b) a promoter that induces or effects overexpression of KDM4D, wherein the promoter is operably linked to the nucleic acid sequence; and (c) a regulatory element that inducibly represses the overexpression of KDM4D. The vector can be administered to a subject in a method for inducing tissue-specific hyperplasia in a mammal, including cardiomyocyte proliferation. The method provides for regenerative therapy, including improving cardiac function after myocardial infarct and other forms of cardiac damage.

The present inventors report here, in the DFNB9 mouse model (OTOF knock-out mice), the first proof-of-principle that cochlear delivery of a fragmented cDNA via a dual-AAV vector approach can effectively and long-lastingly correct the profound deafness phenotype of these mice when administered well after their auditory system has matured (P30). The present invention therefore concerns a vector system that allows the expression of the full-length Otoferlin polypeptide, or of a functional fragment thereof, in inner hair cells, for use for treating patients suffering from DFNB9 deafness or preventing DFNB9 deafness in patients having DFNB9 mutations, wherein said patients are patients having a developed and mature auditory system, such as new born babies, toddlers, infants, teenagers or adults.

Artificial expression constructs for modulating gene expression in striatal neurons are described. The artificial expression constructs can be used to express heterologous genes in striatal neurons including in striatal medium spiny neuron-pan, striatal medium spiny neuron-indirect pathway, striatal medium spiny neuron-direct pathway, striatal interneuron-cholinergic, and Drd3+ medium spiny neurons in olfactory tubercle. The artificial expression constructs can be used for many purposes, including to research and treat movement disorders such as Parkinson's disease and Huntington's disease.

The invention relates to novel adeno-associated virus (AAV) capsid proteins, AAV particles comprising a novel capsid protein, polynucleotides encoding these capsid proteins and AAV vectors expressing these capsid proteins. The invention also relates to methods of making the herein described AAV vectors expressing the novel capsid proteins of the invention and associated therapeutic uses of thereof.

Provided herein are compositions that include at least two different nucleic acid vectors, where each of the at least two different vectors includes a coding sequence that encodes a different portion of an otoferlin protein, and the use of these compositions to treat hearing loss in a subject.

An expression vector capable of disrupting the silencing of cell cycle genes in adult cells, such as adult cardiac myocytes and other quiescent cells in terminally differentiated tissues, comprising: (a) a nucleic acid sequence encoding lysine-specific demethylase 4D (KDM4D); (b) a promoter that induces or effects overexpression of KDM4D, wherein the promoter is operably linked to the nucleic acid sequence; and (c) a regulatory element that inducibly represses the overexpression of KDM4D. The vector can be administered to a subject in a method for inducing tissue-specific hyperplasia in a mammal, including cardiomyocyte proliferation. The method provides for regenerative therapy, including improving cardiac function after myocardial infarct and other forms of cardiac damage.

Provided herein are compositions that include at least two different nucleic acid vectors, where each of the at least two different vectors includes a coding sequence that encodes a different portion of a stereocilin protein, and the use of these compositions to treat non-syndromic sensorineural hearing loss in a subject.

Aspects of the present disclosure relate to methods for manufacturing genetically engineered T cells expressing a chimeric antigen receptor (CAR) that provide several improvements over conventional manufacturing methods, thereby enabling production of a robust supply of clinically useful CAR T-cell therapies.

The application describes ceDNA vectors having linear and continuous structure for insertion of a transgene into a gene safe harbor (GSH) in a genome, e.g., mammalian genome. ceDNA vectors can comprise at least one ITR sequence, or two ITR sequences, a transgene, and at least one nucleic acid sequence that specifically binds to, or hybridizes to a GSH locus. Some ceDNA vectors comprise at least one GSH homology arm (GSH HA), e.g., a 5 GSH HA, and/or a 3 GSH HA, and some ceDNA vectors comprise a guide RNA (gRNA) or guide DNA (gDNA) that specifically targets a region in the GSH locus and/or a 5 or 3 GSH HA herein. Some ceDNA vectors also comprise a gene editing cassette that encodes a gene editing molecule. Some ceDNA vectors further comprise cis-regulatory elements, including regulatory switches for regulation of the transgene expression after its insertion at a GSH

The invention provides an isolated chimeric virus comprising bocavirus capsid protein and a recombinant adeno-associated viral (AAV) genome, an isolated rBoV comprising human bocavirus capsid protein and a recombinant BoV genome, and uses therefor. For example, the chimeric virus may be employed to deliver transgenes, such as those encoding therapeutic or prophylactic gene products, to mammalian cells.