The invention relates to the field of genetic recombination and stein cell application. In particular, the invention provides a construct for expressing a soluble fragment of a secretory TRAIL, and a lentiviral expression vector comprising the construct. The present invention also provides a mesenchymal stein cell in which the construct is integrated into the genome, which can express and secrete the TRAIL fragment. The invention also provides the use of the construct or vector or mesenchymal stein cells for the treatment of brain tumors.

Various methods and compositions for treating age-associated conditions and other medical conditions, such as muscle diseases, type 2 diabetes, and/or obesity are described. Methods of enhancing cellular uptake of NMN and stimulating NAD+ production are further described. Various mammalian cells and mammalian cell lines are described including those comprising a cDNA encoding a Slc12a8 protein. Gene therapy vectors comprising a nucleic acid encoding Slc12a8 and non-human animals comprising an inactivating mutation in a Slc12a8 gene are also disclosed. Also described are methods for screening a candidate compound to identify compounds that promote NMN transport.

This invention relates to lentiviral gene transfer vectors pseudotyped with hemagglutinin-neuraminidase (HN) and fusion (F) proteins from a respiratory paramyxovirus, comprising a promoter and a transgene; and methods of making the same. The present invention also relates to the use of said vectors in gene therapy, particularly for the treatment of respiratory tract diseases such as Cystic Fibrosis (CF).

A lentiviral vector system for expressing a lentiviral particle is disclosed. The lentiviral vector system includes a therapeutic vector. The therapeutic vector comprises a phenylalanine hydroxylase (PAH) sequence for expressing at least one of PAH or a variant thereof, wherein the PAH sequence is truncated.

The present invention provides a retroviral or lentiviral vector having a viral envelope which comprises a mitogenic T-cell activating transmembrane protein which comprises: (i) a mitogenic domain which binds a mitogenic tetraspanin, and (ii) a transmembrane domain; wherein the mitogenic T-cell activating transmembrane protein is not part of a viral envelope glycoprotein. When cells such as T-cells or Natural Killer cells are transduced by such a viral vector, they are activated by the mitogenic T-cell activating transmembrane protein.

The present disclosure is directed to methods of inducing rejuvenation in a population of adult glial progenitor cells, and methods of treating a subject having a myelin deficiency. The method of inducing rejuvenation in a population of adult glial progenitor cells may comprise administering, to the population of adult glial progenitor cells, an effective amount of an agent that suppresses one or more transcription factors selected from the group consisting of (i) zinc finger protein 274 (ZNF274), (ii) Myc-associated factor X (MAX), (iii) E2F transcription factor 6 (E2F6), (iv) zinc finger protein Aiolos (IKZF3), and (v) signal transducer and activator of transcription 3 (STAT3).

The present invention provides a retroviral or lentiviral vector having a viral envelope which comprises a mitogenic T-cell activating transmembrane protein which comprises: (i) a mitogenic domain which binds a mitogenic tetraspanin, and (ii) a transmembrane domain; wherein the mitogenic T-cell activating transmembrane protein is not part of a viral envelope glycoprotein. When cells such as T-cells or Natural Killer cells are transduced by such a viral vector, they are activated by the mitogenic T-cell activating transmembrane protein.

The present invention relates to lentiviral particles which have been pseudotyped with Nipah virus (NiV) fusion (F) and attachment (G) glycoproteins (NiVpp-F/G). Additionally, the present invention relates to truncated NiV-F glycoproteins useful in producing such NiVpp lentiviral particles, as well as to additional variant peptides which enhance activity. Further, the present invention relates to methods of using such lentiviral particles or sequences, for example in the treatment of cancer or CNS disorders.

Methods of generating cell lines with a sequence variation or copy number variation of a gene of interest, methods of use thereof, and cell lines with a sequence variation or copy number variation of a gene of interest are provided.

Disclosed are compositions and methods that may be useful in the treatment and/or prevention of hearing loss caused by genetic mutation of the STRC gene. The compositions and methods disclosed herein use Lentiviral vectors to facilitate delivery of STRC into the inner ear to restore activity of the STRC gene, respectively, promote hair cell survival, prevent further degradation of hearing and/or restore hearing in patients suffering from hearing loss.