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.

Provided herein are methods for facilitating or inducing stable transgene integration and expression in a proliferating cell, comprising administering to the cell (i) a recombinant AAV (rAAV) vector comprising the transgene flanked by transposon-derived inverted terminal repeat sequences, which sequences are in turn flanked by AAV-derived inverted terminal repeat regions, and (ii) a source of a transposase that recognises said transposon-derived inverted terminal repeat sequences and directs the genomic integration of the transgene into the genome of the proliferating cell. Also provided are methods and transgene delivery systems for the treatment or prevention of diseases affecting, associated with or characterised by proliferating cells, including paediatric liver diseases, bone marrow diseases and cancer.

Methods and compositions for selectively targeting cancerous cells for genetic manipulation based on cancer specific sequence motifs (CSSMs), which are formed as a result of chromosomal rearrangement, and cells produced by said methods.

A conditionally replicating adenovirus were generated that can specifically replicate and express therapeutic genes in neuroendocrine tumors. The promoter-specific expression of the adenoviruses is regulated upstream by an INSM1 (insulinoma-associated-1) promoter that is silent in normal adult tissues but active in developing neuroendocrine cells and neuroendocrine tumors. By placing the I NSM 1-promoter with an insulator and two copies of neuronal restrictive silencer elements in an adenoviral vector, the construct can retain tumor specificity and drive expression of a mutated adenovirus E1A gene (Δ24E1A) and the herpes simplex virus thymidine kinase gene. The I NSM1-promoter-driven viruses could replicate specifically in the I NSM1-positive cells and I NSM1-specific HSV-tk expression in combination with ganciclovir treatment displayed dose-dependent tumor cell-specific killing in insulinomas. When the INSM1-promoter driven HSV-tk was combined with Δ24E1A and I NSM 1 p-HSV-tk viruses, the co-infected insulinoma expressed higher levels of HSV-tk and more efficient tumor suppression as compared to the I NSM1 p-HSV-tk virus alone.

Provided is a method for producing a cell incorporating an antigen specific receptor gene, which comprises the step of introducing an exogenous TCR or CAR gene into a material cell so that the introduced gene is expressed under the T cell receptor expression control system of the material cell.

The present invention relates to regulatable adeno-associated virus (AAV) vectors as well as to their use in gene therapy. It further relates to corresponding nucleic acid molecules, host cells, non-human transgenic animals, pharmaceutical compositions and kits.

Provided herein are methods for facilitating or inducing stable transgene integration and expression in a proliferating cell, comprising administering to the cell (i) a recombinant AAV (rAAV) vector comprising the transgene flanked by transposon-derived inverted terminal repeat sequences, which sequences are in turn flanked by AAV-derived inverted terminal repeat regions, and (ii) a source of a transposase that recognises said transposon-derived inverted terminal repeat sequences and directs the genomic integration of the transgene into the genome of the proliferating cell. Also provide are methods and transgene delivery systems for the treatment or prevention of diseases affecting, associated with or characterised by proliferating cells.

The present invention relates to hybrid promoters to drive gene expression in muscles.

Aspects of the disclosure relate to compositions and methods for expressing one or more Ganglioside GM3 synthase (GM3S) isoforms in a cell or subject. In some aspects, the disclosure relates to methods for treating GM3 synthase deficiency in a subject in need thereof.

Two or more conditional, dominant, lethal gene expression systems provide high levels of penetrance in insects. Lethality is induced at an earlier stage of development and the risk of biochemical resistance is reduced, as compared to a single insect conditional, dominant, lethal gene expression system. The invention is useful for the control of insect populations.