The present disclosure relates to a replication deficient oncolytic viral vector or replication capable oncolytic virus encoding an antibody or a binding fragment thereof to the antigen-specific T-cell receptor complex (TCR) for expression on the surface of a cancer cell, pharmaceutical compositions comprising the same, and use of any one of the same in treatment, particularly in the treatment of cancer.

The invention features compositions comprising in vitro generated beta cells capable of glucose-stimulated insulin secretion, methods of inducing beta cell maturation from embryonic or induced pluripotent stem cell-derived beta-like cells, and methods of using in vitro generated beta cells for the treatment of type 1 diabetes, type 2 diabetes, or a related disorder.

An adenovirus comprising an E1A polypeptide comprising one or more modifications and comprising an E4orf6/7 polypeptide comprising one or more modifications is described. Compositions and kits comprising the modified adenoviruses are also described. Further described is a method of treating a proliferative disorder in a subject comprising administering to the subject an adenovirus comprising the E1A polypeptide comprising one or more modifications and comprising the E4orf6/7 polypeptide comprising one or more modifications.

Provided herein are AAV8 mutant capsids and rAAV comprising the same. In one embodiment, vectors employing the AAV8 mutant capsid show increased transduction in a selected tissue as compared to AAV8.

Modified E1a regulatory sequences are provided, wherein at least one Pea3 binding site, or a functional portion thereof, is deleted. Also provided are modified E1a sequences that selectively express particular isoforms. Also provided is an E1b-19K clone insertion site. These modified sequences can be used individually, or in combination with one another, to provide tumor-selective expression of proteins.

The present invention relates to fusion proteins comprising a cell surface marker specific VHH. In particular, the invention relates to bispecific VHH adaptor proteins, i.e. fusion proteins comprising an adeno-associated virus (AAV) specific VHH linked to a cell surface marker specific VHH. Moreover, the invention relates to a recombinant AAV which comprises a fusion protein in which a cell surface marker specific VHH is integrated into a capsid protein of the AAV. Also nucleotide sequences encoding such fusion proteins, vectors are contemplated. The invention moreover refers to uses of the fusion proteins and nucleic sequences for gene therapy.

Disclosed are replication-enhanced oncolytic adenoviruses. These oncolytic adenoviruses have tumor-specific replication capable of enhanced tumor oncolysis and enhanced therapeutic transgene expression. Also disclosed are methods comprising administering a replication-enhanced oncolytic adenovirus for patients suffering from a cancer.

The invention features compositions comprising in vitro generated beta cells capable of glucose-stimulated insulin secretion, methods of inducing beta cell maturation from embryonic or induced pluripotent stem cell-derived beta-like cells, and methods of using in vitro generated beta cells for the treatment of type 1 diabetes, type 2 diabetes, or a related disorder.

The present invention provides methods for treating an individual having bladder cancer comprising intravesically administering to the individual an oncolytic virus. Also provided are pharmaceutical compositions and kits for treating bladder cancer.

Provided herein are methods of treating cancer by activating resident memory T cells using one or more antigenic peptides.