The invention relates to a recombinant adenovirus comprising an albumin-binding moiety on the outer surface of the adenoviral hexon protein, pharmaceutical compositions containing it and its medical use. Particularly, the invention relates to an oncolytic adenovirus comprising a sequence encoding an albumin-binding moiety inserted in the hypervariable region 1 (HVR1) of the hexon protein coding sequence and its use in the prevention and/or treatment of cancer.

This invention relates to the use of an adenovirus to treat cancer, for example. The adenovirus may be replication deficient in cells that lack Y box binding protein. The adenovirus may encode an oncogene or an oncogene product, which may transactivate at least one viral gene.

The invention describes a method and compounds for the prevention of immune responses towards allofactors, towards viral vectors used for gene therapy and gene vaccination, towards proteins to which subjects are naturally exposed, towards genetically-modified organisms and towards undesirable effects related to vaccine administration for allergic or infectious diseases.

The present disclosure describes the generation and the use of Ad variants (Ad) possessing any combination of mutations in genes that code for the hexon, penton, fiber, and non-structural proteins, where simultaneous modification of hexon and penton are made to avoid the trapping of Ad in the liver and to reduce toxicity after intravascular virus administration. Such liver de-targeted Ad can be useful tool for selective and specific gene delivery to extra-hepatic tissues and cells, including disseminated metastatic cancer cells.

The present invention relates to isolated polynucleotide and polypeptide sequences derived from novel chimpanzee adenovirus ChAd157, as well as to recombinant polynucleotides, vectors, adenoviruses, cells and compositions comprising said polynucleotide and polypeptide sequences.

Recombinant adenovirus genomes that include a synthetic transcriptional circuit are described. Synthetic adenoviruses positively regulated using two-step transcriptional amplification (TSTA) are further described. Selection of the heterologous promoter is based on the desired replication characteristics of the synthetic virus. For example, the heterologous promoter can be a constitutive promoter, a tumor-specific promoter or a tissue-specific promoter.

The present invention relates to the preparation of mesenchymal stem cells, which are for the proliferation of viral vectors and viruses, and enable virus production and release timing control such that tumor targeting can be improved and viruses can be mass-produced. In addition, the tumorigenesis of mesenchymal stem cells of the present invention can be fundamentally blocked, safety is secured by enabling virus production and release to be controlled at desired time points, and antitumor effects can be maximized.

Provided herein is a conditionally-replicating serotype 5 adenovirus or adenoviral vector expressing a mutant E1A protein under control of a promoter that is responsive to hypoxia and inflammation and one or more immune modulators under control of a tumor-specific promoter. The adenovirus or adenoviral vector also comprises serotype 3 fiber and hexon proteins. Also provided is a method of inducing cytotoxicity in tumor cells using a composition containing the adenovirus or adenoviral vector.

The invention discloses a human adenovirus species C having a capsid which comprises a modified adenovirus hexon protein, wherein the modified adenovirus hexon protein has a modified HVR1 region, wherein the modified HVR1 region has the sequence DEAATALEINLKKKKQAEQQ (SEQ ID NO.: 1). The invention further discloses the adenovirus of the disclosure for use in treating or preventing a human disease. The invention further discloses a nucleic acid encoding the modified adenovirus hexon protein. The invention further discloses the use of an adenovirus according to the disclosure for transducing mesenchymal stromal cells (MSCs) or tumor cells. The invention further discloses an in vitro method for transducing MSCs and a transduced MSC obtainable by the method. The invention further discloses the transduced MSC of the disclosure for use in treating a disease.

This invention relates to preparations comprising adenoviral vectors with modified capsid proteins. These modified capsid proteins enable customisable decoration of the adenoviral vector to be performed, enabling diverse applications from personalised cancer vaccines to targeted gene therapy vectors, and mixtures of the same. In particular, the adenoviral vectors with modified capsid proteins may be modified in the hexon and/or pIX capsid proteins. The invention makes use of peptide pairs to provide a “primed” adenovirus which is ready for decoration.