An agent that stimulates antiviral immunity may be used, for the treatment of cancer. A product comprising an immunostimulant and a vector comprising a transgene that promotes death of neoplastic cells, may also be used for simultaneous, sequential or separate administration in the treatment of cancer.

Methods for generating immune responses using adenovirus vectors that allow multiple vaccinations with the same adenovirus vector and vaccinations in individuals with preexisting immunity to adenovirus are provided.

The present invention relates to a novel gene delivery system and recombinant adenovirus comprising the decorin-encoding sequence to enhance transduction efficiency of transgenes, a pharmaceutical anti-tumor composition comprising the recombinant adenovirus, a pharmaceutical composition having improved tissue penetration potency and a pharmaceutical composition for treating a disease or disorder associated with accumulation of excess extracellular matrix.

The invention relates to therapeutic applications for compositions that reduce the level of oxidative stress on cells in vivo or in vitro. The invention describes methods for improving the therapeutic properties of stem cells. The invention also provides combination therapies that are useful to balance the oxidative microenvironment of cells in vivo or in vitro.

The invention provides an adenovirus or adenoviral vector characterized by comprising a nucleic acid sequence encoding one or more Respiratory Syncytial Virus (RSV) antigens and one or more particular nucleic acid sequences or one or more particular amino acid sequences, or portions thereof, pertaining to, for example, an adenoviral pIX protein, DNA polymerase protein, penton protein, hexon protein, and/or fiber protein, as well as a method of inducing an immune response against RSV in a mammal by administering the adenovirus or adenoviral vector to the mammal.

Anti-angiogenic adenovirus vectors, and therapeutic use thereof are provided, and more particularly, but not exclusively, clinical protocols for treatment of solid tumors in patients with an Ad5-PPE-1-3X-fas-chimera adenovirus vector.

The present description relates to an inhibitory RNA molecule, comprising an oligonucleotide that selectively knocks down expression a Nanog pseudogene expressed in many human cancers, a replicating viral vector capable of encoding such inhibitory RNA molecule, pharmaceutical compositions comprising said vector, and methods of treating cancer by administration of said pharmaceutical composition.

The prior art largely suggests that immune competence in a cancer patient would destroy an antigenic viral vector before it transfects host cells with a transgene-rendering therapy futile. We surprisingly found the opposite is true: cancer patients with competent immune systems obtain the most therapeutic benefit from antigenic viral vector, apparently because the antigenic viral vector, apart from transfecting cells with a transgene, induces a humoral immune response, which in turn attacks cells bearing cancer antigen. Our new therapy works particularly well in combination with cytotoxic chemotherapeutic drugs.

The present invention relates to SorCS1-like agents, including SorCS1, nucleic acid molecule encoding expression of SorCS1 and fragments thereof, as well as vectors containing said nucleic acid and to cells expressing SorCS1 and said fragments, for the treatment of obesity.

Systems and methods are presented that allow for selection of tumor neoepitopes that are then used to generate recombinant nucleic acids that encode one or more polytopes that are optimized for proper trafficking and processing. In preferred methods, the polytopes are encoded in a plasmid and/or a viral expression system for use as a therapeutic agent.