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 invention provides an agent for preventing or treating a condition characterised by the presence of unwanted cells, the agent comprising: (i) a targeting moiety that is capable of targeting to the unwanted cells; and (ii) a T cell antigen, wherein the T cell antigen can be released from the targeting moiety by selective cleavage of a cleavage site in the agent in the vicinity of the unwanted cells.

The invention provides an agent for preventing or treating a condition characterised by the presence of unwanted cells, the agent comprising: (i) a targeting moiety that is capable of targeting to the unwanted cells; and (ii) a T cell antigen, wherein the T cell antigen can be released from the targeting moiety by selective cleavage of a cleavage site in the agent in the vicinity of the unwanted cells.

The present disclosure provides a tFiber protein fragment of avian egg drop syndrome virus, wherein the gene that encoded the tFiber protein fragment of avian egg drop syndrome virus has a nucleotide sequence shown in SEQ ID NO. 2 or a degenerate sequence thereof, and a vaccine composition prepared from the protein fragment. The fragment has good immunogenicity and is capable of preparing combined vaccine with various antigens, producing complete protection to the chickens and ducks.

The present disclosure provides a tFiber protein fragment of avian egg drop syndrome virus, wherein the gene that encoded the tFiber protein fragment of avian egg drop syndrome virus has a nucleotide sequence shown in SEQ ID NO. 2 or a degenerate sequence thereof, and a vaccine composition prepared from the protein fragment. The fragment has good immunogenicity and is capable of preparing combined vaccine with various antigens, producing complete protection to the chickens and ducks.

The present invention relates to novel adenovirus strains with an improved seroprevalence. In one aspect, the present invention relates to isolated polypeptides of adenoviral capsid proteins such as hexon, penton and fiber protein and fragments thereof and polynucleotides encoding the same. Also provided is a vector comprising the isolated polynucleotide according to the invention and adenoviruses comprising the isolated polynucleotides or polypeptides according to the invention and a pharmaceutical composition comprising said vector, adenovirus, polypeptide and/or polynucleotide. The invention also relates to the use of the isolated polynucleotides, the isolated polypeptides, the vector, the adenoviruses and/or the pharmaceutical composition for the therapy or prophylaxis of a disease.

The present invention relates to novel adenovirus strains with an improved seroprevalence. In one aspect, the present invention relates to isolated polypeptides of adenoviral capsid proteins such as hexon, penton and fiber protein and fragments thereof and polynucleotides encoding the same. Also provided is a vector comprising the isolated polynucleotide according to the invention and adenoviruses comprising the isolated polynucleotides or polypeptides according to the invention and a pharmaceutical composition comprising said vector, adenovirus, polypeptide and/or polynucleotide. The invention also relates to the use of the isolated polynucleotides, the isolated polypeptides, the vector, the adenoviruses and/or the pharmaceutical composition for the therapy or prophylaxis of a disease.

A method of reducing cancer cell growth, a method of increasing sensitivity of cancer cells to CTL mediated killing, and a method of increasing sensitivity of cancer cells to NK mediated killing are provided. The methods comprise treating cancer cells with a combination of a HDAC inhibitor and immunotherapy.

A method of reducing cancer cell growth, a method of increasing sensitivity of cancer cells to CTL mediated killing, and a method of increasing sensitivity of cancer cells to NK mediated killing are provided. The methods comprise treating cancer cells with a combination of a HDAC inhibitor and immunotherapy.

An oncolytic adenovirus co-expressing interleukin (IL-12) and shVEGF and a composition for enhancing an anticancer effect are disclosed. The inventors confirmed that, when VEGF suppression and IL-12 expression are co-expressed in immunocompetent murine melanoma or kidney cancer models, an immune function is restored and an anticancer effect is improved. Particularly, it has been revealed that such an improved anticancer effect is associated with an increase in anticancer immunity, an increase in Thl cytokines and prevention of tumor-induced thymic atrophy, and therefore the applicability of a gene delivery system co-expressing IL-12 and shVEGF to cancer gene therapy was identified for the first time.