Disclosed herein are methods of treating or preventing prostate cancer in a subject, the methods comprising administering to the subject a treatment regimen comprising two or more vaccines comprising a great ape adenovirus serotype 20 (GAd20) virus that, in turn, comprises a nucleotide sequence encoding the amino acid sequence of SEQ ID NO: 1 and one or more vaccines comprising a Modified Vaccinia Ankara (MVA) virus that, in turn, comprises a nucleotide sequence encoding the amino acid sequence of SEQ ID NO: 3 to thereby treat or prevent the prostate cancer.

The present invention provides a genetically recombinant vaccinia virus effective in preventing or treating cancer. Specifically, the present invention provides a vaccinia virus comprising two polynucleotides, a polynucleotide encoding IL-7 and a polynucleotide encoding IL-12; a combination kit of two vaccinia viruses, a vaccinia virus comprising a polynucleotide encoding IL-7 and a vaccinia virus comprising a polynucleotide encoding IL-12; and use of the two vaccinia viruses in combination.

The present invention concerns methods and compositions for the treatment of cancer and cancer cells using intravascular administration of a vaccinia virus. In some embodiments, methods and compositions involve a replicative vaccinia virus that encodes GM-CSF.

The invention encompasses recombinant poxviruses, preferably modified Vaccinia Ankara (MVA) viruses, comprising a Pr13.5 promoter operably linked to a nucleotide sequence encoding an antigen and uses thereof. The invention is drawn to compositions and methods for the induction of strong CD8 T cell and antibody responses to a specific antigen(s) by administering one or more immunizations of the recombinant MVA to a mammal, preferably a human.

Provided are: a recombinant vaccinia virus which is effective for the prevention of the development of a disease by the infection by H7 avian influenza virus and has high safety; and a vaccine against H7 avian influenza virus, which comprises the recombinant vaccinia virus. The recombinant vaccinia virus according to the present invention is a recombinant vaccinia virus having such a structure that an expression promoter and the full length or a part of cDNA encoding hemagglutinin protein of H7 avian influenza virus are contained in the genome for vaccinia virus strain DIs.

The present invention can induce stronger cellular immunity to hepatitis C and provide a treatment means and a prevention means that are effective in completely eliminating the hepatitis C virus (HCV). Provided is a pharmaceutical composition for the treatment and/or prevention of hepatitis C, said composition comprising a recombinant vaccinia virus (a) and a recombinant vector (b) and characterized in that after one of the recombinant vaccinia virus (a) and the recombinant vector (b) is administered for initial immunity, the other is administered for additional immunity. The recombinant vaccinia virus (a) contains an expression promoter and all or a portion of the cDNA of the HCV genome. The recombinant vector (b) contains an expression promoter and all or a portion of the cDNA of the HCV (where the cDNA contained in the recombinant vector (b) has a different base sequence than that included in the recombinant vaccinia virus (a)).

The disclosure relates to nucleic acids mosaic clade M HIV-1 Env polypeptides and to compositions and vectors comprising same. The nucleic acids are suitable for use in inducing an immune response to HIV-1 in a human.

The present disclosure provides, in part, a priming and boosting vector-based platform to develop vaccines against pathogens that is tailored to elicit a broad T cell response targeting conserved viral epitopes. The universal vaccines are prepared against an immunogen of an infectious pathogenic organism selected from a virus, a bacteria, a fungus or a protozoan comprising at least one ribonucleic acid (RNA) polynucleotide comprising an open reading frame encoding at least one polypeptide antigen or an immunogenic fragment thereof, wherein the polypeptide antigen, or the immunogenic fragment thereof, comprises a conserved internal protein that is enriched in CD8+ T cell recognition antigens. The effectiveness of the priming and boosting platform is tested in a humanized mouse model comprising a fully functional human immune system.

There is disclosed systems and methods for non-invasive delivery of an agent to biological tissues. Delivery of the agent to the tissues can be by one or more modalities. In some embodiments the systems and methods use agent carrier body including a tissue contacting surface for non-invasively engaging tissues under treatment. The tissue contacting surface can be at least partly defined by a plurality of protrusions that are in fluid communication with one or more reservoirs forming part of the agent carrier body. The protrusions may extend outward from an inside of a void and terminate at said tissue contacting surface.

This disclosure provides a modified oncolytic virus that can contain modifications in the viral genome and exogenous nucleic acids coding for proteins. The modified oncolytic virus can be utilized as a platform vector for systemic delivery.