A PCV2 vaccine and a method of vaccinating against PCV2 are provided herein. The PCV2 vaccine includes a PCV2 infectious clone with a re-engineered PCV2 capsid in the backbone thereof, wherein the re-engineered PCV2 capsid includes a modified immunogenic region. The method of vaccinating against PCV2 includes administering the PCV2 vaccine including a PCV2 infectious clone with a re-engineered PCV2 capsid in the backbone thereof to a subject in need thereof.

The invention relates to fusion proteins, and to the use of fusion proteins (or genetic constructs or vectors encoding such fusion proteins) to vaccinate against viral infections. The invention extends to pharmaceutical compositions comprising such fusion proteins or constructs for preventing and treating viral infections, and to methods and uses thereof.

The invention features compositions and methods for the prevention or treatment of one or more strains of Chikungunya virus, as well as other alphavirus-mediated diseases.

The compositions and methods are described for generating an immune response to a tumor associated antigen (TAA) such as MUC-1, survivin, cyclin B1, HBV, or HPV. The compositions and methods described herein relate to a modified vaccinia Ankara (MVA) vector encoding one or more viral antigens for generating a protective immune response to the tumor associated antigen in the subject to which the vector is administered and optionally, boosting the immune response by administering a tumor associated antigen. The compositions and methods of the present invention are useful both prophylactically and therapeutically and may be used to prevent and/or treat neoplasms and associated diseases.

The invention relates to defective interfering viruses and defective interfering virus RNAs that are effective as antiviral agents. The invention also relates to methods for identifying defective interfering virus RNAs that can be used as effective antiviral agents.

The invention is related to a dengue virus or chimeric dengue virus that contains a mutation in the 3′ untranslated region (3′-UTR) comprising a Δ30 mutation that removes the TL-2 homologous structure in each of the dengue virus serotypes 1, 2, 3, and 4, and nucleotides additional to the Δ30 mutation deleted from the 3′-UTR that removes sequence in the 5′ direction as far as the 5′ boundary of the TL-3 homologous structure in each of the dengue serotypes 1, 2, 3, and 4, or a replacement of the 3′-UTR of a dengue virus of a first serotype with the 3′-UTR of a dengue virus of a second serotype, optionally containing the Δ30 mutation and nucleotides additional to the Δ30 mutation deleted from the 3′-UTR; and immunogenic compositions, methods of inducing an immune response, and methods of producing a dengue virus or chimeric dengue virus.

Disclosed herein are recombinant adenoviruses with one or more nucleotide sequences inserted between two viral transcription units, formulations comprising the recombinant adenoviruses, and methods of treatment using the recombinant adenoviruses. In some embodiments, the one or more nucleotide sequences are inserted in an IX-E2 insertion site and/or an L5-E4 insertion site.

CMV vectors that lack active UL128, UL130, UL146 and UL147 proteins that may also comprise one or more microRNA regulatory elements (MRE) that restrict expression of the CMV are provided. Immunization with CMV vectors having the described features allows selection of different CD8+ T cell responses—CD8+ T cells restricted by MHC-Ia, MHC-II, or by MHC-E.

There is described herein a non-replicating Rhabdovirus-derived particle that lacks the ability to spread between cells while having tropism against immortalized cells. The non-replicating Rhabdovirus-derived particle may have cytolytic tropism against immortalized cells. There is also described a non-replicating Rhabdovirus-derived particle that lacks the ability to spread between cells but has innate and/or adaptive immune-stimulating properties.

Described herein are Bovine immunodeficiency virus gag protein (“Bgag”) recombinant virus like particles (“VLPs”) comprising one or more different types of target pathogen proteins. Also described, are compositions comprising the novel Bgag VLPs and the methods of making and using the novel Bgag VLPs.