A recombinant H7 hemagglutinin derived from Chinese hamster ovary (CHO) cell. The recombinant H7 hemagglutinin includes a H7 hemagglutinin domain, a GCN4-pII trimerization motif, and a His-tag. The recombinant H7 hemagglutinin can be prepared as a protective vaccine composition with a pharmaceutically acceptable adjuvant. H7 hemagglutinin specific antibodies are elicited, and protection against H7N9 influenza virus is provided.

The present invention relates to a multivalent live influenza vaccine platform using a recombinant adenovirus. The present invention is a live attenuated vaccine platform using a recombinant virus and it is easy to inoculate because it is infected with the respiratory tract like influenza virus and exhibits a vaccine action and it is a multivalent vaccine which combines two types into one and it is a highly novel vaccine that does not need to mix viruses compared to vaccines using multiple combinations of one vaccine. The present invention is the first vaccine in which a gene obtained by fusion of two influenza antigen genes into one gene is incorporated into a recombinant virus. Instead of using the entire HA gene of influenza, but using a structurally independent HA1 gene, which is about half of the total HA gene, several types of HA genes could be fused into one. When the recombinant virus was inoculated into mice by nasal inhalation, it was confirmed that it is an effective vaccine in which the vaccine effect is induced by two inoculations, and the vaccine platform of the present invention is expected to be useful for the development of a vaccine for human influenza infection.

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 relates to an influenza virus surface protein-derived recombinant hemagglutinin (HA) protein forming a trimer and use thereof, and more specifically to a recombinant vector for producing an influenza virus surface protein-derived HA protein forming a trimer, a transformant transformed by the recombinant vector, a method for producing an influenza virus surface protein-derived HA protein forming a trimer using the recombinant vector, an influenza virus surface protein-derived HA protein produced by the method, and the use thereof in preventing, ameliorating or treating influenza virus-infected disease.

The disclosure provides methods for generating an optimized nucleotide sequence encoding an engineered influenza structural protein and the optimized nucleotide sequences obtained therefrom. The optimized nucleotide sequences can be used in a reverse genetics system to facilitate the rescue of infectious influenza virus containing the engineered structural proteins and/or enhance viral titers. Also provided are methods of preparing an influenza vaccine composition using the optimized nucleotide sequences, as well as methods of inducing an immune response using the influenza vaccine composition.

The invention provides various reverse genetics systems for producing segmented RNA viruses, wherein the systems do not require bacteria for propagation of all of their expression constructs.

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.

The present invention relates to virus-like particles of plant virus Cucumber Mosaic Virus (CMV), and in particular to modified VLPs of CMV comprising Th cell epitopes, in particular universal Th cell epitopes. Furthermore, these modified VLPs serve as, preferably, vaccine platform, for generating immune responses, in particular antibody responses, against antigens linked to said modified VLPs. The presence of the Th cell epitopes, in particular universal Th cell epitopes, led to a further increase in the generated immune response.

The present disclosure generally relates to viral-based expression systems suitable for the production of molecule of interests in recombinant host cells. The disclosure particularly relates to nucleic acid constructs, such as expression vectors, containing a modified arterivirus genome or replicon RNA in which at least some of its original viral sequence has been deleted. Also included in the disclosure are viral-based expression vectors including one or more expression cassettes encoding heterologous polypeptides. In some embodiments, the expression cassettes are configured and positioned at defined locations on the viral genome so as to enable expression of the heterologous polypeptides in a tunable manner.

The present invention provides, among other things, modified recombinant HA polypeptides with broadened immunogenic profile that extends coverage to antigenically distinct influenza strains and methods of making and using the same.