The present invention relates to monovalent influenza vaccine formulations and vaccination regimes for immunising against influenza disease, their use in medicine, in particular their use in augmenting immune responses to various antigens, and to methods of preparation. In particular, the invention relates to monovalent influenza immunogenic compositions comprising an influenza antigen or antigenic preparation thereof from an influenza virus strain being associated with a pandemic outbreak or having the potential to be associated with a pandemic outbreak, in combination with an oil-in-water emulsion adjuvant comprising a metabolisable oil, a sterol and/or a tocopherol such as alpha tocopherol, and an emulsifying agent.

An RSV virus-like particle which includes a chimeric protein that includes a core consisting of an influenza M1 protein, an RSV-derived preF protein, an RSV-derived G protein or part of G protein displayed on the surface of the core, can exhibit excellent effects in terms of inhibiting RSV virus infection and inhibiting the inflammatory response of the lungs.

The invention relates to a method for producing a ribonucleic acid (RNA) molecule composition comprising n different RNA molecule species, the method comprising a step of RNA in vitro transcription of a mixture of m different deoxyribonucleic acid (DNA) molecule species in a single reaction vessel in parallel, i.e. simultaneously, and a step of obtaining the RNA molecule composition. Also provided is the RNA composition provided by the inventive method and a pharmaceutical composition comprising the same as well as a pharmaceutical container. Moreover, the invention provides the RNA composition and the pharmaceutical composition for use as medicament.

Methods of preparing influenza viruses having altered immunodominant epitopes in HA, e.g., having one or more residues in one or more of antigenic sites A-E in HA altered, and viral vectors, e.g., influenza virus VLPs or non-influenza viruses or VLPs thereof expressing or having influenza HAs with altered immunogenicity as a result of altered immunodominant epitopes therein are provided.

An isolated recombinant influenza virus is provided having PA, PB1, PB2, NP, NS, M, NA and HA viral segments, wherein the PB1 viral segment encodes a PB1 with a residue other than isoleucine at position 711 or the M viral segment encodes a M1 with a residue other than methionine at position 128, wherein the recombinant influenza virus has enhanced replication relative to a corresponding influenza virus having a PB1 viral segment that encodes a PB1 with an isoleucine at position 711 or having a M viral segment that encodes a M1 with methionine at position 128, as well as methods of making and using the virus.

This disclosure provides compositions, pharmaceutical preparations, and uses of polyribonucleotides encoding one or more immunogenic polypeptides. In particular, this disclosure features circular polyribonucleotide encoding one or more immunogenic polypeptides.

Vaccines that elicit broadly protective anti-influenza antibodies. Some vaccines comprise nanoparticles that display HA trimers from influenza virus on their surface. The nanoparticles are fusion proteins comprising a monomeric subunit (e.g., ferritin) joined to the stem region of an influenza HA protein. The fusion proteins self-assemble to form the HA-displaying nanoparticles. The vaccines comprise only the stem region of an influenza HA protein joined to a trimerization domain. Also provided are fusion proteins, and nucleic acid molecules encoding such proteins, and assays using nanoparticles of the invention to detect anti-influenza antibodies.

The present invention provides screening methods which may be regarded as in vitro or ex vivo methods of interrogating the immune system to understand what viral antigens are “seen” and responded to by T cells of the immune systems during viral infection. The screening methods further link in vitro or ex vivo responses to progression of infection in subjects.

Immunogenic compositions comprising partially glycosylated viral glycoproteins for use as vaccines against viruses are provided. Vaccines formulated using mono-, di-, or tri-glycosylated viral surface glycoproteins and polypeptides provide potent and broad protection against viruses, even across strains. Pharmaceutical compositions comprising monoglycosylated hemagglutinin polypeptides and vaccines generated therefrom and methods of their use for prophylaxis or treatment of viral infections are disclosed. Methods and compositions are disclosed for influenza virus HA, NA and M2, RSV proteins F, G and SH, Dengue virus glycoproteins M or E, hepatitis C virus glycoprotein E1 or E2 and HIV glycoproteins gp120 and gp41.

The present invention provides vaccine or immunogenic compositions comprising novel antigens derived from the equine strain of influenza H3N8. These proteins and specific immunogenic domains are effective as primary universal influenza antigens. The disclosed vaccines or immunogenic compositions are highly effective in inducing HA specific antibodies reactive to different influenza viruses, mucosal and systemic immune responses, and cross-protection regardless of influenza virus subtypes. In some embodiments, the vaccine is cross-protective against two or more (e.g., 2, 3, 4, 5, or 6) subtypes of influenza with or without the use of an adjuvant.