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.

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.

PD1-CD70 fusion proteins are provided. Accordingly, there is provided a PD1-CD70 fusion protein comprising a single amino acid linker between the PD1 and the CD70. Also there is provided a PD1-CD70 fusion protein, wherein the PD1 amino acid is 123-166 amino acids in length and/or wherein the PD1 amino acid sequence comprises SEQ ID NO: 2 and/or wherein the fusion protein is in a form of at least a homo-trimer. Also provided are polynucleotides and nucleic acid constructs encoding the PD1-CD70 fusion protein, host-cells expressing the PD1-CD70 fusion protein and methods of use thereof.

Systems and methods to increase the efficacy of vaccines that require or are rendered more effective with T cell mediated immunity are described. The systems and methods utilize polynucleotides that genetically modify T cells to express a T cell receptor specific for an administered vaccine antigen.

Systems and methods to increase the efficacy of vaccines that require or are rendered more effective with T cell mediated immunity are described. The systems and methods utilize polynucleotides that genetically modify T cells to express a T cell receptor specific for an administered vaccine antigen.

The present invention provides a nanogel nasal vaccine that induces cell-mediated immunity. The present invention relates to a vaccine preparation comprising a complex of a nanogel, a vaccine antigen, and an adjuvant, wherein the vaccine preparation can efficiently induce the cell-mediated immunity, and can also induce a systemic and mucosal immune response.

The present invention provides a nanogel nasal vaccine that induces cell-mediated immunity. The present invention relates to a vaccine preparation comprising a complex of a nanogel, a vaccine antigen, and an adjuvant, wherein the vaccine preparation can efficiently induce the cell-mediated immunity, and can also induce a systemic and mucosal immune response.

Described herein are compositions and methods for the reducing a risk of contracting a respiratory disease in a subject or reducing a risk of transmitting a respiratory disease from a first subject to a second subject. In some cases, a composition or method described herein can comprise a modulator (e.g., a pattern recognition receptor, such as a STING agonist, for instance cGAMP) In some cases, a composition or method described herein can comprise a liposome, which may be used to encapsulate one or more STING agonists. In some cases, a liposome of a composition or method described herein may comprise one or more antigens attached to, integrated into, or associated with a liposomal membrane of the liposome.

Described herein are compositions and methods for the reducing a risk of contracting a respiratory disease in a subject or reducing a risk of transmitting a respiratory disease from a first subject to a second subject. In some cases, a composition or method described herein can comprise a modulator (e.g., a pattern recognition receptor, such as a STING agonist, for instance cGAMP) In some cases, a composition or method described herein can comprise a liposome, which may be used to encapsulate one or more STING agonists. In some cases, a liposome of a composition or method described herein may comprise one or more antigens attached to, integrated into, or associated with a liposomal membrane of the liposome.

The present invention concerns a method for treating triple-negative breast cancer (TNBC) in an individual, and/or for inducing an immune response to HER2/neu in an individual with a triple-negative breast cancer expressing low levels of HER2/neu, the method comprising administering to the individual: (a) an effective amount of trastuzumab, or derivative thereof; and (b) an effective amount of nelipepimut-S, or variant thereof, optionally with an immunological adjuvant. Preferably, the method includes a preparatory or priming phase comprising a frequency and duration of trastuzumab or trastuzumab derivative administration sufficient to substantially increase the major histocompatibility complex (MHC)-mediated presentation of HER2 peptide fragments to the patient immune system. The invention also includes medicaments and kits for treating TNBC in an individual, and/or for inducing an immune response to HER2/neu in an individual with a TNBC expressing HER2/neu.