A vaccine delivery method is presented that includes a composition including as one component a slurry matrix that is a liquid at room temperature and a gel at physiological pH, physiological salt concentrations and/or physiological temperatures and as a second component one or more antigens. Also included are methods of inducing an immune response in a subject and vaccinating a subject by administering such compositions.

A pharmaceutical composition comprising at least two peptides of from 15 to 60 amino acids in length, selected from peptides comprising a sequence of at least 15 contiguous amino acids of one of the sequences shown in SEQ ID NOs: 1 to 4 or of a sequence having at least 80% identity to one of the sequences shown in SEQ ID NOs: to 4, wherein each peptide comprises at least one CD8+ T-cell epitope and/or at least one CD4+ T-cell epitope and wherein each peptide elicits a response in peripheral blood mononuclear cells (PBMC) from at least one chronically infected HBV individual in an 10 in vitroassay.

The present invention relates to peptides and their ability to identify and bind to T cells specific for HBV-infected hepa-tocytes. In an first aspect of the invention, there is provided a peptide comprising an amino sequence selected from the group consisting of STLPETAVVRR, STLPETAVVR, STLPETTVVRR, STLPETTVIRR, STPPETTVVRR, STLPETTVVGR and STIPETTVVRR, wherein the peptide is derived from Hepatitis B virus core169 and is capable of binding HLA-A*1101 and when bound to HLA-A*1101 s capable of identifying T cells specific for Hepatitis B virus. In a second aspect of the invention, there is provided A T cell expressing a T cell receptor (TCR) molecule, wherein the TCR molecule comprises an amino acid sequence selected from the group comprising: CASGDSNSPLHF, CASSGGQIVYEQYF, CSARGGRGGDYTF and CASSQDWTEAFF, the T cell receptor is able to bind to a pep-tide according to the first aspect of the invention.

There is provided a method of treating chronic hepatitis B infection (CHB) and/or chronic hepatitis D infection (CHD) in a human, comprising the steps of: a) administering to the human a composition comprising an antisense oligonucleotide (ASO) 10 to 30 nucleosides in length, targeted to a HBV nucleic acid (an HBV ASO); b) administering to the human a composition comprising a replication-defective chimpanzee adenoviral (ChAd) vector comprising a polynucleotide encoding a hepatitis B surface antigen (HBs) and a nucleic acid encoding a hepatitis B virus core antigen (HBc); c) administering to the human a composition comprising a Modified Vaccinia Virus Ankara (MVA) vector comprising a polynucleotide encoding a hepatitis B surface antigen (HBs) and a nucleic acid encoding a hepatitis B virus core antigen (HBc); and d) administering to the human a composition comprising a recombinant hepatitis B surface antigen (HBs), recombinant hepatitis B virus core antigen (HBc) and an adjuvant.

Provided herein are engineered hepatitis B virus (HBV) molecular vaccine constructs. Vaccine constructs can also include ligand-inducible engineered gene switch systems for modulating expression of heterologous genes, such as a cytokines, in host cells.

The present disclosure provides compositions and methods useful for inducing a The cell response in a subject suffering from Hepatitis B. As described herein, the compositions of the disclosure comprise HBsAg having S, Pre-S1 and Pre-S2 proteins and an aluminum phosphate adjuvant. In a preferred embodiment, the immunogenic composition comprises at least 20 μg/ml of HBsAg antigen and the amount of non-adsorbed antigen is at least 30%.

Disclosed herein are immunogenic compositions or product combinations of engineered hepatitis B and hepatitis D nucleic acids, genes, peptides, or proteins that can be used to illicit an immune response against a hepatitis B and/or hepatitis D infection. Also disclosed are methods of using the immunogenic compositions or product combinations in subjects to generate immune responses against HBV and/or HDV by administering the compositions or combinations with a nucleic acid prime and polypeptide boost approach.

An aluminum nanoparticle adjuvant carrier system with stabilizing surface coatings that can efficiently deliver protein or nucleic acid antigen payloads to naive, resident APCs is disclosed.

The present invention provides a virus-like particle comprising several or more types of HBs-L antigen proteins or a virus-like particle composition comprising a combination of the virus-like particles, for the purpose of provision of an antigen that triggers an immune reaction against HBV of various genotypes.

An aqueous composition having increased protein stability is obtained by: a. determining a pH at which the protein has stability at the desired temperature; b. adding to the composition at least one displacement buffer wherein the displacement buffer has a pK.sub.a that is at least 1 unit greater or less than the pH of step (a); and c. adjusting the pH of the composition to the pH of step (a); wherein the aqueous composition does not comprise a conventional buffer at a concentration greater than about 2 mM and wherein the conventional buffer has a pK.sub.a that is within 1 unit of the pH of step (a).