Polynucleotides encoding hepatitis B virus (HBV) surface antigens, and related combinations are described. Also described are vectors, such as DNA plasmids or viral vectors, expressing the HBV surface antigens, and immunogenic compositions containing the expression vectors. Methods of inducing an immune response against HBV or treating an HBV-induced disease, particularly in individuals having chronic HBV infection, using the immunogenic compositions are also described.

Provided herein are non-naturally occurring variants of the hepatitis B virus (HBV) Core protein, the HBV polymerase N-terminal domain, and the HBV polymerase C-terminal domain, as well as immunogenic fragments thereof. Fusion proteins comprising the HBV variants fused to a herpes simplex virus (HSV) glycoprotein (gD) sequence, as well as methods of using the fusion proteins, are also provided.

Provided are HBV immunogenic polypeptides, polynucleotides encoding such polypeptides, vectors expressing such immunogenic polypeptides for use in eliciting an immune response against HBV; pharmaceutical and immunogenic compositions and kits comprising such polypeptides, polynucleotides or vectors, and methods of use in treating and/or preventing HBV.

A pharmaceutical composition comprising: i) a herpes gE protein, an active fragment of the protein, a variant of the protein, or a mixture of at least two of them; ii) an immunostimulatory composition comprising a saponin and a CpG oligodeoxynucleotide, or consisting of an adjuvant comprising a saponin and a CpG oligodeoxynucleotide. Use of the pharmaceutical composition in the preparation of a medicament for preventing and/or treating a varicella-zoster virus infection and/or a varicella-zoster virus mediated disease. The pharmaceutical composition achieves an unexpected technical effect and can mediate a stronger immune response.

Self-replicating RNA molecules encoding hepatitis B virus (HBV) vaccines are described. Methods of inducing an immune response against HBV or treating an HBV-induced disease, particularly in individuals having chronic HBV infection, using the disclosed self-replicating RNA molecules are also described. Kits comprising the disclosed self-replicating RNA molecules are also described.

The present disclosure provides Multimeric Antigen Presenting Polypeptides (MAPPs) for the presentation of antigens in the context of a class I MHC receptor. The present disclosure provides nucleic acids comprising nucleotide sequences encoding those MAPPs, as well as cells genetically modified with the nucleic acids. MAPPs of the present disclosure are useful for selectively modulating activity of T cells having T cell receptors that recognize the antigens. Thus, the present disclosure provides compositions and methods for modulating the activity of T cells, as well as compositions and methods for treating persons who have diseases and/or disorders including cancers, autoimmune diseases and/or allergies.

The present disclosure provides methods for preparing vesicles. In some embodiments, the methods involve providing a molten mixture of vesicle forming lipids and then adding the molten mixture to an aqueous solution comprising an antigen such that antigen-containing vesicles are formed. In other embodiments, the methods involve providing a lyophilized lipid product and rehydrating the lyophilized lipid product with an aqueous solution comprising an antigen such that antigen-containing vesicles are formed. The lyophilized lipid product is prepared by melting vesicle-forming lipids to produce a molten lipid mixture and then lyophilizing the molten lipid mixture. The present disclosure also provides antigen-containing vesicle formulations prepared using these methods. The present disclosure also provides kits that include a lyophilized lipid product in a first container and an aqueous solution comprising an antigen in a second container.

The present invention relates to a polypeptide comprising at least three peptide fragments consisting of 10 to 50 consecutive amino acid residues of at least one wild-type allergen fused to the N- and C-terminus of a surface polypeptide of a virus of the hepadnaviridae family or at least one fragment of said surface polypeptide.

Capsular saccharides derived from serogroups W135 and Y of Neisseria meningitidis have altered levels of O-acetylation at the 7 and 9 positions of their sialic acid residues, and can be used to make immunogenic compositions. Relative to unmodified native saccharides, derivatives of the invention are preferentially selected during conjugation to carrier proteins, and conjugates of the derivatives show improved immunogenicity compared to native polysaccharides.

The present invention relates to an epitope specific to hepatitis B virus surface antigen and a binding molecule binding to the same for neutralizing hepatitis B virus. Since the epitope provided by the present invention is produced by forming a three-dimensional structure and does not comprise a determinant, by which escape mutation is induced against an administration of existing vaccines or HBIg, a composition comprising an antibody biding to the epitope or a vaccine composition comprising the epitope has a very low possibility of causing a decrease in efficacy due to escape mutation. Therefore, such an antibody or vaccine composition can be very effectively used in prevention and/or treatment of HBV.