A pharmaceutical composition comprising a nucleic acid molecule encoding a variable domain deleted E2 polypeptide of HCV (e.g., E2Delta123). The composition is suitable for use, for use, or when used, in the treatment or prevention of HCV infection. The nucleic acid molecule may be DNA or RNA or a modified or synthetic form, or contained within a plasmid, a viral or non-viral vector for vaccination, a polynucleotide expression cassette, or a cell for vector propagation. Methods of administration as prime and boost vaccinations are also provided.

Disclosed herein are alphavirus vectors that include neoantigen-encoding nucleic acid sequences derived from a tumor of a subject. Also disclosed are nucleotides, cells, and methods associated with the vectors including their use as vaccines.

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Disclosed herein are compositions and methods for determining the structure of a membrane protein. An epitope from a membrane-proximal external region (MPER) from a viral envelope protein can be grafted on to a variety of diverse membrane proteins to allow for binding structurally characterized antibody fragments, which can aid structural studies. t,25

The present invention can induce stronger cellular immunity to hepatitis C and provide a treatment means and a prevention means that are effective in completely eliminating the hepatitis C virus (HCV). Provided is a pharmaceutical composition for the treatment and/or prevention of hepatitis C, said composition comprising a recombinant vaccinia virus (a) and a recombinant vector (b) and characterized in that after one of the recombinant vaccinia virus (a) and the recombinant vector (b) is administered for initial immunity, the other is administered for additional immunity. The recombinant vaccinia virus (a) contains an expression promoter and all or a portion of the cDNA of the HCV genome. The recombinant vector (b) contains an expression promoter and all or a portion of the cDNA of the HCV (where the cDNA contained in the recombinant vector (b) has a different base sequence than that included in the recombinant vaccinia virus (a)).

Disclosed are modified HCV E2 glycoproteins. Disclosed are modified HCV E2 glycoproteins comprising an antigenic domain D, wherein the modified HCV E2 glycoproteins comprise one or more amino acid alterations in the antigenic domain D, wherein at least one amino acid alteration is a proline substitution. In some aspects, the proline substitution occurs at position 445 based on the amino acid numbering of HCV strain H77. Disclosed are modified HCV E2 glycoproteins comprising an antigenic domain A, wherein the antigenic domain A comprises an N-glycan sequon substitution. In some aspects, the N-glycan sequon substitution results in an Asn-Xaa-Ser or Asn-Xaa-Thr substitution, wherein Xaa is any amino acid except proline. Also disclosed are methods of using the disclosed modified HCV E2 glycoproteins, such as methods of inducing an immune response in a subject, methods of treating a subject, and methods of increasing antigenicity of HCV E2 glycoprotein.

The present invention discloses methods and compositions for modulating the quality of an immune response to a target antigen in a mammal, which response results from the expression of a polynucleotide that encodes at least a portion of the target antigen, wherein the quality is modulated by replacing at least one codon of the polynucleotide with a synonymous codon that has a higher or lower preference of usage by the mammal to confer the immune response than the codon it replaces.

The present application relates to novel administration regimens for poxviral vectors comprising nucleic acid constructs encoding antigenic proteins and invariant chains. In particular the use of said poxviral vectors for priming or for boosting an immune response is disclosed.

The present invention relates to a technology and method of priming of an immune response using invariant chain linked antigen, when these are used to prime a subsequent booster immunization using any suitable vacci.

Compositions and methods are provided that enable activation of innate immune responses through RIG-I like receptor signaling. The compositions and methods incorporate synthetic nucleic acid pathogen associated molecular patterns (PAMPs) that comprise elements initially characterized in, and derived from, the hepatitis C virus genome.

The present invention relates to methods for obtaining a whole virus vaccine candidate stock. The present invention also relates to an inactivated whole virus vaccine candidate stock that can be used for vaccination purposes as well as development of novel high titer virus, which is the preferred virus for this technique.