1. Universal Influenza B Vaccine Based on the Maturational Cleavage Site of the Hemagglutinin Precursor
- Author
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Emily Wen, Roxana Ionescu, Jiang Fan, Antonello Pessi, Melanie Horton, Colleen E. Price, Hong Chang Song, John W. Shiver, Marc D. Wenger, Elisabetta Bianchi, Gennaro Ciliberto, Daniel C. Freed, Tong-Ming Fu, Marco Finotto, Michael Chastain, Li Shi, Xiaoping Liang, Riccardo Cortese, Walter Manger, Emilio A. Emini, and Paolo Ingallinella
- Subjects
Models, Molecular ,Influenza vaccine ,Molecular Sequence Data ,Immunology ,Population ,Hemagglutinin Glycoproteins, Influenza Virus ,Biology ,Antibodies, Viral ,medicine.disease_cause ,Microbiology ,Antigenic drift ,Virus ,Mice ,Antigen ,Virology ,Vaccines and Antiviral Agents ,Influenza, Human ,Influenza A virus ,medicine ,Animals ,Humans ,Amino Acid Sequence ,Protein Precursors ,Original antigenic sin ,education ,Mice, Inbred BALB C ,education.field_of_study ,Vaccines, Conjugate ,Antigenic shift ,Influenza B virus ,Influenza Vaccines ,Drug Design ,Insect Science ,Peptides - Abstract
Conventional influenza vaccines can prevent infection, but their efficacy depends on the degree of antigenic “match” between the strains used for vaccine preparation and those circulating in the population. A universal influenza vaccine based on invariant regions of the virus, able to provide broadly cross-reactive protection, without requiring continuous manufacturing update, would solve a major medical need. Since the temporal and geographical dominance of the influenza virus type and/or subtype (A/H3, A/H1, or B) cannot yet be predicted, a universal vaccine, like the vaccines currently in use, should include both type A and type B influenza virus components. However, while encouraging preclinical data are available for influenza A virus, no candidate universal vaccine is available for influenza B virus. We show here that a peptide conjugate vaccine, based on the highly conserved maturational cleavage site of the HA 0 precursor of the influenza B virus hemagglutinin, can elicit a protective immune response against lethal challenge with viruses belonging to either one of the representative, non-antigenically cross-reactive influenza B virus lineages. We demonstrate that protection by the HA 0 vaccine is mediated by antibodies, probably through effector mechanisms, and that a major part of the protective response targets the most conserved region of HA 0 , the P1 residue of the scissile bond and the fusion peptide domain. In addition, we present preliminary evidence that the approach can be extended to influenza A virus, although the equivalent HA 0 conjugate is not as efficacious as for influenza B virus.
- Published
- 2005
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