A polyvalent multiepitope protein cross-protects against Vibrio cholerae infection in rabbit colonization and passive protection models

A polyvalent multiepitope protein cross-protects against Vibrio cholerae infection in rabbit colonization and passive protection models

Using epitope- and structure-based multiepitope fusion antigen vaccinology platform, we constructed a polyvalent protein immunogen that presents antigenic domains (epitopes) of toxin-coregulated pilus A, cholera toxin (CT), sialidase, hemolysin A, flagellins (B, C, and D), and peptides mimicking lip...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 119; no. 50; p. e2202938119
Main Authors: Upadhyay, Ipshita, Li, Siqi, Ptacek, Galen, Seo, Hyesuk, Sack, David A, Zhang, Weiping
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 13-12-2022
Subjects:
Animals
Antibodies
Antigens
Bacteria
Biological Sciences
Cholera
Cholera - microbiology
Cholera - prevention & control
Cholera Toxin
Colonization
Diarrhea
Diarrhea - prevention & control
Epitopes
Flagellin
Ganglioside GM1
Immunization
Immunogenicity
Infants
Infections
Intestine
Lipopolysaccharides
Mice
Peptides
Proteins
Rabbits
Reduction
Toxins
Vaccine development
Vaccines
Vibrio cholerae
Vibrio cholerae - metabolism
Virulence factors
Waterborne diseases
vaccine
polyvalent
cholera
MEFA
rabbit
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Summary:Using epitope- and structure-based multiepitope fusion antigen vaccinology platform, we constructed a polyvalent protein immunogen that presents antigenic domains (epitopes) of toxin-coregulated pilus A, cholera toxin (CT), sialidase, hemolysin A, flagellins (B, C, and D), and peptides mimicking lipopolysaccharide O-antigen on a flagellin B backbone. Mice and rabbits immunized intramuscularly with this polyvalent protein immunogen developed antibodies to all of the virulence factors targeted by the immunogen except lipopolysaccharide. Mouse and rabbit antibodies exhibited functional activities against CT enterotoxicity, CT binding to GM ganglioside, bacterial motility, and in vitro adherence of O1, O139, and non-O1/non-O139 serogroup strains. When challenged orogastrically with O1 El Tor N16961 or a non-O1/non-O139 strain, rabbits IM immunized with the immunogen showed a 2-log (99%) reduction in colonization of small intestines. Moreover, infant rabbits born to the mother immunized with the protein immunogen acquired antibodies passively and were protected from bacterial intestinal colonization (>2-log reduction), severe diarrhea (100%), and mild diarrhea (88%) after infection with O1 El Tor (N16961), O1 classical (O395), O139 (Bengal), or a non-O1/non-O139 strain. This study demonstrated that this polyvalent cholera protein is broadly immunogenic and cross-protective, and an adult rabbit colonization model and an infant rabbit passive protection model fill a gap in preclinical efficacy assessment in cholera vaccine development.
Bibliography:Edited by David Baker, University of Washington, Seattle, WA; received February 17, 2022; accepted November 9, 2022
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.2202938119