Isolation and chimerization of a highly neutralizing antibody conferring passive protection against lethal Bacillus anthracis infection

Several studies have demonstrated that the passive transfer of protective antigen (PA)-neutralizing antibodies can protect animals against Bacillus anthracis infection. The standard protocol for the isolation of PA-neutralizing monoclonal antibodies is based upon a primary selection of the highest P...

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Bibliographic Details
Published inPloS one Vol. 4; no. 7; p. e6351
Main Authors Rosenfeld, Ronit, Marcus, Hadar, Ben-Arie, Einat, Lachmi, Bat-El, Mechaly, Adva, Reuveny, Shaul, Gat, Orit, Mazor, Ohad, Ordentlich, Arie
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 24.07.2009
Public Library of Science (PLoS)
Subjects
Animals
Anthrax
Anthrax - immunology
Anthrax - microbiology
Anthrax - prevention & control
Antibiotics
Antibodies, Bacterial - genetics
Antibodies, Bacterial - isolation & purification
Antigens
Bacillus anthracis
Bacillus anthracis - immunology
Bacillus anthracis - physiology
Base Sequence
Binders
Biochemistry
Biochemistry/Drug Discovery
Biotechnology/Bioengineering
CHO Cells
Constant region
Cricetinae
Cricetulus
Departments
DNA Primers
Enzyme-Linked Immunosorbent Assay
Genes
Guinea Pigs
Health aspects
Immunoglobulins
Immunology
Infection
Infections
Infectious diseases
Infectious Diseases/Antimicrobials and Drug Resistance
Lethal Dose 50
Monoclonal antibodies
Neutralization
Neutralization Tests
Neutralizing
Polymerase Chain Reaction
Protective antigen
Spores
Spores, Bacterial
Surface Plasmon Resonance
Vaccines
Variable region
United States > US
Israel
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Summary:Several studies have demonstrated that the passive transfer of protective antigen (PA)-neutralizing antibodies can protect animals against Bacillus anthracis infection. The standard protocol for the isolation of PA-neutralizing monoclonal antibodies is based upon a primary selection of the highest PA-binders by ELISA, and usually yields only few candidates antibodies. We demonstrated that by applying a PA-neutralization functionality-based screen as the primary criterion for positive clones, it was possible to isolate more than 100 PA-neutralizing antibodies, some of which exhibited no measurable anti-PA titers in ELISA. Among the large panel of neutralizing antibodies identified, mAb 29 demonstrated the most potent activity, and was therefore chimerized. The variable region genes of the mAb 29 were fused to human constant region genes, to form the chimeric 29 antibody (cAb 29). Guinea pigs were fully protected against infection by 40LD(50)B. anthracis spores following two separate administrations with 10 mg/kg of cAb 29: the first administration was given before the challenge, and a second dose was administered on day 4 following exposure. Moreover, animals that survived the challenge and developed endogenous PA-neutralizing antibodies with neutralizing titers above 100 were fully protected against repeat challenges with 40LD(50) of B. anthracis spores. The data presented here emphasize the importance of toxin neutralization-based screens for the efficient isolation of protective antibodies that were probably overlooked in the standard screening protocol. The protective activity of the chimeric cAb 29 demonstrated in this study suggest that it may serve as an effective immunotherapeutic agent against anthrax.
Bibliography:Conceived and designed the experiments: RR HM EBA AM SR OM AO. Performed the experiments: RR HM EBA BEL AM OG OM. Analyzed the data: RR EBA OM. Wrote the paper: RR OM AO.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0006351