Antibodies Capable of Releasing Diphtheria Toxin in Response to the Low pH Found in Endosomes

Diphtheria toxin (DT) undergoes a rapid conformational change in response to the acidity encountered within endosomes. That transition is integral to the passage of its catalytic domain into the cytosol and thus its lethal action. The importance of this translocation mechanism led us to develop seve...

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Bibliographic Details
Published in:The Journal of biological chemistry 1997-10, Vol.272 (44), p.27618-27622
Main Authors: Raso, Vic, Brown, Michelle, McGrath, John, Liu, Sen, Stafford, Walter F.
Format: Article
Language:English
Subjects:
Antibodies, Monoclonal - immunology
Binding Sites, Antibody
Diphtheria Toxin - immunology
Diphtheria Toxin - metabolism
Endosomes - metabolism
Hydrogen-Ion Concentration
Iodine Radioisotopes
Protein Conformation
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Summary:Diphtheria toxin (DT) undergoes a rapid conformational change in response to the acidity encountered within endosomes. That transition is integral to the passage of its catalytic domain into the cytosol and thus its lethal action. The importance of this translocation mechanism led us to develop several monoclonal antibodies that bind DT at neutral pH but spontaneously release the toxin when critical epitopes denature or unfold upon lowering the pH to 4.5–5.5. Hybridomas were selected using a microtiter plate assay that measured the pH-dependent detachment of antibody from immobilized toxin. The acid-sensitive epitopes involved were on the catalytic, transmembrane, and receptor binding domains of DT. This pH-induced disruption of the binding of toxin to these monoclonal antibodies was analyzed by sedimentation velocity ultracentrifugation. Antibody combining sites were fully occupied at pH 5.5, partially bound at pH 5.0, and totally empty at pH 4.5. It was estimated that theKa for antibody-toxin binding was ∼1000-fold lower at pH 5.0 than at neutral pH. This novel acid-triggered release mechanism provides a basis for delivery of antibody-bound toxin into cells accompanied by its immediate dissociation as the complex enters acidic vesicles.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.272.44.27618