Highly efficient selection of phage antibodies mediated by display of antigen as Lpp-OmpA' fusions on live bacteria

Highly efficient selection of phage antibodies mediated by display of antigen as Lpp-OmpA' fusions on live bacteria

Delayed infectivity panning (DIP) is a novel approach for the in vivo isolation of interacting protein pairs. DIP combines phage display and cell surface display of polypeptides as follows: an antigen is displayed in many copies on the surface of F(+) Escherichia coli cells by fusing it to a Lpp-Omp...

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Bibliographic Details
Published in:Journal of molecular biology Vol. 301; no. 4; pp. 893 - 904
Main Authors: Benhar, I, Azriel, R, Nahary, L, Shaky, S, Berdichevsky, Y, Tamarkin, A, Wels, W
Format: Journal Article
Language:English
Published: England 25-08-2000
Subjects:
Antibodies - genetics
Antibodies - immunology
Antibody Specificity - immunology
Antigen-Antibody Reactions - immunology
Antigens - genetics
Antigens - immunology
Bacterial Outer Membrane Proteins - genetics
Bacterial Outer Membrane Proteins - immunology
Bacteriophages - genetics
Bacteriophages - immunology
Bacteriophages - physiology
Carrier Proteins - genetics
Carrier Proteins - immunology
Cloning, Molecular - methods
Escherichia coli
Escherichia coli - genetics
Escherichia coli - immunology
Escherichia coli - physiology
Escherichia coli - virology
Escherichia coli Proteins
Fimbriae, Bacterial - genetics
Fimbriae, Bacterial - physiology
Humans
Immunoglobulin Variable Region - genetics
Immunoglobulin Variable Region - immunology
Lipoproteins
Peptide Library
Protein Binding
Receptor, ErbB-2 - genetics
Receptor, ErbB-2 - immunology
Receptors, Interleukin-2 - genetics
Receptors, Interleukin-2 - immunology
Recombinant Fusion Proteins - genetics
Recombinant Fusion Proteins - immunology
Sensitivity and Specificity
Temperature
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Summary:Delayed infectivity panning (DIP) is a novel approach for the in vivo isolation of interacting protein pairs. DIP combines phage display and cell surface display of polypeptides as follows: an antigen is displayed in many copies on the surface of F(+) Escherichia coli cells by fusing it to a Lpp-OmpA' hybrid. To prevent premature, non-specific infection by phage, the cells are rendered functionally F(-) by growth at 16 degrees C. The antigen-displaying cells are used to capture antibody-displaying phage by virtue of the antibody-antigen interaction. Following removal of unbound phage, infection of the cells by bound phage is initiated by raising the temperature to 37 degrees C that facilitates F pilus expression. The phage then dissociate from the antigen and infect the bacteria through the F pilus. Using specific scFv antibodies and the human ErbB2 proto-oncogene and IL2-Ralpha chain as model antibody-antigen pairs, we demonstrate enrichment of those phage that display a specific antibody over phage that display an irrelevant antibody of over 1,000,000 in a single DIP cycle. We further show the successful isolation of anti-toxin, anti-receptor, anti-enzyme and anti-peptide antibodies from several immune phage libraries, a shuffled library and a large synthetic human library. The effectiveness of DIP makes it suitable for the isolation of rare clones present in large libraries. Since DIP can be applied for most of the phage libraries already existing, it could be a powerful tool for the rapid isolation and characterization of binders in numerous protein-protein interactions.
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ISSN:0022-2836
DOI:10.1006/jmbi.2000.4021