Antibodies and Engineered Antibody Fragments against M13 Filamentous Phage to Facilitate Phage-Display-Based Molecular Breeding

Antibodies are essential for characterizing various analytes. “Molecular-breeding” approaches enable rapid generation of antibody mutants with desirable antigen-binding abilities. Typically, prototype antibodies are converted to single-chain Fv fragments (scFvs), and random mutations are genetically...

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Veröffentlicht in:Biological & pharmaceutical bulletin 2018/07/01, Vol.41(7), pp.1062-1070
Hauptverfasser: Kiguchi, Yuki, Oyama, Hiroyuki, Morita, Izumi, Katayama, Emiko, Fujita, Masatoshi, Narasaki, Mai, Yokoyama, Aiko, Kobayashi, Norihiro
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Sprache:eng
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Zusammenfassung:Antibodies are essential for characterizing various analytes. “Molecular-breeding” approaches enable rapid generation of antibody mutants with desirable antigen-binding abilities. Typically, prototype antibodies are converted to single-chain Fv fragments (scFvs), and random mutations are genetically introduced to construct molecular libraries with a vast diversity. Improved species therein are then isolated via phage display genotype−phenotype-connecting systems to separate them from a large excess of nonspecific scFvs. During these experiments, counting of phage particles is routinely performed. However, current methods depend on the time-consuming overnight cultivation of phage-infected bacteria on agar plates to estimate phage numbers as plaque-forming units (pfu) or colony-forming units, the results of which fluctuate considerably. Immunochemical systems capturing phage particles should be a more convenient and robust alternative. We therefore generated monoclonal antibodies against M13 filamentous phage, which is commonly used for phage display, by employing hybridoma technology. Combinatorial use of two such antibodies (Ab-M13#53 and #71; both specific to the major coat protein pVIII) enabled development of a sandwich enzyme-linked immunosorbent assay (ELISA) that could measure ca. 107−1010 phage pfu/mL. To construct a more convenient system, Ab-M13#71 was converted to the scFv form and further fused with an alkaline phosphatase variant. Using this fusion protein, the sandwich ELISA enabled rapid (within 90 min) and reliable phage counting without reducing the sensitivity, and the results were reasonably consistent with those of infection-based methods. The present anti-phage antibodies and scFvs might also enable visualization of individual phage particles by combining them with sensitive fluorescent staining.
ISSN:0918-6158
1347-5215
DOI:10.1248/bpb.b18-00162