Design and expression of a stable bispecific scFv dimer with affinity for both glycophorin and N9 neuraminidase

We have designed and produced a stable bispecific scFv dimer (bisFv) by non-covalent association of two hybrid V H-V L pairs derived from an anti-neuraminidase antibody (NC10) and an anti-glycophorin antibody (1C3). The bisFv dimer was demonstrated to have binding activity to the two respective targ...

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Bibliographic Details
Published in:Molecular immunology 1996-12, Vol.33 (17), p.1301-1312
Main Authors: Atwell, John L., Pearce, Lesley A., Lah, Maria, Clem Gruen, L., Kortt, Alexander A., Hudson, Peter J.
Format: Article
Language:English
Subjects:
Antibodies, Bispecific - biosynthesis
Antibodies, Bispecific - chemistry
Antibodies, Bispecific - metabolism
Antibody Affinity
antibody fragments
Antigens - analysis
Antigens - immunology
BIAcore
Binding Sites, Antibody
Biosensing Techniques
bisFv
bispecific single chain antibody dimer
Chromatography, Gel
diabody
Dimerization
glycophorin
Glycophorin - immunology
Glycophorin - metabolism
Hemagglutination Tests
Humans
Immunoglobulin Fragments - biosynthesis
Immunoglobulin Fragments - chemistry
Immunoglobulin Fragments - isolation & purification
Immunoglobulin Variable Region - biosynthesis
Immunoglobulin Variable Region - chemistry
Immunoglobulin Variable Region - isolation & purification
neuraminidase
Neuraminidase - immunology
Neuraminidase - metabolism
Protein Engineering
scFv
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Summary:We have designed and produced a stable bispecific scFv dimer (bisFv) by non-covalent association of two hybrid V H-V L pairs derived from an anti-neuraminidase antibody (NC10) and an anti-glycophorin antibody (1C3). The bisFv dimer was demonstrated to have binding activity to the two respective target antigens and was evaluated as a reagent for rapid whole blood agglutination assays. The bisFv was expressed in the periplasm of Escherichia coli, from a secretion vector which comprised two cistrons in tandem under the control of a single lac promoter, inducible with IPTG. Each cistron encoded one of the hybrid V H-V L pairs, with V domains separated by a linker region encoding the five amino acids, Gly 4Ser. The short linker region was designed to prevent association of V H and V L regions of the same molecule and favour the formation of dimers. The protein synthesized from each hydrid scFv cistron was directed to the E. coli periplasm by the inclusion of distinctive signal secretion sequences preceding each hybrid gene; from pel B of Erwinia cartovora and from gene III of fd phage. The bisFv was affinity-purified from culture supernatants via the C-terminal tag epitope FLAG ® and was shown, by FPLC on a Superose 6 column, to be consistent in size with that of a scFv dimer. The bisFv was stable for more than 4 months at 4°C and was shown by BIAcore™ analysis to bind to either target antigen, human glycophorin, or tern N9 neuraminidase. Simultaneous binding to both target antigens was demonstrated when a pre-formed bisFv-neuraminidase complex was shown to bind to immobilized glycophorin. In whole blood agglutination assays, the bisFv dimer was able to agglutinate red blood cells when crosslinked with an anti-idiotype antibody (3-2G12) binding to the NC10 combining site, but no agglutination occurred on binding the antigen neuraminidase. These results are a function of the topology of the epitopes on neuraminidase and have implications for the use of relatively rigid bifunctional molecules (as bisFv dimers) to cross link two large membrane-anchored moieties, in this case, red blood cell glycophorin and neuraminidase, an M r 190 000 tetramer.
ISSN:0161-5890
1872-9142
DOI:10.1016/S0161-5890(96)00097-1