1. Production and characterization of anti-human interferon γ receptor antibody fragments that inhibit cytokine binding to the receptor
- Author
-
Ashley Birch, John A. Robinson, Julia Späth, Fiona A. Stuart, Christoph Henke, Stefan Lang, Angela Bridges, University of Zurich, and Robinson, John A
- Subjects
1303 Biochemistry ,medicine.drug_class ,Molecular Sequence Data ,Immunoglobulin Variable Region ,Radioimmunoassay ,610 Medicine & health ,Bioengineering ,Biosensing Techniques ,Complementarity determining region ,Monoclonal antibody ,142-005 142-005 ,Biochemistry ,Epitope ,Epitopes ,Interferon-gamma ,Antigens, CD ,Interferon-gamma receptor ,Interleukin-4 receptor ,1312 Molecular Biology ,medicine ,Humans ,Amino Acid Sequence ,Cytokine binding ,Immunoglobulin Fragments ,Molecular Biology ,Receptors, Interferon ,Common gamma chain ,Base Sequence ,Chemistry ,Antibodies, Monoclonal ,Molecular biology ,Recombinant Proteins ,Interleukin-21 receptor ,570 Life sciences ,biology ,Immunoglobulin Light Chains ,Immunoglobulin Heavy Chains ,Biotechnology - Abstract
Three single-chain antibody fragments that recognize the extracellular human interferon gamma receptor alpha-chain (IFN gamma R), and inhibit the binding of human IFN gamma, have been produced in Escherichia coli. These fragments are derived from murine anti-receptor monoclonal antibodies, and comprise the variable heavy (VH) domain linked to the variable light (VL) chain through a 15 amino acid linker [(GGGGS)3]. Using surface plasmon resonance technology (BIAcore), the soluble proteins were shown to retain a high affinity for recombinant IFN gamma R, and by radioimmunoassay to possess a high inhibitory activity towards IFN gamma-binding to human Raji cells. The antibody fragments most likely recognize epitopes that overlap the cytokine binding site on the receptor surface. Attempts to dissect further the antibodies to isolated VH- and VL-chains and to synthetic linear and cyclic peptides derived from the individual complementarity determining regions failed to afford fragments with significant IFN gamma R binding affinity. Nevertheless, these native-like variable region fragments and petidomimetics derived from them are of interest in the design of novel IFN gamma R antagonists.
- Published
- 1996
- Full Text
- View/download PDF