Conformational Heterogeneity in Antibody-Protein Antigen Recognition

Specific, high affinity protein-protein interactions lie at the heart of many essential biological processes, including the recognition of an apparently limitless range of foreign proteins by natural antibodies, which has been exploited to develop therapeutic antibodies. To mediate biological proces...

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Bibliographic Details
Published in:The Journal of biological chemistry 2014-03, Vol.289 (10), p.7200-7210
Main Authors: Addis, Philip W., Hall, Catherine J., Bruton, Shaun, Veverka, Vaclav, Wilkinson, Ian C., Muskett, Frederick W., Renshaw, Philip S., Prosser, Christine E., Carrington, Bruce, Lawson, Alastair D.G., Griffin, Robert, Taylor, Richard J., Waters, Lorna C., Henry, Alistair J., Carr, Mark D.
Format: Article
Language:English
Subjects:
Antibodies
CDR
Conformational Heterogeneity
NMR
Protein Conformation
Protein Structure
Protein-Protein Interactions
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Summary:Specific, high affinity protein-protein interactions lie at the heart of many essential biological processes, including the recognition of an apparently limitless range of foreign proteins by natural antibodies, which has been exploited to develop therapeutic antibodies. To mediate biological processes, high affinity protein complexes need to form on appropriate, relatively rapid timescales, which presents a challenge for the productive engagement of complexes with large and complex contact surfaces (∼600–1800 Å2). We have obtained comprehensive backbone NMR assignments for two distinct, high affinity antibody fragments (single chain variable and antigen-binding (Fab) fragments), which recognize the structurally diverse cytokines interleukin-1β (IL-1β, β-sheet) and interleukin-6 (IL-6, α-helical). NMR studies have revealed that the hearts of the antigen binding sites in both free anti-IL-1β Fab and anti-IL-6 single chain variable exist in multiple conformations, which interconvert on a timescale comparable with the rates of antibody-antigen complex formation. In addition, we have identified a conserved antigen binding-induced change in the orientation of the two variable domains. The observed conformational heterogeneity and slow dynamics at protein antigen binding sites appears to be a conserved feature of many high affinity protein-protein interfaces structurally characterized by NMR, suggesting an essential role in protein complex formation. We propose that this behavior may reflect a soft capture, protein-protein docking mechanism, facilitating formation of high affinity protein complexes on a timescale consistent with biological processes. Background: Antibodies are essential components of the immune system which recognize specific antigens with high affinity. Results: Protein antigen binding sites on antibodies show conformational exchange on a millisecond to second timescale. Conclusion: Conformational heterogeneity at high affinity protein-protein interaction sites may be common and facilitate efficient protein complex formation. Significance: High affinity protein-protein interactions are critical for many biological processes.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M113.492215