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Literature DB >> 24725940

Escape from neutralization by the respiratory syncytial virus-specific neutralizing monoclonal antibody palivizumab is driven by changes in on-rate of binding to the fusion protein.

John T Bates¹, Christopher J Keefer², James C Slaughter³, Daniel W Kulp⁴, William R Schief⁵, James E Crowe⁶.

Abstract

The role of binding kinetics in determining neutralizing potency for antiviral antibodies is poorly understood. While it is believed that increased steady-state affinity correlates positively with increased virus-neutralizing activity, the relationship between association or dissociation rate and neutralization potency is unclear. We investigated the effect of naturally-occurring antibody resistance mutations in the RSV F protein on the kinetics of binding to palivizumab. Escape from palivizumab-mediated neutralization of RSV occurred with reduced association rate (Kon) for binding to RSV F protein, while alteration of dissociation rate (Koff) did not significantly affect neutralizing activity. Interestingly, linkage of reduced Kon with reduced potency mirrored the effect of increased Kon found in a high-affinity enhanced potency palivizumab variant (motavizumab). These data suggest that association rate is the dominant factor driving neutralization potency for antibodies to RSV F protein antigenic site A and determines the potency of antibody somatic variants or efficiency of escape of viral glycoprotein variants.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: Antibodies; Human; Monoclonal; Neutralizing; Palivizumab; Respiratory Syncytial Virus; Viral

Mesh：

Substances：

Year: 2014 PMID： 24725940 PMCID： PMC4004766 DOI： 10.1016/j.virol.2014.02.010

Source DB: PubMed Journal: Virology ISSN： 0042-6822 Impact factor: 3.616

28 in total

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Journal: Nat Struct Mol Biol Date: 2010-01-24 Impact factor: 15.369

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Authors: Young-In Kim; John P DeVincenzo; Bart G Jones; Rajeev Rudraraju; Lisa Harrison; Rachel Meyers; Jeff Cehelsky; Rene Alvarez; Julia L Hurwitz
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