Benjamin Spiller
Last active: 2/25/2021

Differential accessibility of a rotavirus VP6 epitope in trimers comprising type I, II, or III channels as revealed by binding of a human rotavirus VP6-specific antibody.

Aiyegbo MS, Eli IM, Spiller BW, Williams DR, Kim R, Lee DE, Liu T, Li S, Stewart PL, Crowe JE
J Virol. 2014 88 (1): 469-76

PMID: 24155406 · PMCID: PMC3911710 · DOI:10.1128/JVI.01665-13

Previous human antibody studies have shown that the human VH1-46 antibody variable gene segment encodes much of the naturally occurring human B cell response to rotavirus and is directed to virus protein 6 (VP6). It is currently unknown why some of the VH1-46-encoded human VP6 monoclonal antibodies inhibit viral transcription while others do not. In part, there are affinity differences between antibodies that likely affect inhibitory activity, but we also hypothesize that there are differing modes of binding to VP6 that affect the ability to block the transcriptional pore on double-layered particles. Here, we used a hybrid method approach for antibody epitope mapping, including single-particle cryo-electron microscopy (cryo-EM) and enhanced amide hydrogen-deuterium exchange mass spectrometry (DXMS) to determine the location and mode of binding of a VH1-46-encoded antibody, RV6-25. The structure of the RV6-25 antibody-double-layered particle (DLP) complex indicated a very complex binding pattern that revealed subtle differences in accessibility of the VP6 epitope depending on its position in the type I, II, or III channels. These subtle variations in the presentation or accessibility of the RV VP6 capsid layer led to position-specific differences in occupancy for binding of the RV6-25 antibody. The studies also showed that the location of binding of the noninhibitory antibody RV6-25 on the apical surface of RV VP6 head domain does not obstruct the transcription pore upon antibody binding, in contrast to binding of an inhibitory antibody, RV6-26, deeper in the transcriptional pore.

MeSH Terms (12)

Amino Acid Sequence Antibodies, Viral Antigens, Viral Base Sequence Binding Sites, Antibody Biopolymers Capsid Proteins Cryoelectron Microscopy DNA Primers Epitopes Mass Spectrometry Molecular Sequence Data

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