Using a Combined Computational-experimental Approach to Predict Antibody-specific B Cell Epitopes

Overview

Journal Structure

Publisher Cell Press

Specialties Biochemistry
Biotechnology
Cell Biology
Molecular Biology

Date 2014 Mar 18

PMID 24631463

Citations 36

Authors

Inbal Sela-Culang

Mohammed Rafii-El-Idrissi Benhnia

Michael H Matho

Thomas Kaever

Matt Maybeno

Andrew Schlossman

Guy Nimrod

Sheng Li

Yan Xiang

Dirk Zajonc

Shane Crotty

Yanay Ofran

Bjoern Peters

Affiliations

Soon will be listed here.

Abstract

Antibody epitope mapping is crucial for understanding B cell-mediated immunity and required for characterizing therapeutic antibodies. In contrast to T cell epitope mapping, no computational tools are in widespread use for prediction of B cell epitopes. Here, we show that, utilizing the sequence of an antibody, it is possible to identify discontinuous epitopes on its cognate antigen. The predictions are based on residue-pairing preferences and other interface characteristics. We combined these antibody-specific predictions with results of cross-blocking experiments that identify groups of antibodies with overlapping epitopes to improve the predictions. We validate the high performance of this approach by mapping the epitopes of a set of antibodies against the previously uncharacterized D8 antigen, using complementary techniques to reduce method-specific biases (X-ray crystallography, peptide ELISA, deuterium exchange, and site-directed mutagenesis). These results suggest that antibody-specific computational predictions and simple cross-blocking experiments allow for accurate prediction of residues in conformational B cell epitopes.

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