Rapid fine conformational epitope mapping using comprehensive mutagenesis and deep sequencing

Caitlin A. Kowalsky; Matthew S. Faber; Aritro Nath; Hailey E. Dann; Vince W. Kelly; Li Liu; Purva Shanker; Ellen K. Wagner; Jennifer A. Maynard; Christina Chan; Timothy A. Whitehead

doi:10.1074/jbc.M115.676635

Rapid fine conformational epitope mapping using comprehensive mutagenesis and deep sequencing

Caitlin A. Kowalsky, Matthew S. Faber, Aritro Nath, Hailey E. Dann, Vince W. Kelly, Li Liu, Purva Shanker, Ellen K. Wagner, Jennifer A. Maynard, Christina Chan, Timothy A. Whitehead

Experimental and Clinical Pharmacology

Research output: Contribution to journal › Article › peer-review

55 Scopus citations

Abstract

Knowledge of the fine location of neutralizing and non-neutralizing epitopes on human pathogens affords a better understanding of the structural basis of antibody efficacy, which will expedite rational design of vaccines, prophylactics, and therapeutics. However, full utilization of the wealth of information from single cell techniques and antibody repertoire sequencing awaits the development of a high throughput, inexpensive method to map the conformational epitopes for antibody-antigen interactions. Herewe show such an approach that combines comprehensive mutagenesis, cell surface display, and DNA deep sequencing. We develop analytical equations to identify epitope positions and show the method effectiveness by mapping the fine epitope for different antibodies targeting TNF, pertussis toxin, and the cancer target TROP2. Inall threecases, the experimentally determined conformational epitope was consistent with previous experimental datasets, confirming the reliability of the experimental pipeline. Once the comprehensive library is generated, fine conformational epitope maps canbe prepared at a rate of four per day.

Original language	English (US)
Pages (from-to)	26457-26470
Number of pages	14
Journal	Journal of Biological Chemistry
Volume	290
Issue number	44
DOIs	https://doi.org/10.1074/jbc.M115.676635
State	Published - Oct 30 2015

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© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.

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abstract = "Knowledge of the fine location of neutralizing and non-neutralizing epitopes on human pathogens affords a better understanding of the structural basis of antibody efficacy, which will expedite rational design of vaccines, prophylactics, and therapeutics. However, full utilization of the wealth of information from single cell techniques and antibody repertoire sequencing awaits the development of a high throughput, inexpensive method to map the conformational epitopes for antibody-antigen interactions. Herewe show such an approach that combines comprehensive mutagenesis, cell surface display, and DNA deep sequencing. We develop analytical equations to identify epitope positions and show the method effectiveness by mapping the fine epitope for different antibodies targeting TNF, pertussis toxin, and the cancer target TROP2. Inall threecases, the experimentally determined conformational epitope was consistent with previous experimental datasets, confirming the reliability of the experimental pipeline. Once the comprehensive library is generated, fine conformational epitope maps canbe prepared at a rate of four per day.",

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AU - Kowalsky, Caitlin A.

AU - Faber, Matthew S.

AU - Nath, Aritro

AU - Dann, Hailey E.

AU - Kelly, Vince W.

AU - Liu, Li

AU - Shanker, Purva

AU - Wagner, Ellen K.

AU - Maynard, Jennifer A.

AU - Chan, Christina

AU - Whitehead, Timothy A.

PY - 2015/10/30

Y1 - 2015/10/30

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AB - Knowledge of the fine location of neutralizing and non-neutralizing epitopes on human pathogens affords a better understanding of the structural basis of antibody efficacy, which will expedite rational design of vaccines, prophylactics, and therapeutics. However, full utilization of the wealth of information from single cell techniques and antibody repertoire sequencing awaits the development of a high throughput, inexpensive method to map the conformational epitopes for antibody-antigen interactions. Herewe show such an approach that combines comprehensive mutagenesis, cell surface display, and DNA deep sequencing. We develop analytical equations to identify epitope positions and show the method effectiveness by mapping the fine epitope for different antibodies targeting TNF, pertussis toxin, and the cancer target TROP2. Inall threecases, the experimentally determined conformational epitope was consistent with previous experimental datasets, confirming the reliability of the experimental pipeline. Once the comprehensive library is generated, fine conformational epitope maps canbe prepared at a rate of four per day.

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Rapid fine conformational epitope mapping using comprehensive mutagenesis and deep sequencing

Abstract

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