Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition

David K. Cole; Emily S. J. Edwards; Katherine K. Wynn; Mathew Clement; John J. Miles; Kristin Ladell; Julia Ekeruche; Emma Gostick; Katherine J. Adams; Ania Skowera; Mark Peakman; Linda Wooldridge; David A. Price; Andrew K. Sewell

doi:10.4049/jimmunol.1000629

Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition

David K. Cole, Emily S. J. Edwards, Katherine K. Wynn, Mathew Clement, John J. Miles, Kristin Ladell, Julia Ekeruche, Emma Gostick, Katherine J. Adams, Ania Skowera, Mark Peakman, Linda Wooldridge, David A. Price, Andrew K. Sewell

Peter Gorer Department of Immunobiology

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

108 Citations (Scopus)

Abstract

Improving T cell Ags by altering MHC anchor residues is a common strategy used to enhance peptide vaccines, but there has been little assessment of how such modifications affect TCR binding and T cell recognition. In this study, we use surface plasmon resonance and peptide-MHC tetramer binding at the cell surface to demonstrate that changes in primary peptide anchor residues can substantially and unpredictably alter TCR binding. We also demonstrate that the ability of TCRs to differentiate between natural and anchor-modified heteroclitic peptides distinguishes T cells that exhibit a strong preference for either type of Ag. Furthermore, we show that anchor-modified heteroclitic peptides prime T cells with different TCRs compared with those primed with natural Ag. Thus, vaccination with heteroclitic peptides may elicit T cells that exhibit suboptimal recognition of the intended natural Ag and, consequently, impaired functional attributes in vivo. Heteroclitic peptide-based immune interventions therefore require careful evaluation to ensure efficacy in the clinic. The Journal of Immunology, 2010, 185: 2600-2610.

Original language	English
Pages (from-to)	2600 - 2610
Number of pages	11
Journal	Journal of Immunology
Volume	185
Issue number	4
DOIs	https://doi.org/10.4049/jimmunol.1000629
Publication status	Published - 15 Aug 2010

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Cole, D. K., Edwards, E. S. J., Wynn, K. K., Clement, M., Miles, J. J., Ladell, K., Ekeruche, J., Gostick, E., Adams, K. J., Skowera, A., Peakman, M., Wooldridge, L., Price, D. A., & Sewell, A. K. (2010). Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition. Journal of Immunology, 185(4), 2600 - 2610. https://doi.org/10.4049/jimmunol.1000629

@article{8c8d394c0ace4cab87c46883d92bcc7b,

title = "Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition",

abstract = "Improving T cell Ags by altering MHC anchor residues is a common strategy used to enhance peptide vaccines, but there has been little assessment of how such modifications affect TCR binding and T cell recognition. In this study, we use surface plasmon resonance and peptide-MHC tetramer binding at the cell surface to demonstrate that changes in primary peptide anchor residues can substantially and unpredictably alter TCR binding. We also demonstrate that the ability of TCRs to differentiate between natural and anchor-modified heteroclitic peptides distinguishes T cells that exhibit a strong preference for either type of Ag. Furthermore, we show that anchor-modified heteroclitic peptides prime T cells with different TCRs compared with those primed with natural Ag. Thus, vaccination with heteroclitic peptides may elicit T cells that exhibit suboptimal recognition of the intended natural Ag and, consequently, impaired functional attributes in vivo. Heteroclitic peptide-based immune interventions therefore require careful evaluation to ensure efficacy in the clinic. The Journal of Immunology, 2010, 185: 2600-2610.",

author = "Cole, {David K.} and Edwards, {Emily S. J.} and Wynn, {Katherine K.} and Mathew Clement and Miles, {John J.} and Kristin Ladell and Julia Ekeruche and Emma Gostick and Adams, {Katherine J.} and Ania Skowera and Mark Peakman and Linda Wooldridge and Price, {David A.} and Sewell, {Andrew K.}",

year = "2010",

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doi = "10.4049/jimmunol.1000629",

language = "English",

volume = "185",

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Cole, DK, Edwards, ESJ, Wynn, KK, Clement, M, Miles, JJ, Ladell, K, Ekeruche, J, Gostick, E, Adams, KJ, Skowera, A , Peakman, M, Wooldridge, L, Price, DA & Sewell, AK 2010, 'Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition', Journal of Immunology, vol. 185, no. 4, pp. 2600 - 2610. https://doi.org/10.4049/jimmunol.1000629

TY - JOUR

T1 - Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition

AU - Cole, David K.

AU - Edwards, Emily S. J.

AU - Wynn, Katherine K.

AU - Clement, Mathew

AU - Miles, John J.

AU - Ladell, Kristin

AU - Ekeruche, Julia

AU - Gostick, Emma

AU - Adams, Katherine J.

AU - Skowera, Ania

AU - Peakman, Mark

AU - Wooldridge, Linda

AU - Price, David A.

AU - Sewell, Andrew K.

PY - 2010/8/15

Y1 - 2010/8/15

N2 - Improving T cell Ags by altering MHC anchor residues is a common strategy used to enhance peptide vaccines, but there has been little assessment of how such modifications affect TCR binding and T cell recognition. In this study, we use surface plasmon resonance and peptide-MHC tetramer binding at the cell surface to demonstrate that changes in primary peptide anchor residues can substantially and unpredictably alter TCR binding. We also demonstrate that the ability of TCRs to differentiate between natural and anchor-modified heteroclitic peptides distinguishes T cells that exhibit a strong preference for either type of Ag. Furthermore, we show that anchor-modified heteroclitic peptides prime T cells with different TCRs compared with those primed with natural Ag. Thus, vaccination with heteroclitic peptides may elicit T cells that exhibit suboptimal recognition of the intended natural Ag and, consequently, impaired functional attributes in vivo. Heteroclitic peptide-based immune interventions therefore require careful evaluation to ensure efficacy in the clinic. The Journal of Immunology, 2010, 185: 2600-2610.

AB - Improving T cell Ags by altering MHC anchor residues is a common strategy used to enhance peptide vaccines, but there has been little assessment of how such modifications affect TCR binding and T cell recognition. In this study, we use surface plasmon resonance and peptide-MHC tetramer binding at the cell surface to demonstrate that changes in primary peptide anchor residues can substantially and unpredictably alter TCR binding. We also demonstrate that the ability of TCRs to differentiate between natural and anchor-modified heteroclitic peptides distinguishes T cells that exhibit a strong preference for either type of Ag. Furthermore, we show that anchor-modified heteroclitic peptides prime T cells with different TCRs compared with those primed with natural Ag. Thus, vaccination with heteroclitic peptides may elicit T cells that exhibit suboptimal recognition of the intended natural Ag and, consequently, impaired functional attributes in vivo. Heteroclitic peptide-based immune interventions therefore require careful evaluation to ensure efficacy in the clinic. The Journal of Immunology, 2010, 185: 2600-2610.

U2 - 10.4049/jimmunol.1000629

DO - 10.4049/jimmunol.1000629

M3 - Article

SN - 1550-6606

VL - 185

SP - 2600

EP - 2610

JO - Journal of Immunology

JF - Journal of Immunology

IS - 4

ER -

Modification of MHC Anchor Residues Generates Heteroclitic Peptides That Alter TCR Binding and T Cell Recognition

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