Cutting edge: A single MHC anchor residue alters the conformation of a peptide-MHC complex inducing T cells that survive negative selection

Daniel A. Peterson; Richard J. DiPaolo; Osami Kanagawa; Emil R. Unanue

doi:10.4049/jimmunol.166.10.5874

Cutting edge: A single MHC anchor residue alters the conformation of a peptide-MHC complex inducing T cells that survive negative selection

Daniel A. Peterson, Richard J. DiPaolo, Osami Kanagawa, Emil R. Unanue

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

12 Scopus citations

Abstract

We generated transgenic mice that expressed hen egg-white lysozyme (HEL) under a class II MHC promoter. The A7 line expressed HEL with a point mutation in the Asp⁵² residue, the main anchor amino acid responsible for the selection of the chemically dominant family of peptides (52-60) by I-A^k molecules. Mice expressing HEL with Ala⁵² were completely unresponsive when immunized with the same protein, i.e., HEL A52. However, the same mice immunized with wild-type HEL elicited T cells that recognized a conformation of the 52-61 core sequence uniquely different between Asp⁵² and Ala⁵² containing peptides. Importantly, some T cells also recognized the HEL A52 peptide given exogenously but not the same peptide processed from HEL A52 protein. Thus, a core MHC anchor residue influences markedly the specificity of the T cells. We discuss the relevance of these findings to autoimmunity and vaccination with altered peptides.

Original language	English
Pages (from-to)	5874-5877
Number of pages	4
Journal	Journal of Immunology
Volume	166
Issue number	10
DOIs	https://doi.org/10.4049/jimmunol.166.10.5874
State	Published - May 15 2001

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title = "Cutting edge: A single MHC anchor residue alters the conformation of a peptide-MHC complex inducing T cells that survive negative selection",

abstract = "We generated transgenic mice that expressed hen egg-white lysozyme (HEL) under a class II MHC promoter. The A7 line expressed HEL with a point mutation in the Asp52 residue, the main anchor amino acid responsible for the selection of the chemically dominant family of peptides (52-60) by I-Ak molecules. Mice expressing HEL with Ala52 were completely unresponsive when immunized with the same protein, i.e., HEL A52. However, the same mice immunized with wild-type HEL elicited T cells that recognized a conformation of the 52-61 core sequence uniquely different between Asp52 and Ala52 containing peptides. Importantly, some T cells also recognized the HEL A52 peptide given exogenously but not the same peptide processed from HEL A52 protein. Thus, a core MHC anchor residue influences markedly the specificity of the T cells. We discuss the relevance of these findings to autoimmunity and vaccination with altered peptides.",

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AU - DiPaolo, Richard J.

AU - Kanagawa, Osami

AU - Unanue, Emil R.

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AB - We generated transgenic mice that expressed hen egg-white lysozyme (HEL) under a class II MHC promoter. The A7 line expressed HEL with a point mutation in the Asp52 residue, the main anchor amino acid responsible for the selection of the chemically dominant family of peptides (52-60) by I-Ak molecules. Mice expressing HEL with Ala52 were completely unresponsive when immunized with the same protein, i.e., HEL A52. However, the same mice immunized with wild-type HEL elicited T cells that recognized a conformation of the 52-61 core sequence uniquely different between Asp52 and Ala52 containing peptides. Importantly, some T cells also recognized the HEL A52 peptide given exogenously but not the same peptide processed from HEL A52 protein. Thus, a core MHC anchor residue influences markedly the specificity of the T cells. We discuss the relevance of these findings to autoimmunity and vaccination with altered peptides.

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Cutting edge: A single MHC anchor residue alters the conformation of a peptide-MHC complex inducing T cells that survive negative selection

Abstract

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