Structural basis for the restoration of TCR recognition of an MHC allelic variant by peptide secondary anchor substitution

Structural basis for the restoration of TCR recognition of an MHC allelic variant by peptide secondary anchor substitution

Major histocompatibility complex (MHC) class I variants H-2K(b) and H-2K(bm8) differ primarily in the B pocket of the peptide-binding groove, which serves to sequester the P2 secondary anchor residue. This polymorphism determines resistance to lethal herpes simplex virus (HSV-1) infection by modulat...

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Veröffentlicht in:The Journal of experimental medicine 2004-12, Vol.200 (11), p.1445-1454
Hauptverfasser: Miley, Michael J, Messaoudi, Ilhem, Metzner, Beatrix M, Wu, Yudong, Nikolich-Zugich, Janko, Fremont, Daved H
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Sprache:eng
Schlagworte:
Alleles
Animals
Circular Dichroism
Crystallography, X-Ray
H-2 Antigens - chemistry
Herpes simplex virus 1
Hydrogen Bonding
Immunodominant Epitopes
Protein Conformation
Receptors, Antigen, T-Cell - chemistry
T-Lymphocytes - immunology
Viral Envelope Proteins - immunology
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container_end_page 1454
container_issue 11
container_start_page 1445
container_title The Journal of experimental medicine
container_volume 200
creator Miley, Michael J
Messaoudi, Ilhem
Metzner, Beatrix M
Wu, Yudong
Nikolich-Zugich, Janko
Fremont, Daved H
description Major histocompatibility complex (MHC) class I variants H-2K(b) and H-2K(bm8) differ primarily in the B pocket of the peptide-binding groove, which serves to sequester the P2 secondary anchor residue. This polymorphism determines resistance to lethal herpes simplex virus (HSV-1) infection by modulating T cell responses to the immunodominant glycoprotein B(498-505) epitope, HSV8. We studied the molecular basis of these effects and confirmed that T cell receptors raised against K(b)-HSV8 cannot recognize H-2K(bm8)-HSV8. However, substitution of Ser(P2) to Glu(P2) (peptide H2E) reversed T cell receptor (TCR) recognition; H-2K(bm8)-H2E was recognized whereas H-2K(b)-H2E was not. Insight into the structural basis of this discrimination was obtained by determining the crystal structures of all four MHC class I molecules in complex with bound peptide (pMHCs). Surprisingly, we find no concerted pMHC surface differences that can explain the differential TCR recognition. However, a correlation is apparent between the recognition data and the underlying peptide-binding groove chemistry of the B pocket, revealing that secondary anchor residues can profoundly affect TCR engagement through mechanisms distinct from the alteration of the resting state conformation of the pMHC surface.
doi_str_mv 10.1084/jem.20040217
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source MEDLINE; EZB-FREE-00999 freely available EZB journals
subjects Alleles
Animals
Circular Dichroism
Crystallography, X-Ray
H-2 Antigens - chemistry
Herpes simplex virus 1
Hydrogen Bonding
Immunodominant Epitopes
Protein Conformation
Receptors, Antigen, T-Cell - chemistry
T-Lymphocytes - immunology
Viral Envelope Proteins - immunology
title Structural basis for the restoration of TCR recognition of an MHC allelic variant by peptide secondary anchor substitution
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