Abstract
Originalsprog | Engelsk |
---|---|
Tidsskrift | International Immunology |
Vol/bind | 10 |
Udgave nummer | 8 |
Sider (fra-til) | 1229-36 |
Antal sider | 7 |
ISSN | 0953-8178 |
Status | Udgivet - 1998 |
Bibliografisk note
Keywords: Alanine; Alleles; Aspartic Acid; B-Lymphocytes; Binding Sites; Cell Line; Computer Simulation; Diabetes Mellitus, Type 1; Genes, MHC Class II; Genetic Predisposition to Disease; HLA-DQ Antigens; Histocompatibility Antigens Class II; Humans; Models, Molecular; Mutagenesis, Site-Directed; Peptide Library; Peptides; Protein Engineering; Static Electricity; TransfectionCitationsformater
- APA
- Standard
- Harvard
- Vancouver
- Author
- BIBTEX
- RIS
The P9 pocket of HLA-DQ2 (non-Aspbeta57) has no particular preference for negatively charged anchor residues found in other type 1 diabetes-predisposing non-Aspbeta57 MHC class II molecules. / Quarsten, H; Paulsen, G; Johansen, B H; Thorpe, C J; Holm, A; Buus, S; Sollid, L M.
I: International Immunology, Bind 10, Nr. 8, 1998, s. 1229-36.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review
}
TY - JOUR
T1 - The P9 pocket of HLA-DQ2 (non-Aspbeta57) has no particular preference for negatively charged anchor residues found in other type 1 diabetes-predisposing non-Aspbeta57 MHC class II molecules
AU - Quarsten, H
AU - Paulsen, G
AU - Johansen, B H
AU - Thorpe, C J
AU - Holm, A
AU - Buus, S
AU - Sollid, L M
N1 - Keywords: Alanine; Alleles; Aspartic Acid; B-Lymphocytes; Binding Sites; Cell Line; Computer Simulation; Diabetes Mellitus, Type 1; Genes, MHC Class II; Genetic Predisposition to Disease; HLA-DQ Antigens; Histocompatibility Antigens Class II; Humans; Models, Molecular; Mutagenesis, Site-Directed; Peptide Library; Peptides; Protein Engineering; Static Electricity; Transfection
PY - 1998
Y1 - 1998
N2 - Susceptibility and resistance to type 1 diabetes are associated with MHC class II alleles that carry non-Asp and Asp at residue 57 of their beta chain respectively. The effect of Asp or non-Aspbeta57 may relate to a differential ability of distinct class II molecules to bind specific immuno-pathogenic peptides. Recent studies in man and mouse have revealed that some type 1 diabetes-predisposing non-Aspbeta57 class II molecules (i.e. DQ8, DR4Dw15 and I-Ag7) preferentially bind peptides with a negatively charged anchor residue at P9. It has been suggested that this is a common feature of type 1 diabetes-predisposing class II molecules. The molecular explanation for such a phenomenon could be that class II beta chains with Aspbeta57 form a salt bridge between Aspbeta57 and a conserved Arg of the a chain, whereas in non-Aspbeta57 molecules the Arg is unopposed and free to interact with negatively charged P9 peptide anchor residues. We have investigated the specificity of the P9 pocket of the type 1 diabetes-associated DQ2 molecule and in particular examined for charge effects at this anchor position. Different approaches were undertaken. We analyzed binding of a high-affinity binding ligand and P9-substituted variants of this peptide, and we analyzed the binding of a set of synthetic random peptide libraries. The binding analyses were performed with wild-type DQ2 and a mutated DQ2 with Ala at beta57 substituted with Asp. Our results indicate that the wild-type DQ2 (non-Aspbeta57) prefers large hydrophobic residues at P9 and that there is no particular preference for binding peptides with negatively charged residues at this position. The specificity of the P9 pocket in the mutated DQ molecule is altered, indicating that the beta57 residue contributes to determining the specificity of the P9 pocket. Our data do not lend support to the hypothesis that all non-Asp beta57 class II molecules predispose to development of disease by binding peptides with negatively charged P9 anchor residues.
AB - Susceptibility and resistance to type 1 diabetes are associated with MHC class II alleles that carry non-Asp and Asp at residue 57 of their beta chain respectively. The effect of Asp or non-Aspbeta57 may relate to a differential ability of distinct class II molecules to bind specific immuno-pathogenic peptides. Recent studies in man and mouse have revealed that some type 1 diabetes-predisposing non-Aspbeta57 class II molecules (i.e. DQ8, DR4Dw15 and I-Ag7) preferentially bind peptides with a negatively charged anchor residue at P9. It has been suggested that this is a common feature of type 1 diabetes-predisposing class II molecules. The molecular explanation for such a phenomenon could be that class II beta chains with Aspbeta57 form a salt bridge between Aspbeta57 and a conserved Arg of the a chain, whereas in non-Aspbeta57 molecules the Arg is unopposed and free to interact with negatively charged P9 peptide anchor residues. We have investigated the specificity of the P9 pocket of the type 1 diabetes-associated DQ2 molecule and in particular examined for charge effects at this anchor position. Different approaches were undertaken. We analyzed binding of a high-affinity binding ligand and P9-substituted variants of this peptide, and we analyzed the binding of a set of synthetic random peptide libraries. The binding analyses were performed with wild-type DQ2 and a mutated DQ2 with Ala at beta57 substituted with Asp. Our results indicate that the wild-type DQ2 (non-Aspbeta57) prefers large hydrophobic residues at P9 and that there is no particular preference for binding peptides with negatively charged residues at this position. The specificity of the P9 pocket in the mutated DQ molecule is altered, indicating that the beta57 residue contributes to determining the specificity of the P9 pocket. Our data do not lend support to the hypothesis that all non-Asp beta57 class II molecules predispose to development of disease by binding peptides with negatively charged P9 anchor residues.
M3 - Journal article
C2 - 9723710
VL - 10
SP - 1229
EP - 1236
JO - International Immunology
JF - International Immunology
SN - 0953-8178
IS - 8
ER -