A novel HLA-B27 allele maps B27 allospecificity to the region around position 70 in the alpha 1 domain

A novel HLA-B27 allele maps B27 allospecificity to the region around position 70 in the alpha 1 domain

There are six known HLA-B alleles that share the HLA-B27 allospecificity, yet differ by one to six amino acid substitutions. Each of these B27 alleles can be readily assigned by one of the six representative IEF patterns. Two unrelated individuals, LH and HS, express B27 Ag that appear to be identic...

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Veröffentlicht in:The Journal of immunology (1950) 1991-07, Vol.147 (1), p.174-180
Hauptverfasser: Choo, SY, Fan, LA, Hansen, JA
Format: Artikel
Sprache:eng
Schlagworte:
Alleles
Amino Acid Sequence
Base Sequence
Clone Cells
DNA - genetics
Epitopes
HLA-B27 Antigen - genetics
HLA-B27 Antigen - immunology
HLA-C Antigens - genetics
Humans
Molecular Sequence Data
Oligonucleotides - chemistry
Polymerase Chain Reaction
Protein Conformation
Structure-Activity Relationship
T-Lymphocytes, Cytotoxic - immunology
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container_title The Journal of immunology (1950)
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creator Choo, SY
Fan, LA
Hansen, JA
description There are six known HLA-B alleles that share the HLA-B27 allospecificity, yet differ by one to six amino acid substitutions. Each of these B27 alleles can be readily assigned by one of the six representative IEF patterns. Two unrelated individuals, LH and HS, express B27 Ag that appear to be identical by IEF, but an HLA-B27 alloreactive CTL clone I-73 was found to react differently with these cells, suggesting these B27 molecules are not identical. We sequenced polymerase chain reaction-amplified B27 cDNA clones obtained from HS and compared its deduced amino acid sequence (B27-HS) with the B27 sequence of LH (B27-LH) which was previously designated the B*2701 allele. B27-HS and B27-LH differ by eight amino acids; three in alpha 1 domain and five in alpha 2 domain. These amino acid substitutions of B27-HS altered T cell recognition but not the B27 serologic epitope or IEF pattern. B27-HS differs from the six known B27 alleles by five to eight amino acid substitutions, and thus it represents the seventh allele of the HLA-B27 Ag family. This novel B27 allele might have been derived from a gene conversion event. Previously, two amino acid residues at positions 70 and 97 were suggested to be specific for B27 Ag family. B27-HS now reveals that Lys at position 70 is specific for B27 but Asn at position 97 is not. We propose that the region around position 70 might be crucial in determining the B27 serologic epitope and possibly in peptide Ag binding. This study also demonstrates that class I molecules of the same Ag specificity sharing an indistinguishable IEF pattern are not necessarily identical, and indicates that only the definitive determination of primary structure would identify all the class I alleles that are functionally relevant in regard to alloreactivity, T cell restriction, and disease association.
doi_str_mv 10.4049/jimmunol.147.1.174
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Each of these B27 alleles can be readily assigned by one of the six representative IEF patterns. Two unrelated individuals, LH and HS, express B27 Ag that appear to be identical by IEF, but an HLA-B27 alloreactive CTL clone I-73 was found to react differently with these cells, suggesting these B27 molecules are not identical. We sequenced polymerase chain reaction-amplified B27 cDNA clones obtained from HS and compared its deduced amino acid sequence (B27-HS) with the B27 sequence of LH (B27-LH) which was previously designated the B*2701 allele. B27-HS and B27-LH differ by eight amino acids; three in alpha 1 domain and five in alpha 2 domain. These amino acid substitutions of B27-HS altered T cell recognition but not the B27 serologic epitope or IEF pattern. B27-HS differs from the six known B27 alleles by five to eight amino acid substitutions, and thus it represents the seventh allele of the HLA-B27 Ag family. 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Each of these B27 alleles can be readily assigned by one of the six representative IEF patterns. Two unrelated individuals, LH and HS, express B27 Ag that appear to be identical by IEF, but an HLA-B27 alloreactive CTL clone I-73 was found to react differently with these cells, suggesting these B27 molecules are not identical. We sequenced polymerase chain reaction-amplified B27 cDNA clones obtained from HS and compared its deduced amino acid sequence (B27-HS) with the B27 sequence of LH (B27-LH) which was previously designated the B*2701 allele. B27-HS and B27-LH differ by eight amino acids; three in alpha 1 domain and five in alpha 2 domain. These amino acid substitutions of B27-HS altered T cell recognition but not the B27 serologic epitope or IEF pattern. B27-HS differs from the six known B27 alleles by five to eight amino acid substitutions, and thus it represents the seventh allele of the HLA-B27 Ag family. This novel B27 allele might have been derived from a gene conversion event. Previously, two amino acid residues at positions 70 and 97 were suggested to be specific for B27 Ag family. B27-HS now reveals that Lys at position 70 is specific for B27 but Asn at position 97 is not. We propose that the region around position 70 might be crucial in determining the B27 serologic epitope and possibly in peptide Ag binding. This study also demonstrates that class I molecules of the same Ag specificity sharing an indistinguishable IEF pattern are not necessarily identical, and indicates that only the definitive determination of primary structure would identify all the class I alleles that are functionally relevant in regard to alloreactivity, T cell restriction, and disease association.</abstract><cop>United States</cop><pub>Am Assoc Immnol</pub><pmid>1711072</pmid><doi>10.4049/jimmunol.147.1.174</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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source MEDLINE; Alma/SFX Local Collection
subjects Alleles
Amino Acid Sequence
Base Sequence
Clone Cells
DNA - genetics
Epitopes
HLA-B27 Antigen - genetics
HLA-B27 Antigen - immunology
HLA-C Antigens - genetics
Humans
Molecular Sequence Data
Oligonucleotides - chemistry
Polymerase Chain Reaction
Protein Conformation
Structure-Activity Relationship
T-Lymphocytes, Cytotoxic - immunology
title A novel HLA-B27 allele maps B27 allospecificity to the region around position 70 in the alpha 1 domain
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