Your search keyword '"Zemmour J"' showing total 5 results

1. Serologic cross-reactivities poorly reflect allelic relationships in the HLA-B12 and HLA-B21 groups. Dominant epitopes of the alpha 2 helix.

Author

Hildebrand WH, Madrigal JA, Belich MP, Zemmour J, Ward FE, Williams RC, and Parham P

Subjects

Alleles, Amino Acid Sequence, Cross Reactions, Epitopes, HLA-B Antigens genetics, Humans, Molecular Sequence Data, Polymorphism, Genetic, Protein Structure, Secondary, Racial Groups, Sequence Alignment, HLA-B Antigens immunology

Abstract

Previous analysis has emphasized the correlation between primary structures of class I HLA molecules and their patterns of serologic cross-reactivity. Here we describe the structures of two serologic groups of HLA-B alleles for which this is not the case. HLA-B45, an allele associated with black populations, is serologically paired with B44 in the B12 group; its structure, however, is divergent from that of B44 but closely related to B50. The BN21 (B*4005) allele is associated with native Americans and is serologically grouped with B50 in the B21 group; its structure, however, is more closely related to alleles of the B40 group. The B44 and B45 serologically cross-reactive molecules differ at seven functional positions of the Ag recognition site; the B50 and BN21 molecules differ at four such residues. These differences are predicted to alter peptide presentation and be capable of eliciting strong alloreactive T cell responses. For these pairs of B12 and B21 Ag, serology appears dominated by epitopes formed by short sequences of the alpha 2 helix which have been shuffled by recombination between alleles. The implications of these results for HLA matching in transplantation are discussed.

Published

1992

2. Distinctive HLA-A,B antigens of black populations formed by interallelic conversion.

Author

Madrigal JA, Belich MP, Hildebrand WH, Benjamin RJ, Little AM, Zemmour J, Ennis PD, Ward FE, Petzl-Erler ML, and du Toit ED

Subjects

Africa, Amino Acid Sequence, Humans, Molecular Sequence Data, United States, White People genetics, Black or African American, Alleles, Black People genetics, Gene Conversion, HLA-A Antigens genetics, HLA-B Antigens genetics

Abstract

Alleles encoding five HLA-A and B Ag characteristic of black populations have been isolated and their nucleotide sequences determined. In each case, the "black" allele is similar to a "related" allele found in caucasoid populations. The primary differences between these pairs of alleles are localized clusters of nucleotide substitutions that change two to five residues of the Ag recognition site. The pattern of differences indicates that the pairs of black and caucasoid alleles diverged primarily as a result of interallelic conversion events.

Published

1992

3. HLA-J, a second inactivated class I HLA gene related to HLA-G and HLA-A. Implications for the evolution of the HLA-A-related genes.

Author

Messer G, Zemmour J, Orr HT, Parham P, Weiss EH, and Girdlestone J

Subjects

Alleles, Amino Acid Sequence, Base Sequence, Biological Evolution, Chromosome Deletion, Consensus Sequence, Enhancer Elements, Genetic, Exons, Humans, Molecular Sequence Data, Polymorphism, Genetic, Promoter Regions, Genetic, Pseudogenes, Restriction Mapping, Sequence Alignment, Genes, MHC Class I, Histocompatibility Antigens Class I genetics

Abstract

Ragoussis and co-workers (Genomics 4:301) previously described a class I HLA gene (now designated HLA-J) that maps to within 50 kb of HLA-A. The nucleotide sequences of three HLA-J alleles are reported here. Comparison of the nucleotide sequences of HLA-J alleles shows this gene is more related to HLA-G, A, and H than to HLA-B, C, E, and F. All four alleles of HLA-J are pseudogenes because of deleterious mutations that produce translation termination either in exon 2 or exon 4. Apart from these mutations, the predicted proteins have structures similar to those of HLA-A, B, and C molecules. There is, however, little polymorphism at HLA-J and none at functional positions of the Ag-recognition site. The polymorphism is less than found for HLA-H another HLA-A-related pseudogene. HLA-J appears, like HLA-H, to be an inactivated gene that result from duplication of an Ag-presenting locus related to HLA-A. Nucleotide sequence comparisons show that the HLA-A, H, J, and G genes form a well defined group of "HLA-A-related" loci. Evolutionary relationships as assessed by construction of trees suggest the four modern loci: HLA-A, G, H, and J were formed by successive duplications from a common ancestral gene. In this scheme one intermediate locus gave rise to HLA-A and H, the other to HLA-G and J.

Published

1992

4. The HLA-A,B "negative" mutant cell line C1R expresses a novel HLA-B35 allele, which also has a point mutation in the translation initiation codon.

Author

Zemmour J, Little AM, Schendel DJ, and Parham P

Subjects

Alleles, Amino Acid Sequence, Base Sequence, Blotting, Southern, Cell Line, Gene Expression, Genes, HLA-A2 Antigen genetics, Humans, Molecular Sequence Data, Mutation, Peptide Chain Initiation, Translational, RNA Splicing, Sequence Alignment, T-Lymphocytes, Cytotoxic immunology, HLA-B35 Antigen genetics

Abstract

The HLA-A,B negative mutant cell line C1R is widely used as a transfection recipient in functional studies of class I MHC genes. It was derived from a normal B cell line, Hmy2, by three rounds of mutagenesis and immunoselection with anti-HLA mAb. Serology characterizes C1R to be negative for the HLA-A2, A3, B35, Bw62, and Cw3 Ag of the parental cell line while retaining expression of HLA-Cw4. We find, however, that CTL specific for HLA-B35 lyse C1R cells, suggesting that expression of HLA-B35 is also retained. To resolve this paradox we examined the expression of HLA-A,B,C genes and proteins in C1R cells. The results are consistent with deletion of the HLA-A3, Bw62, Cw3 haplotype and retention of the HLA-A2, B35, Cw4 haplotype in C1R. Although present, the HLA-A2 gene appears not to be transcribed. As expected, the HLA-Cw4 gene is transcribed and the protein expressed at normal levels. Transcription of the HLA-B35 gene is also normal and comparable to that of HLA-Cw4. However, expression of the HLA-B35 protein is reduced to a few percent of the parental level. Comparison of the nucleotide sequence of B35 alleles from C1R and Hmy2 revealed that reduced translation in C1R is caused by a point mutation (ATG to TTG) in the translation initiation codon. The HLA-B35 allele from C1R and Hmy2 represents a novel subtype, B*3503, differing from B*3501 by replacement of serine by phenylalanine at the peptide binding position 116. This study shows cell surface levels of a class I molecule which are insensitive to lysis by antibody and complement can be readily recognized by alloreactive T cells, further illustrating the relative sensitivity of Ag recognition by T cells.

Published

1992

5. HLA-AR, an inactivated antigen-presenting locus related to HLA-A. Implications for the evolution of the MHC.

Author

Zemmour J, Koller BH, Ennis PD, Geraghty DE, Lawlor DA, Orr HT, and Parham P

Subjects

Alleles, Amino Acid Sequence, Antigen-Presenting Cells immunology, Base Sequence, Biological Evolution, Cloning, Molecular, Humans, Introns, Membrane Glycoproteins genetics, Molecular Sequence Data, Multigene Family, Protein Sorting Signals immunology, Histocompatibility Antigens Class I genetics, Major Histocompatibility Complex

Abstract

The MHC contains many class I genes other than those known to present peptides to T lymphocytes. These additional class I genes vary between species and their functions are unknown. Genes involved in Ag presentation, HLA-A,B,C in humans, are highly diverse whereas other class I genes are of much more limited diversity. We have studied alleles of a gene, HLA-AR, that is closely linked and structurally related to HLA-A; properties consistent with these two loci having been formed by a gene duplication. Compared to HLA-A the diversity in HLA-AR is much less, and does not focus on residues of a putative Ag recognition site. However, the structure of HLA-AR alleles closely resembles those encoding Ag-presenting molecules, although the presence of one or two deleterious mutations prevents these alleles being active in Ag presentation. These results suggest HLA-AR derives from an Ag-presenting locus that became inactivated, possibly as a result of positive natural selection due to changing demands on T cell immunity. Thus absence of diversity may sometimes correlate with loss rather than preservation of function in class I MHC genes.

Published

1990