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Query: UMLS:C0018133 (
graft-versus-host disease
)
18,032
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Incompatibility of human minor histocompatibility (hmH) antigens induces rejection of grafts in organ transplantation and
graft versus host disease
in bone marrow transplantation if donor and recipient are matched for human leukocyte antigen (HLA) genes. These antigens are recognized only by T cells. We describe here the isolation of hmH peptides recognized by a hmH antigen specific,
HLA-B35
restricted CTL clone which was derived from a patient who rejected the kidneys from two HLA-identical sisters. Naturally occurring hmH peptides were isolated from a donor derived B cell line and an
HLA-B35
transfected human B cell line by acid elution. Analysis of various HLA class I transfectant cells demonstrated that MHC class I molecules themselves determine the peptides which are naturally processed and presented to T cells.
...
PMID:Isolation of human minor histocompatibility peptides. 162
In a study of 523 normal subjects of differing ethnic groups, including 189 South American Indians, we have described novel hybridization pattern corresponding to 22 potentially new HLA-B locus alleles. Three of these alleles were subtypes of B35. The locally, assigned alleles, B-3504v, B-3505v, and B-3508v have been sequenced and were officially designated as B*3512, B*3517, and B*3518, respectively. In addition, we determined the nucleotide sequence of another new variant, locally designated B-3509.2. B*3517, was found in 3 individuals (2 Hispanic, 1 Caucasian), it differs from B*3505 by 3 nucleotide substitutions that lead to changes in residues 94, 95, and 103. B*3517 differs from B*3501 in residues 97 and 103. B*3518 was found in 7 South American Indian individuals (6 of 124 Toba Indians, 1 of 18 Pilaga Indians). It differs from B*3509 by 2 silent nucleotide substitutions and by one nonsynonymous substitution in codon 156 (Arg-->Leu). B*3512 differs from B*3504 by 3 nucleotides, one of them leading to a substitution in residue 103 (Val-->Leu). B*3509 was observed in 3 individuals from the Wichi tribe. The nucleotide sequence of one of these was determined and was found to differ from B*35091 by two synonymous nucleotide substitutions. The distinguishing amino acid substitutions in residues 95, 97, and 156 contribute to the structure of specificity pockets F, C, and E, and D and E respectively, therefore, it is possible that some of the new alleles may have different peptide binding profiles. It has been shown that differences at residue 156 may elicit different allorecognition and mediate
graft-versus-host disease
and rejection in bone marrow transplantation. The mechanisms for the generation of these novel alleles may involve gene conversion events in which short exon-3 segments from the common Native American alleles B*4002 or B*4801 were inserted in
HLA-B35
backbone structures. The novel allele B*3518 is closely related to B*35092 and to B*3508. Two alternative hypotheses for its generation can be suggested, the most plausible one would involve B*35092, the putative progenitor of B*3518, since both alleles are prevalent in the same Indian tribes.
...
PMID:Novel HLA-B35 subtypes: putative gene conversion events with donor sequences from alleles common in native Americans (HLA-B*4002 or B*4801). 912 72
High incidences of graft failure and
graft-versus-host disease
in the recipients of bone marrow transplantations (BMT) from unrelated donors (URD) may reflect the existence of allelic disparities between the patient and the URD despite apparent HLA identity at HLA-A, HLA-B, and HLA-DRB1 loci. To identify the extent and pattern of allelic disparities at HLA-A and HLA-B loci, 128 patients and 484 potential URD were evaluated by DNA typing. DNA typing for HLA-A, HLA-B, and HLA-DRB1 was performed at Memorial Sloan Kettering Cancer Center. HLA-A and HLA-B serotyping on URD was provided by the registries. By original typing (serology for HLA-A and HLA-B; DNA typing for DRB1) 187, 164, and 133 URD were 6/6, 5/6, and 4/6 matches, respectively. Following DNA typing, however, only 52.9% of the originally 6/6 matched URD remained 6/6, while 38.5%, 7.5%, and 1.1% were found to be 5/6, 4/6, and 3/6 matches. The level of disparity was higher in the originally 5/6 (P <.01) and 4/6 (P <.01) matched URD. A higher level of disparity was seen for HLA-B as compared to HLA-A. In addition, a serotype related variation was also noticed. For example, 24.1% of HLA-A2 and 60.1% of
HLA-B35
seromatched URD were genotypically disparate, but no disparities were seen for HLA-A1 and HLA-B8. A higher percentage of HLA-A (67. 4%) compared with HLA-B (35.4%) serologic homozygous URD remained genotypically homozygous (P =.01). The level of allelic disparity was lower (P <.01 for 6/6; P =.02 for 5/6) if the patient had one of the 15 most common haplotypes (A1B8DR3, A2B7DR15, A3B7DR15, etc) in comparison to the rest of the group. Outcome studies will answer the question whether these disparities are associated with a higher rate of immunological complications seen with URD-BMT.
...
PMID:DNA typing for HLA-A and HLA-B identifies disparities between patients and unrelated donors matched by HLA-A and HLA-B serology and HLA-DRB1. 986 87
We analyzed the association of HLA antigens with incidence of organ-specific
graft-versus-host disease
(
GVHD
) after allogeneic hemopoietic stem cell transplantation (allo-HSCT) from an HLA-matched sibling donor. We retrospectively reviewed the clinical records of allo-HSCT recipients and found 389 patients who had received matched-sibling HSCT. HLA types,
GVHD
grades, and the development of acute or chronic
GVHD
, factors that reflect a certain immunological impact associated with involved organs, were investigated. The overall incidence of acute and chronic
GVHD
was 24.8% (96 cases) and 21.2% (82 cases), respectively. The incidence of acute
GVHD
with grades II through IV was higher among patients who had HLA-B61 (P = .0153) and HLA-Cw3 (P = .0208). The donor sex (P = .0040) and the conditioning regimen (P = .0010) were also associated with severe acute
GVHD
. The extensive-type chronic
GVHD
incidence was higher in patients who had HLA-B54 (P = .0159). The donor sex (P = .0406) and the pretransplantation diagnosis (P = .0184) were other factors associated with the development of extensive-type chronic
GVHD
. Furthermore,
HLA-B35
(P = .0226) and HLA-B54 (P = .0091) were associated with a higher incidence of severe acute skin
GVHD
and chronic skin and oral
GVHD
(in descending order of incidence rates). HLA-B7,27 was associated with chronic liver
GVHD
(P = .0476) in addition to other parameters including patient (P = .0246) and donor sex (P = .0019). This study shows that these remarkable HLA antigens may be potent transplantation immune regulators, but there is a need for further evaluation using larger study samples.
...
PMID:The association of HLA antigen and GVHD in allogeneic hemopoietic stem cell transplantation with histocompatible sibling donor: a single-center experience in Korea. 1241 38
