BACKGROUND: Successful engraftment of hematopoietic stem cells from unrelated donors is influenced by disparities between the donor and recipient for HLA-A, B, and C alleles. Disparities between HLA sequence polymorphisms that are serologically detectable are termed antigen mismatches, whereas those that can be identified only by DNA-based typing methods are termed allele mismatches. Whether both kinds of polymorphisms are important in transplantation is not known. We tested the hypothesis that allele mismatches that are detectable only at the DNA level are less immunogenic than those that are serologically detectable and thereby are associated with a lower risk of graft failure after hematopoietic-cell transplantation METHODS: We used DNA sequencing to define the HLA-A, B, and C alleles in 471 patients who received bone marrow from unrelated donors for the treatment of chronic myeloid leukemia after myeloablative conditioning therapy. The odds ratios for graft failure were determined for recipients of transplants from donors with a single class I allele mismatch, a single class I antigen mismatch, or two or more class I mismatches, as compared with those with no mismatch RESULTS: A single HLA allele mismatch did not increase the risk of graft failure, whereas a single antigen mismatch significantly increased the risk. The risk was also increased if the recipient was HLA homozygous at the mismatched class I locus or if the donor had two or more class I mismatches CONCLUSIONS: HLA class I antigen mismatches that are serologically detectable confer an enhanced risk of graft failure after hematopoietic-cell transplantation. Transplants from donors with a single class I allele mismatch that is not serologically detectable may be used without an increased risk of graft failure.
BACKGROUND: Successful engraftment of hematopoietic stem cells from unrelated donors is influenced by disparities between the donor and recipient for HLA-A, B, and C alleles. Disparities between HLA sequence polymorphisms that are serologically detectable are termed antigen mismatches, whereas those that can be identified only by DNA-based typing methods are termed allele mismatches. Whether both kinds of polymorphisms are important in transplantation is not known. We tested the hypothesis that allele mismatches that are detectable only at the DNA level are less immunogenic than those that are serologically detectable and thereby are associated with a lower risk of graft failure after hematopoietic-cell transplantation METHODS: We used DNA sequencing to define the HLA-A, B, and C alleles in 471 patients who received bone marrow from unrelated donors for the treatment of chronic myeloid leukemia after myeloablative conditioning therapy. The odds ratios for graft failure were determined for recipients of transplants from donors with a single class I allele mismatch, a single class I antigen mismatch, or two or more class I mismatches, as compared with those with no mismatch RESULTS: A single HLA allele mismatch did not increase the risk of graft failure, whereas a single antigen mismatch significantly increased the risk. The risk was also increased if the recipient was HLA homozygous at the mismatched class I locus or if the donor had two or more class I mismatches CONCLUSIONS:HLA class I antigen mismatches that are serologically detectable confer an enhanced risk of graft failure after hematopoietic-cell transplantation. Transplants from donors with a single class I allele mismatch that is not serologically detectable may be used without an increased risk of graft failure.
Authors: S Fuji; S W Kim; S Yano; S Hagiwara; H Nakamae; M Hidaka; T Ito; K Ohashi; K Hatanaka; A Takami; S Kurosawa; T Yamashita; T Yamaguchi; T Fukuda Journal: Bone Marrow Transplant Date: 2015-11-09 Impact factor: 5.483
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Authors: Raphael Carapito; Ismail Aouadi; Angélique Pichot; Perrine Spinnhirny; Aurore Morlon; Irina Kotova; Cécile Macquin; Véronique Rolli; Anne Cesbron; Katia Gagne; Machteld Oudshoorn; Bronno van der Holt; Myriam Labalette; Eric Spierings; Christophe Picard; Pascale Loiseau; Ryad Tamouza; Antoine Toubert; Anne Parissiadis; Valérie Dubois; Catherine Paillard; Myriam Maumy-Bertrand; Frédéric Bertrand; Peter A von dem Borne; Jürgen H E Kuball; Mauricette Michallet; Bruno Lioure; Régis Peffault de Latour; Didier Blaise; Jan J Cornelissen; Ibrahim Yakoub-Agha; Frans Claas; Philippe Moreau; Dominique Charron; Mohamad Mohty; Yasuo Morishima; Gérard Socié; Seiamak Bahram Journal: Bone Marrow Transplant Date: 2020-04-14 Impact factor: 5.483
Authors: John A Hansen; Effie W Petersdorf; Ming-Tseh Lin; Steven Wang; Jason W Chien; Barry Storer; Paul J Martin Journal: Immunol Res Date: 2008 Impact factor: 2.829
Authors: Hirohisa Nakamae; Barry E Storer; Rainer Storb; Jan Storek; Thomas R Chauncey; Michael A Pulsipher; Finn B Petersen; James C Wade; Michael B Maris; Benedetto Bruno; Jens Panse; Effie Petersdorf; Ann Woolfrey; David G Maloney; Brenda M Sandmaier Journal: Biol Blood Marrow Transplant Date: 2009-11-10 Impact factor: 5.742