Abstract
BackgroundHuman leukocyte antigen matching at allelic resolution is proven clinically significant in hematopoietic stem cell transplantation, lowering the risk of graft-versus-host disease and mortality. However, due to the ever growing HLA allele database, tissue typing laboratories face substantial challenges. In light of the complexity and the high degree of allelic diversity, it has become increasingly difficult to define the classical transplantation antigens at high-resolution by using well-tried methods. Thus, next-generation sequencing is entering into diagnostic laboratories at the perfect time and serving as a promising tool to overcome intrinsic HLA typing problems. Therefore, we have developed and validated a scalable automated HLA class I and class II typing approach suitable for diagnostic use.ResultsA validation panel of 173 clinical and proficiency testing samples was analysed, demonstrating 100% concordance to the reference method. From a total of 1,273 loci we were able to generate 1,241 (97.3%) initial successful typings. The mean ambiguity reduction for the analysed loci was 93.5%. Allele assignment including intronic sequences showed an improved resolution (99.2%) of non-expressed HLA alleles.ConclusionWe provide a powerful HLA typing protocol offering a short turnaround time of only two days, a fully integrated workflow and most importantly a high degree of typing reliability. The presented automated assay is flexible and can be scaled by specific primer compilations and the use of different 454 sequencing systems. The workflow was successfully validated according to the policies of the European Federation for Immunogenetics. Next-generation sequencing seems to become one of the new methods in the field of Histocompatibility.
Highlights
Human leukocyte antigen matching at allelic resolution is proven clinically significant in hematopoietic stem cell transplantation, lowering the risk of graft-versus-host disease and mortality
Patients undergoing allogeneic Haematopoietic stem cell transplantation (HSCT) have greatly benefited from the deeper understanding of the human leukocyte antigen (HLA) system and notably from high-resolution definition of the classical transplantation antigens
The extensive allelic diversity of these loci is mainly driven by recombination, which results in patchwork pattern of sequence motifs and makes HLA typing at 4-digit and even at 2-digit level challenging
Summary
Human leukocyte antigen matching at allelic resolution is proven clinically significant in hematopoietic stem cell transplantation, lowering the risk of graft-versus-host disease and mortality. Patients undergoing allogeneic HSCT have greatly benefited from the deeper understanding of the HLA system and notably from high-resolution definition of the classical transplantation antigens. The extensive allelic diversity of these loci is mainly driven by recombination, which results in patchwork pattern of sequence motifs and makes HLA typing at 4-digit and even at 2-digit level challenging. In this context, the numerous technological advancements in the field of Immunogenetics are of particular importance, eminently the application of DNA-based methodologies [7]
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