Accurate typing of HLA-A antigens and analysis of serological deficiencies.

We are reporting the results of HLA-A typing by PCR-SSOP complemented by PCR-SSP of samples obtained from the National Marrow Donor Program (NMDP). These samples were a representative group from 2486 tested in duplicate by serology. A total of 390 samples gave HLA-A discrepant results. Comparing the molecular typing results of 238 samples (samples with available DNA) with the serological typing results, 54 homozygotes and 184 heterozygotes produced a total of 422 assignments by molecular methods. We found assignment discrepancies in 147/422 (35%) in laboratory 1 and 144/422 (34%) in laboratory 2 (a combined group of 4 NMDP laboratories; laboratory 1 is not included). The serological discrepancies found were of 3 categories: a) false negatives, b) incomplete typing (discrepancies due to the level of resolution within a cross-reactive or CREG group) and c) false positives. Major problems were identified using serology for typing HLA-A antigens: a) inability to identify all WHO-recognized specificities, more frequently in non-Caucasians or in HLA-A specificities known to be found more frequently in non-Caucasians for laboratory 1 and incorrect assignments of A19 specificities in laboratory 2, b) incorrect assignments in cells with poor viability and c) false-positive assignments in homozygotes. We propose a possible strategy to type HLA-A specificities with two steps: a) a minimum of serology for typing specificities for common CREG groups: A1, A2, A3, A11, A9, A10, A28, A19. However, a given laboratory can determine the level of serological assignments needed as a first step. And b) molecular methods to identify splits: A23, A24, A29, A30, A31, A32, A33, A34, A36, A66, A74 and A80. The technique described is useful for large-scale bone marrow donor typings for cells with poor viability, and for resolving ambiguous results including false-positive assignments of homozygous cells.

[1]  B. Dupont,et al.  Comparison of HLA-A antigen typing by serology with two polymerase chain reaction based DNA typing methods: implications for proficiency testing. , 1996, Tissue antigens.

[2]  M. Barnardo,et al.  Phototyping: comprehensive DNA typing for HLA-A, B, C, DRB1, DRB3, DRB4, DRB5 & DQB1 by PCR with 144 primer mixes utilizing sequence-specific primers (PCR-SSP). , 1995, Tissue antigens.

[3]  Arne Svejgaard,et al.  Nomenclature for Factors of the HLA System, 1995 , 1995, Vox sanguinis.

[4]  M. Bunce,et al.  Genetic polymorphism within HLA-A*02: significant allelic variation revealed in different populations. , 1995, Tissue antigens.

[5]  S. Y. Yang,et al.  Locus-specific amplification of HLA class I genes from genomic DNA: locus-specific sequences in the first and third introns of HLA-A, -B, and -C alleles. , 1995, Tissue antigens.

[6]  S. Serjeantson,et al.  Characterization of the HLA-A polymorphism by locus-specific polymerase chain reaction amplification and oligonucleotide hybridization. , 1994, Human immunology.

[7]  J. Bodmer,et al.  Defining the common subtypes of HLA A9, A10, A28 and A19 by use of ARMS/PCR. , 1993, Tissue antigens.

[8]  J. Bodmer,et al.  Tissue typing the HLA-A locus from genomic DNA by sequence-specific PCR: comparison of HLA genotype and surface expression on colorectal tumor cell lines. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[9]  M. Petzl-Erler,et al.  Structural diversity in the HLA-A10 family of alleles: correlations with serology. , 1993, Tissue antigens.

[10]  M. Chopek,et al.  Unrelated donor matching for bone marrow transplantation. , 1993, Transplantation proceedings.

[11]  O. Olerup,et al.  HLA-DR typing by PCR amplification with sequence-specific primers (PCR-SSP) in 2 hours: an alternative to serological DR typing in clinical practice including donor-recipient matching in cadaveric transplantation. , 1992, Tissue antigens.

[12]  P. Parham,et al.  Multiple genetic mechanisms have contributed to the generation of the HLA-A2/A28 family of class I MHC molecules. , 1987, Journal of immunology.