Serologic ambiguity and allelic frequency of the HLA-B40 family in the Korean population

The most frequently identified HLA-B type in Koreans is HLA-B40 (13.4%). Due to the lack of mono-specific alloantisera and cross reactivity of sera used as typing reagents, discrimination between the serologic splits of B40, B60 and B61, has been a problem in tissue typing laboratories. In this study, an efficient PCR-SSP typing system was established to distinguish B60 and B61 and to assess the difficulty in serologic assignment for these types. The SSP system was also used to elucidate the frequency of B40 alleles (B*4001-B*4008) encoding B40 molecules in the Korean population. Eighty eight unrelated individuals identified serologically as B40 positive were selected from 358 consecutive volunteers from the unrelated bone marrow registry. Seven sets of PCR that amplify exons 2 and 3 of the HLA-B gene using 10 sequence specific primers (SSP) were used for discrimination between B60 and B61, and for B40 allelic typing. A clear discrimination of B60 and B61 was possible in all samples including 48 serologically ambiguous samples (B60 – 14/48; B61 – 34/48) and 5 potentially B40 homozygous samples (B60/B61 heterozygotes – 4/5; B60 homozygote - 1/5). Therefore, the use of a focused SSP approach enhances serologic definition of HLA types in routine clinical testing. In allelic typing, all B60 samples (26) appeared to be B*4001, but B61 samples revealed more heterogeneity (B*4002 – 36/58, B*4003 – 4/58, B*4006 – 18/58). In addition, B*4003 seemed to be closely associated with the A24-Cw3-DRB1*02 haplotype (3/4). The characterization of allele frequency as well as haplotypic association will be helpful in determination of the optimal size of the volunteer marrow donor pool in the Korean population.     

A comprehensive approach for typing the alleles of the HLA-B locus by automated sequencing

Abstract: We describe an approach for typing alleles of the HLA-B locus by using automated sequencing technology. The exon 2 and exon 3 nucleotide sequence of each allele is determined directly from genomic DNA in two steps. In the first step, HLA-B exon 2, intron 2 and exon 3 sequences are amplified with one or two primer pairs out of a panel of 5 primer pairs that describe all known HLA-B alleles. In the second step, templates are sequenced in 5' and 3' orientations in a PCR assay that utilizes Taq polymerase to incorporate fluorescent dye-labeled nucleotides into each new strand synthesized. Gel electrophoresis of the labeled products is performed in an automated DNA sequencer. The derived sequences are aligned against reference sequences and each nucleotide position is evaluated for homology to consensus sequence. Using this strategy, the HLA-B allele sequence is directly ascertained with precision and efficiency. The automated sequencing strategy can be readily applied in the clinical laboratory as a practical tool for high resolution typing of HLA-B alleles.     

Analysis of HLA-B*44 alleles encoded on extended HLA haplotypes by direct automated sequencing

Abstract: We developed a PCR-based approach to sequence exons 2 and 3 of HLA-B44 alleles from genomic DNA. We applied this method to determine the B44 alleles encoded on extended HLA-A, B, DRB1, DQB1 haplotypes and the degree of mismatching for B44 alleles among marrow transplant patients and their unrelated donors (URD). A total of 81 samples was studied and included 38 patients, 42 donors and the cell "FMB"; the 80 clinical samples were comprised of 8 unpaired patients, 12 unpaired donors, and 30 URD-recipient pairs. Three alleles encoding B44 were identified, B*4402 (N=51), 4403 (N=32) and a new allele designated B*44KB and named B*4405 (N=4). Of the 27 patients for whom family study was available, there were 13 different B*4402, 7 different B* 4403 and 2 new B*4405 haplotypes. HLA-A2, Cw*0501, B*4402, DRB1* 0401, DQB1*0301 (n=2); A2, Cw*0501, B*4402, DRB1*1501, DRB5* 0101, DQB1*0602 (n=2); and HLA-A29, Cw*1601, B*4403, DRB1* 0701, DQB1*0201 (n=5) comprised the most common patient haplotypes. Of 30 URD-recipient transplant pairs studied, 27 were HLA-A, B serologically matched and DRB1, DRB3, DRB5, DQB1 allele matched, and 3 pairs were DRB1-mismatched. All B44 allele mismatching (N=3) occurred among the 27 matched pairs. The novel B*4402-variant sequence, HLA-B*4405, was identified in 4 individuals, and in each case was associated with an HLA-B44, Cw*02022, DRB1*0101, DQB1*0501 haplotype. HLA-B*4405 and B*4402 are identical in exon 2; in exon 3 however, B*4405 encodes T instead of G at nucleotide position 75 which translates to a substitution of tyrosine for aspartic acid at codon 116. Finally, the published B*4402 sequence derived from cell "FMB" was found to contain an error; the corrected B*4402 sequence encodes G rather than C at position 146 of exon 3.     

Twenty-five novel HLA-B alleles

Twenty-five novel HLA-B alleles are described in this paper: B*0729, B*1309, B*1814, B*1815, B*2724, B*2725, B*3539, B*3926, B*4037, B*4040, B*4042, B*4043, B*4044, B*4204, B*440203, B*4428, B*4429, B*4430, B*4505, B*5308, B*5309, B*5510, B*5511, B*570102, and B*5709. Most of the variants are single nucleotide substitutions. Two involve variants at the Bw4/Bw6 epitope. Two alleles carry substitutions of conserved amino acids.     

用PCR-SSP分析HLA-B位点血清学分型困难标本

对血清学ＨＬＡ－Ｂ位点分型困难标本用ＰＣＲ－ＳＳＰ方法分析,并寻找血清分型效果不佳原因。方法：用本室建立的ＰＣＲ－ＳＳＰ方法对１００株标准细胞及９１份血清学分型困难标本分别作ＨＬＡ－Ｂ位点分析,前者为作ＰＣＲ－ＳＳＰ方法的参考对照品。结果：１０００株标准细胞分析结果与已知结果一致;９１例疑问标本均顺利地区ＰＣＲ－ＳＳＰ分型,结果共有７０种等位基因格局,其中３６种与血学 同,占５２％,ＰＣＲ－ＳＳＰ     

Comprehensive, serologically equivalent DNA typing for HLA-B by PCR using sequence-specific primers (PCR-SSP)

Abstract: Polymorphic products of HLA class I genes from the human major histocompatibility complex (MHC) are traditionally assigned by serology with additional heterogeneity detectable using one-dimensional isoelectric focusing (1D-IEF). With the increased availability of HLA class I DNA sequence information it has become feasible to genotype for class I by polymerase chain reaction utilising sequence-specific primers (PCR-SSP). We describe here a comprehensive HLA-B PCR-SSP typing system based on available HLA nucleotide sequences which can detect all serologically defined antigens in most heterozygous combination in 48 one-step PCR reactions. In addition, four new unsequenced variants have been identified. DNA samples from 57 International Histocompatibility Workshop reference cell lines and 160 control individuals have been typed by the HLA-B PCR-SSP technique. 3/57 cell line types and 12/160 normal control individuals types were discrepant with the reported serological types. The SSP system has been designed to be higher resolution than serology but is not a complete allele-specific PCR although many single alleles can be identified. The system is entirely complementary to previous published PCR-SSP systems for HLA-Class II and HLA-Class I in that the same PCR conditions and controls are used which allows us to do one step PCR-SSP for all relevant HLA loci in under 3 hours in a system suitable for the typing of cadaver donors.     

Twenty-three novel HLA-B alleles identified during intermediate-resolution testing

Twenty-three novel human leukocyte antigen-B alleles are described: B*070204, *0738, *0742, *0821, *130202, *1312, *1575, *1598, *1599, *270507, *2728, *350104, *3558, *3811, *3931, *3932, *4045, *4107, *420501, *4812, *510106, *5520, and *5616. Thirteen of the variants are single-nucleotide substitutions from their most homologous allele, eight resulting in amino acid changes (B*0742, *1312, *1598, *1599, *3558, *3931, *4107, and *5616) and five with silent substitutions (B*070204, *130202, *270507, *350104, and *510106). Three alleles (B*0738, *4812, and *5520) differ by five nucleotide changes, altering four amino acids. The remaining seven alleles differ from their most similar alleles by two to three nucleotides, altering from one to two amino acids.     

Novel HLA-B alleles formed by an inter-locus recombination with HLA-C,HLA-B*0713 and B*6702

This paper describes two novel HLA-B locus alleles. B*0713 appears to have resulted from an interlocus recombinational event which inserted a sequence from an HLA-C allele into B*0702. This event altered a significant portion of the alpha-1 domain alpha helix. B*6702 shares much of its exon 2 sequence with B*0713 but is identical in exon 3 to several HLA-B locus alleles including B*67012.     

Novel HLA-B alleles associated with antigens in the 7C CREG

This paper describes 9 novel HLA-B locus alleles. All of the alleles carry sequence motifs observed in other HLA-B alleles.     

Seven new HLA-B alleles associated with antigens in the B7 CREG

This paper describes seven novel HLA-B alleles. Five of these new alleles contain polymorphic motifs previously reported in HLA-B alleles, suggesting an origin resultant from a gene conversion mechanism. B*0723 contains a polymorphism previously unreported in class I HLA molecules. B*4105 contains a nucleotide substitution previously unreported in class I HLA molecules, which encodes a protein sequence previously reported only in HLA-C locus alleles.     

HLA-B*0749N: the first HLA-B*07 null allele

In the present article, we report the identification of the first HLA-B*07 null allele found in a Polish patient awaiting a kidney allograft. A discrepant result obtained between serological typing (HLA-B "blank") and high-resolution molecular typing using PCR-SSP method (HLA-B*070201 allele) suggested the presence of a null allele. Genomic DNA sequencing of the HLA-B*07 allele revealed a single nucleotide substitution at the 3' end of the exon 4 leading to a premature stop codon.     

Novel HLA-B alleles associated with antigens in the 8C CREG

This paper describes 13 novel HLA-B locus alleles, B*0809, B*0812, B*0813, B*0814, B*14062, B*3804, B*3806, B*3914, B*3915, B*3918, B*3919, B*3920, and B*3922 which represent new patterns of known polymorphic residues.     

Twenty-nine new HLA-B alleles associated with antigens in the 5C CREG

This paper describes 29 novel HLA-B locus alleles identified during low-resolution typing. The majority of the novel alleles carry new patterns of previously known polymorphic motifs or codons. Three alleles carry alterations in the Bw4/Bw6 epitope. Five alleles carry novel substitutions.     

Identification and sequencing of the HLA-B*4106 allele

We report a novel HLA-B*41 allele (HLA-B*4106) initially detected by an unusual sequence-specific oligonucleotide (SSO) hybridization pattern and identified by sequence-based HLA typing. Molecular cloning and sequencing determined that the new HLA-B allele was identical to the HLA-B*4101 in exon 2 and 3 except for a single nucleotide substitution in the exon 3 changing codon 204 from Glu to Gln (GAG-->CAG). In addition, intron 2 was identical to the published HLA-B*4104 intron 2, except for the base 509 (C-->G).     

A novel HLA-B*55 allele, HLA-B*5514, found in a DNA sample derived from a bone marrow donor

In this study, we report the identification of a new human leucocyte antigen-B (HLA-B) allele in a sample that was found in our routine typing. This novel allele, officially designed HLA-B*5514, was found in a male donor of Bavarian Caucasoid origin (Laboratory code: 117562) typed in order for a request of the bone marrow donor registry Aktion Knochenmarkspende Bayern. Although this novel allele was added to the HLA-B*55 family by the Nomenclature Committee, the next related alleles were found in the HLA-B*56 group; HLA-B*5612 differing in six positions from HLA-B*5514 is the closest related allele.     

Characterization of the novel allele HLA-B*4075

A novel human leukocyte antigen (HLA)-B allele, B*4075, is the close matching allele B*40060101 by one nucleotide substitution in exon 2, at position 272 C→G, which leads to a amino acid change at codon 67 from Ser to Cys (S67C).