Identification of the novel allele HLA-B*1545: assessment of alloreactivity in case of mismatch with other B*15 alleles

The novel allele HLA-B*1545, which has been serologically typed as B62, was identified in a male Caucasian. In the sequence analysis the new allele differs from B*1507 by nucleotide 419 which is located in exon 3. Its structure suggests that it may have originated by a point mutation or by gene conversion with a variety of HLA-B alleles. At the protein level, the nucleotide substitution results in an amino add exchange compared to B*1507 (Tyr116Ser). Due to probably substantial differences to B*1507 and the other B*15 variants with regard to peptide binding, a mismatch is likely to impair clinical outcome of bone marrow transplantation.     

The variation of the novel allele HLA-B*0739 suggests low alloreactivity when mismatched with HLA-B*0702

We here report the identification of a new HLA-B*07 allele in a male Caucasian. The new allele was initially typed as B*0713 by sequence-specific primed PCR. Because of the infrequence of that allele, a sequencing-based typing was performed to confirm that result. This yielded the detection of the novel allele. It is closest to B*070201, while it differs from B*0713 in 12 positions in exon 2. Compared to B*070201, the new variant is characterized by a non-synonymous nucleotide exchange (C-->T) at nucleotide position 118 of exon 2. Previously, this was considered a constant position, suggesting that it is likely to be caused by a single-point mutation. It results in the amino acid exchange Ala-->Val at position 40 of the mature polypeptide. As this position is located in an outer loop of the HLA molecule, it is highly unlikely to affect peptide binding or T-cell receptor interaction. Thus, the newly found allele should have a low alloreactive potential in case of a mismatch to the most common HLA-B allele B*0702.     

Identification of the novel allele HLA-B*0809 in a Caucasian individual: estimation of allogeneic potential between B*08 variants

The identification of the new allele HLA-B*0809, which was found in a Caucasian individual, is described. In the sequence analysis the new allele differs from B*0801 by six nucleotides located in exon 3. As the structure is identical to a variety of other HLA-B alleles, it is likely that the new allele originated by gene conversion. At the protein level, the new allele has two amino acid differences compared to B*0801. Comparing the residues of the alpha1 and alpha2 domains of the B*08 variants to each other, a high degree of polymorphism was found. Three alleles differ from B*0801 by only one amino acid residue whereas the other comparisons revealed at least two disparities. B*0809 differs from the other B*08 variants by at least two amino acid residues, suggesting that mismatching may provoke alloreactivity and thus impair clinical outcome of bone marrow transplantation. Among the B*08 alleles with a single amino acid difference, the mismatch combinations B*0801 vs. B*0805 and B*0801 vs. B*0807 appear to be the most compatible based on structural data.     

A new HLA-B*15 variant - B*9507

The human leukocyte antigen-B*15 variant B*9507 is similar to B*1505 (B62) but with substitutions of A>C at position 463 and G>C at position 477 in exon 3. This results in a single amino acid change of serine to arginine (AGC>CGC) at codon 131 and a silent substitution (GCG>GCC - conserved alanine) at codon 135.     

Routine HLA-B genotyping with PCR-sequence-specific oligonucleotides detects a B*52 variant (B*5206)

A new human leukocyte antigen (HLA)-B allele was found during routine typing of samples for a German unrelated bone marrow donor registry, the "Aktion Knochenmarkspende Bayern". After first interpretation of data of two independent low-resolution sequence-specific oligonucleotide typing tests, a B*51 variant was suggested. Further analysis via sequence-based typing identified the sequence as new B*52 allele. This new allele officially assigned as B*5206 differs from HLA-B*520102 by one nucleotide exchange in exon 2. The mutation is located at nucleotide position 274, at which a cytosine is substituted by a thymine leading to an amino acid change at protein position 67 from serine (TCC) to phenylalanine (TTC).     

Identification of a new HLA-B*56 variant, B*5614

In this report, the novel allele B*5614 is presented. The allele was identified in a Chinese individual by sequence-based typing. HLA-B*5614 differs from B*5608 by a single nucleotide at position 277G-->C in exon 2. This results in an amino acid change from Gly to Arg at codon 93.     

Sequence of the HLA-B*1573 allele

We report here the sequence of an HLA B*15 allele, B*1573. Initially, a cord blood unit from the Umbilical Cord Bank of Barcelona was typed by sequence-specific oligonucleotide hybridization and revealed an unusual hybridization pattern. After the cloning, the sequence-based typing assigned two different alleles: B*07021, and a second allele identical to B*1558 in exons 2 and 3, except for a single nucleotide substitution in exon 3, which changed codon 140 from Phe to Leu (TTX-->TTA).     

HLA-B新等位基因B*9536和B*4612的测序分析和确认

目的 研究人类白细胞抗原(human leukocyte antigen,HLA)新等位基因HLA_B*9536和B*4612的分子机制.方法 采用Invitrogen抽提试剂盒抽提标本DNA,利用单链特异性引物PCR方法扩增样本HLA-B基因第2～4外显子,对PCR产物直接进行HLA-B基因第2、3、4外显子双向测序分析.结果 先证者标本存在2个HLA-B等位基因,经HLA Blast验证均为新的等位基因,新的等位基因序列已递交GenBank(EU081878和EU081879),经世界卫生组织HLA命名委员会正式命名为HLA-B*9536和HLA-B*4612.HLA-B*9536第2～4外显子序列与最接近的B*1505相比,在第3外显子存在一个碱基的不同,即第544位G→A改变,导致第158位氨基酸Ala→Thr;HLA-B*4612第2～4外显子序列与最接近的B*4601相比,在第3外显子存在一个碱基的不同,即第363位G→C,导致第97位氨基酸Arg→Ser.结论 在同一标本中发现两个新的HLA-B等位基因,并被世界卫生组织HLA命名委员会正式命名.     

Identification of two new alleles in a single Korean individual,HLA-B*1568 and HLA-DRB1*1208

We have identified a new HLA-B*15 allele and a new HLA-DRB1*12 allele, named B*1568 and DRB1*1208, respectively. The alleles were identified using a combination of sequence specific primers, reverse line sequence specific oligonucleotide probing and sequence-based typing. Both alleles were identified in a single individual of Korean origin. HLA-B*1568 appears to be an HLA-B*4801/B*1507 hybrid combining the exon 2 sequence of B*4801 and the exon 3 and 4 sequences of B*1507. Exon 2 of DRB1*1208 was most similar to DRB1*1201 or 1206, with a single mismatch at nucleotide position 165 (A to C). At the protein level, this substitution results in a phenylalanine substitution at position 26 that creates an identical amino acid sequence to DRB3*0202 between amino acid positions 17 and 36.     

Identification of three novel HLA class I alleles: HLA-B*3928, HLA-B*400104 and HLA-B*4437

Three new human leukocyte antigen (HLA) class I alleles have been identified in the Tissue Typing Laboratory in Sydney, Australia. Sequence analysis of exon 2 and exon 3 of the HLA-B gene revealed the novel polymorphism. A silent substitution of C to T at nucleotide position 369 has been identified for the HLA-B*400104 allele when compared to the closest matched allele, HLA-B*400101. The HLA-B*3928 allele was identified with a nucleotide substitution of G to C at position 362 when compared to the closest matched allele, HLA-B*390101, resulting in an amino acid substitution of Arginine to Threonine. A nucleotide substitution of C to G at position 572 resulting in the amino acid change Serine to Tryptophan was identified in the new allele HLA-B*4437, when compared to the closest matched allele HLA-B*440301. Both amino acid substitutions implicate a different specificity and affinity of antigen binding for the alleles HLA-B*3928 and HLA-B*4437.     

Immunogenetics of two new HLA-B alleles: B*4414 and B*5708

Two new alleles, HLA-B*4414 and B*5708, were identified in north-western European Caucasoid blood donors. B*4414 differed from B*440201 by two nucleotide substitutions in exon 3 [positions 66 (T to C) and 69 (G to A)] producing two amino acid differences between the B*440201 and B*4414 specificities (tyrosine to histidine at codon 113 and aspartic acid to asparagine at codon 114). B*5708 differed from B*570101 by a single substitution (G to C) at position 247 in exon 2 causing an amino acid difference between B*570101 and B*5708 products of arginine to proline at codon 83. The likely haplotypes bearing these alleles were identified. Both alleles occurred once in approximately 25,000 random blood donors so both have a frequency of approximately 0.00002 (carriage frequency 0.004%). B*4414 and B*5708 specificities both gave 'short' serological reactivity for their expected specificities and Bw4. The likely reasons for this are discussed in relation to the epitopes of B44 and B57.     

The nature of recombination in HLA-B*4207

The identification of the novel human leukocyte antigen (HLA)-B*4207 allele, which was found in a blood donor of Caucasian origin, is described. The sequence of the new allele differs from HLA-B*4201 in three nucleotide substitutions in exon 2, resulting in three consecutive amino acid (AA) exchanges at position 69, 70, and 71. AA positions 69 and 70 affect the peptide-binding site of the HLA molecule in the formation of pockets A, B, and C. Therefore, it is likely that the peptide-binding motif of HLA-B*4207 differs from the HLA-B*4201 motif. HLA-B*4207 exhibits a high level of structural homology to HLA-B*08 alleles as well as to HLA-B*4201. Rating of the AA variations of these alleles according to the AA distance matrix score gives the lowest overall matching score between the HLA-B*4207 and the HLA-B*0801 alleles, indicating a high functional similarity. To further address this, homology modeling was performed using B8 as the closest structural template. The portion of the molecule that is accessible to the T-cell receptor and antibodies is identical between B*4207 and B*0801. Under consideration of allele frequencies, close inspection of these sequences shows that the new allele is most likely a result of a recombination involving B*0702 and B*0801. Unfortunately, patient consent could not be obtained for retrospective serological typing to definitively determine whether B*4207 reacts in the B8 serological group.     

Identification of the novel allele B*4427 and a confirmatory sequence (B*44022)

This report presents a novel allele, HLA-B*4427, which was identified in a bone marrow donor of Caucasian origin, and a confirmatory sequence (B*44022). Sequence analysis revealed the new allele differs from B*44021 by a single nucleotide exchange at position 668 (C-->T), which is located in exon 4. At the protein level, it is the only B*44 variant to produce an Ala in place of a Val at codon 199. Its structure suggests that it may have originated from a point mutation in B*44021 or by gene conversion with a variety of HLA-B alleles. Cloning and sequencing of the allele B*44022 revealed a sequence identical to B*44021 and B*44 exon 4, with the codon GTC (Val) in position 199.     

A new allele, HLA-B*1555, identified in an African patient awaiting bone marrow transplantation

Human HLA genes exhibit extreme polymorphism, the extent of which is emphasised by the identification of an ever increasing number of new alleles by DNA-based typing strategies. Here we describe a novel allele, belonging to the HLA-B*15 group, which was identified in an African patient awaiting a bone marrow transplant This individual was shown to exhibit two HLA-B alleles, B*5301 and a new allele which has been named B*1555. B*1555 differs from B*1531 in exon 3 by a single nucleotide substitution. This substitution results in a change in the amino acid residue at position 97, which is located within the beta-pleated sheet region of the HLA molecule.     

Identification and sequencing of HLA-B*0714 and B*2718 alleles and novel exon 1 sequences of B*0709 and B*2714 alleles in potential bone marrow donors

Sequence specific oligonucleotide probe hybridization and sequence specific primer PCR typing of volunteer bone marrow donors suggested the presence of variants of known HLA-B alleles in two individuals. PCR products encompassing HLA-B locus exons 1, 2, and 3 were prepared, subcloned and sequenced. A Hispanic individual had a novel B*07 allele (B*0714) and a Chinese individual had a novel B*27 allele (B*2718). In two other individuals, a previously unknown sequence of exon 1 was determined for HLA-B*0709 (African American) and B*2714 (Native American). These findings further illustrate the substantial genetic variation present at the HLA-B locus within human populations. We discuss the structural variation in the protein sequence for these HLA-B alleles and its potential functional effects.     

Characterization a novel HLA-B40 allele with serological Bw4 motif, HLA-B*4047, in the Finnish population and confirmation of B*270503 allele

We describe a novel HLA-B*40 allele assigned as B*4047*. The B*4047 allele was detected in a Finnish patient awaiting kidney transplantation. The patient had a "short" B60-like serological specificity with Bw4 association. After sequencing, the B*4047 allele was found to be identical to B*4001, except having five amino acid changes in exon 2, including the entire motif corresponding to Bw4 and w6 specificity. As a result of recombination or gene conversion, B*4047 has the Bw4 motif instead of expected Bw6. Screening of B40 alleles in the Finnish population revealed no other cases with this pattern, suggesting that this allele is rare. The sequence of B*270503 presented here provides the complete sequence for exons 2 and 3 for this allele. B*270503 allele differs from B*270502 by a single synonymous nucleotide substitution at non-variable position 489 in exon 3.     

A novel HLA-B*51 allele, HLA-B*5149

Discovery of the novel HLA-B*5149 allele in a North American Caucasian individual is described. It differs from B*510101 by one nucleotide within the coding sequence of exons 1-6. A substitution at nucleotide position 488 in exon 3 changes alanine to glycine in amino acid position 139.     

Novel HLA-B alleles, B*8201, B*3515 and B*5106, add to the complexity of serologic identification of HLA types

Three class I alleles, B*8201, B*3515 and B*5106, have been described using DNA and cDNA sequencing. The B*8201 allele is most structurally related to B*5602, differing from it by 14 nucleotide substitutions resulting in 5 amino acid differences. The other two alleles, B*3515 and B*5106, differ from their most closely related HLA-B alleles by 2–3 nucleotide substitutions resulting in 1–2 amino acid substitutions, respectively. The majority of nucleotide substitutions marking these new alleles are observed in other HLA-B alleles suggesting that gene conversion and/or reciprocal recombination have created this diversity. All of the amino acid substitutions are predicted to alter the antigen binding site of the HLA-B molecule. The newly defined HLA-B allelic products were originally defined by their unusual serologic reactivity patterns. The B*8201 allelic product is serologically typed as a B "blank" or as a variant of B22 or B45. These patterns and the serologic reactivity of the other newly described allelic products are consistent with the protein sequence homology among specific HLA-B molecules. While serology remains a powerful tool for detecting HLA diversity, alleles generated by events resulting in the sharing of HLA sequence polymorphisms among alleles at a locus will continue to create complexity in the interpretation of typing results.     

Immunogenetic study of a new HLA allele,B*2723

A novel HLA-B*27 allele (B*2723) detected by irregular serological and PCR-SSP typing results was identified by nucleotide sequencing of exons 2 and 3. B*2723 differs from B*27052 by nine nucleotides which encode seven amino acid changes at positions 63 (Glu to Asn), 67 (Cys to Phe), 69 (Ala to Thr), 70 (Lys to Asn), 71 (Ala to Thr), 74 (Asp to Tyr) and 77 (Asp to Ser) in the alpha1 helix. All these substitutions are possessed by B*35 alleles suggesting that B*2723 was created by a gene conversion-like event involving B*27052 and a B*35 allele. Using the HLA-A*26 and DRB1*12 alleles of the B*2723-bearing haplotype as 'markers', two further examples of B*2723 were found in 29,851 blood donors. Therefore, B*2723 has a 'minimum' gene frequency of 0.000034 (phenotype frequency 0.0067%) in blood donors resident in Wales. In all three families, B*2723 was present on a haplotype with: A*26; Cw*0202; DRB1*1201/6/7; DRB3*02; DQA1*05; DQB1*0301. The B*2723 product failed to react with HLA-B27 antisera and reacted weakly or not at all with Bw4 antisera. Lack of the ECAKA motif at amino acid positions 63, 67, 69-71 probably accounts for lack of the B27 specificity while the amino acid combination 74Y, 77S, 80T, 81L may cause aberrant Bw4 reactivity.     

A new HLA-B44 variant (B44BO [B*4408]) identified by serology

Using HLA serology, we detected a new variant of HLA-B44 — B44BO — in two families. This antigen reacts with B44 antisera and is negative with over one-third of B12 (B44, B45) sera but reacts with 50% of antisera with a B62 component, especially if they contain anti-B57. The variant, B*4408, differs from the common B*4402 by 4 nucleotide substitutions in exon 2: 193, 206 and 209, which produce changes in the α1domain at positions 41, 45 and 46 (TKE in B*4402 and AMA in B44BO); and nucleotide 213, a silent substitution. At each of these positions, B*4408 is identical to B*46, B*57 and many B*15 alleles. As anticipated from its predicted iso-electric point (5.71), one-dimensional isoelectric focusing studies showed that B44BO focuses at the same position as B*4402. The sequence and serological reactivity of this rare antigen allowed the identification of two likely epitopes shared by two different groups of HLA-B antigens.