Five newly identified HLA alleles: A*0310, A*2907, B*4435, Cw*0206, Cw*0506, and confirmation of A*3106, B*3924, Cw*0314, DRB1*0322, and DRB1*1433 alleles

A number of HLA alleles have been newly identified. This concerns HLA-A*0310, A*2907, B*4435, Cw*0206, Cw*0506, of which Cw*0206 was found in three unrelated individuals, all B*4002 positive. Some other alleles are also presented but confirm earlier detected sequences: A*3106, Cw*0314, DRB1*0322, and DRB1*1433. Moreover, we identified B*3924 in a bone marrow transplant recipient and in five of six unrelated stem cell donors, selected for this patient. In all cases, B*3924 was found on a haplotype combining A*0201, B*3924, Cw*0701, and DRB1*1303. The observation of this extended haplotype is of importance for the selection for stem cell transplantation. Cells expressing B*3924 and B*4435 were typed by serology as B39 and B44, respectively. Cells expressing HLA-A*0310 do not express A3 but type as A-Blank.     

A new pair of HLA-C alleles, Cw* 12042 and Cw*1203, differing at the KIR-related dimorphism of codons 77–80

Abstract: A previously unknown HLA-C variant of the Cw*12 group was identified by PCR-SSP from genomic DNA of cell NDS-JD. Molecular cloning and nucleotide sequence analysis permitted the characterization of the complete coding region of this new allele, Cw*12042. The new variant differs from the recently reported Cw*12041 by two silent changes at exons 2 and 3, and from Cw*1203 by coding changes at codons 77 and 80. Cw*1203 (Ser-Asn) and Cw*12042 (Asn-Lys) constitute the second known example of HLA-C alleles only differing at the KIR-related dimorphism of residues 77–80. The new allele is associated in cell NDS-JD with the haplotype HLA-A*2403, Cw*12042, B*51, DRB1*1502, DRB5*0102, DQB1*0601, possibly related from the evolutionary aspect to the ancestral haplotype A*2402, Cw*1202, B*5201, DRB1*1502, DRB5*0102, DQBl*0601.     

HLA-C sequence based typing: nucleotide analysis from exon 1 through exon 8. Identification of a new allele: Cw*0718

At present, 128 HLA-Cw alleles have been described. Twenty-four of 128 display critical polymorphisms in contributing to allele identification outside exons 2 and 3. As a matter of fact, complete resolution of Cw*030201, Cw*030202, Cw*0409N, Cw*0501, Cw*0503, Cw*070101, Cw*070102, Cw*070401, Cw*0706, Cw*0711, Cw*0718, Cw*120201, Cw*120202, Cw*150501, Cw*150502, Cw*1701, Cw*1702, Cw*1703, Cw*1801 and Cw*1802 alleles requires nucleotide analysis of exons 1, 4, 5, 6 and 7. Moreover, some alleles (Cw*04010101, Cw*04010102, Cw*07020101 and Cw*07020102) showing nucleotide differences outside the coding regions of HLA-C gene (intron 2) have been reported. High resolution sequence based typing (SBT) developed in this study involves two DNA amplifications and 12 direct sequencing reactions and allows the analysis of HLA-C polymorphisms from exon 1 through exon 8, including intron 2. This typing procedure identifies all 128 Cw alleles described so far. Nevertheless, a number of ambiguous heterozygous typing results may be expected, this being the major drawback of SBT methods. A total of 201 samples were HLA-C typed using SBT strategy here described. The sequence of exons 6, 7 and 8 of HLA-Cw*070102 allele was elucidated. A novel HLA-Cw*07 allele, Cw*0718, was identified in two samples. Cw*0718 differs from the Cw*070101 allele by a unique nucleotide position within exon 6, resulting in an amino acid substitution at codon 324 (Ala-->Val) in the cytoplasmic region of the molecule.     

Identification of a novel HLA-Cw*05 allele, Cw*0503

HLA-Cw*05 is one of the least polymorphic subgroups of HLA-C; so far only two alleles, namely Cw*0501 and Cw*0502, have been reported. We report here the identification of a third allele, Cw*0503, in a Caucasian individual. Cw*0503 is closely related to Cw*0501 with only six nucleotide substitutions clustering over a fragment of 48 nucleotides at the beginning of exon 4. All these six substitutions at the same positions have been found only in HLA-B*44 alleles, suggesting that Cw*0503 is a result of recombination between Cw*0501 and one of B*44 alleles.     

Identification of a new variant, HLA-Cw*1507, differing from Cw*1502 only at the KIR-related dimorphism of codons 77 and 80

We describe here a novel allele, HLA-Cw*1507, identified by polymerase chain reaction using sequence-specific primers (PCR-SSP) and sequence-based typing (SBT). Cw*1507 is similar to Cw*1502 with differences at nucleotide positions 302 (A to G) and 312 (A to C) in exon 2. The substitutions observed in Cw*1507, change codon 77 from AAC (asparagine) to AGC (serine) and codon 80 from AAA (lysine) to AAC (asparagine), compared to Cw*1502. Residues 77 and 80 of HLA-C alleles are located in the alpha 1 domain, where they can influence interaction between antigenic peptides and the T-cell receptor. Also, the dimorphism at these residues from asparagine and lysine to serine and asparagine, respectively, are known to modulate interaction with the natural killer (NK) cell killer inhibitory receptor (KIR). The new HLA-Cw*1507, together with Cw*1502, represents the fourth pair of HLA-C alleles differing only at the KIR-related dimorphic codons 77 and 80.     

The new HLA-Cw*0442 allele possibly generated by a recombination event involving Cw*04010101 and Cw*1801

A new human leukocyte antigen-C (HLA-C) allele Cw*0442 was identified in a Spanish Caucasian patient by sequencing-based typing (SBT). HLA-Cw*0442 differs from Cw*04010101 by three amino acid replacements at positions 9 (S>D), 11 (S>A), and 14 (W>R).     

HLA-C typing of eleven Papua New Guineans: identification of an HLA-Cw4/Cw2 hybrid allele

HLA-C polymorphism of 11 individuals from Papua New Guinea was studied by serology and DNA typing (SSP ARMS-PCR). To resolve certain discrepancies HLA-C alleles were cloned and sequenced. Five alleles were identified by sequencing, four of which; Cw*0304, Cw*0401, Cw*12022 and Cw*1502 have been identified previously in other populations. The fifth allele, which was found in four individuals is a novel HLA-C allele. The new allele, called HLA-Cw*0403 is most similar to HLA-Cw*0401, differing by 10 nucleotides, 9 of which are located in the region from nucleotide 98 to 218. This region of Cw*0403 is identical to both HLA-Cw*0201 and Cw*02022. The 9 nucleotide differences between Cw*0401 and Cw*0403 result in 6 amino acid differences in the α1 domain. These amino acids in Cw*0403 may contribute to the serological typing of some, but not all Cw*0403 expressing cells. The Final difference between Cw*0401 and Cw*0403 is a coding substitution at nucleotide 979 in exon 5. The guanine found in Cw*0403 is identical to all HLA-C alleles except HLA-Cw*0401, which has an adenine. The Cw*0403 allele was most likely formed by a gene conversion event between Cw*02 and Cw*04, involving a minimum of 121 to a maximum of 215 nucleotides.     

Identification of a novel HLA-Cw*08 variant allele, Cw*0824

A novel HLA-C allele, Cw*0824, which was identified from an individual of the Han Chinese, differs from Cw*080101 at codon 222 (GAG > AAG ) in exon 4, which results in an amino acid change Glu222Lys.
In recent years, many human leukocyte antigen (HLA)-C alleles have been identified. Up to date, 23 different Cw*08 alleles have been identified according to the IMGT/HLA Database release 2.25.2 May 2009 (1) . Here, we describe the identification of the novel allele HLA-Cw*0824 that was found during routine high resolution sequence-based typing (SBT) of a Chinese stem cell voluntary donor. The HLA alleles of the donor were typed as A*11, 24; B*15, 46; and DRB1*09, 12.     

Molecular diversity of the HLA-C locus in unrelated marrow transplantation

Abstract: The diversity of HLA-C exon-2 alleles in 56 HLA-A, B, DRB and DQB1-matched patient-unrelated marrow donor pairs was examined by non-cloning polymerase chain reaction-based sequencing of genomic DNA. This method allows simultaneous analysis of both alleles in heterozygous samples. All Cw5-positive individuals encoded a sequence which differed from the published Cw*0501 sequence at position 61. Among 82 samples assigned a single antigen by serologic testing, 64 (78%) were heterozygous for two distinct alleles when tested by sequencing. Cw*1202, 1601 and 15 were identified in samples for which no phenotype could be assigned (C "blank"). Finally, 7 of the 56 HLA-A, B, DRB, DQB1-matched pairs (12.5%) were mismatched for one or both HLA-C alleles. We conclude that sequence-based methods constitute the optimal strategies for typing HLA-C alleles in the unrelated marrow transplant population.     

Elongation of the cytoplasmic domain,due to a point deletion at exon 7, results in an HLA-C null allele,Cw*0409 N

The development of molecular techniques for HLA typing has allowed the identification of genes previously assigned as serologic blank alleles. Lack or poor cell surface expression has been found for molecules coded by HLA-A, -B, -DRB4, -DRB5, and -DPB1 genes. In this report we describe the first HLA-C gene encoding for a null cell surface molecule. HLA-Cw*0409 N shows a point deletion at position 1095 within exon 7. This mutation provokes a codon reading shift, generating a new translation stop codon 97 bp downstream to that described in alleles normally expressed. This new stop codon location implies the presence of 32 extra amino acid residues in the cytoplasmic domain. Transfection experiments suggest that elongation of the cytoplasmic domain in Cw*0409 N would be the cause of cell surface expression failure, although Cw*0409 N heavy chain is able to create stable complexes with beta2-microglobulin. HLA-C fragment length analysis in a small selected group of samples with B44-Cblk haplotypic associations allowed us to identify two additional subjects showing both a serologic silent Cw*04 allele and a point base deletion at the 3' end of the HLA-C gene. This finding indicates that the allele frequency of Cw*0409 N within serologic C blank alleles would be appreciable, although basically restricted to the (A23)-Cw*0409 N-B*4403-DR7-DQ2 haplotype.     

Sequencing of four new HLA-C alleles, Cw*070403, Cw*0757, Cw*1705, and Cw*0223

Sequencing-based typing for unrelated hematopoietic stem cell transplantation studies rendered four new HLA-C alleles. HLA-Cw*0757, Cw*070403, and Cw*1705 differ by single point mutations from their most similar alleles, Cw*070105, Cw*070401, and Cw*1701, respectively. In contrast, Cw*0223 discloses five amino acid replacements at the α2 domain regarding Cw*020202.     

Identification of an HLA-C variant allele, Cw*0805, by sequencing based typing

Abstract: We have identified a. variant HLA-C allele, Cw*0805, in DNA isolated from a blood sample used in the UK National External Quality Assessment Scheme for Histocompatibility and Immunogenetics. The DNA was initially typed by PCR-SSP and PCR-SBT as Cw*0802, 1602 with a single mismatch in exon 2 of one of the alleles. The two HLA-C alleles were separated by locus- and allele-speciflc PCRs and sequencing analysis showed that the Cw*0802 allele was variant in this sample, with a single mismatch in exon 2 at position 289.     

HLA-DRB1*0826 and HLA-DQB1*0627, two novel class II alleles identified in blood stem cell donors of Caucasian origin

This report describes two novel HLA class II alleles, HLA-DRB1*0826 and HLA-DQB1*0627, that have been identified in two unrelated voluntary blood stem cell donors of Caucasian origin. HLA-DRB1*0826 is characterized by a nucleotide substitution (G to T) in exon 2 at position 163, leading to an amino acid exchange from argenine to leucine. The donor phenotype is HLA-A*0301,*2902; B*3501,*4403; Cw*0401,*1601; DRB1*0101,*0826; DQB1*0402, *0501. The HLA-DQB1*0627 alleles contain a nucleotide substitution at position 184 (T to C) resulting in an amino acid exchange from tyrosine to histidine. Family segregation analysis revealed that the HLA-DQB1*0627 allele belongs to the haplotype A*0101, B*1517, Cw*0701, DRB1*1302, DQB1*0627. The donor phenotype is HLA-A*0101; B*0801,*1517; Cw*0701; DRB1*1302,*1501; DQB1*0602,*0627.     

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.     

Characterization of a novel HLA-Cw*02 variant, Cw*0208, in a Caucasian individual

We describe an additional HLA-Cw*02 variant, HLA-Cw*0208, which has been identified in a renal transplant recipient of Caucasian origin (Italy). After performing preliminary serological typing, we analyzed exons 2 and 3 of the HLA-C locus polymorphism by cloning the amplified DNA and using a sequence-based typing method. The new allele differs from Cw*020202 by one nucleotide substitution at nucleotide 61 (G-->A) of exon 2, which translates to a difference of one amino acid at residue 21 (His-->Arg) of the HLA-C heavy chain. We propose that Cw*0208 was generated by a random point mutation in codon 21 from the Cw*020202 allele, or through gene conversion of Cw*020202 with another allele, probably the Cw*1205 and Cw*1602 alleles.     

Two new HLA Cw* alleles,Cw*0105 and Cw*1405, detected by sequence based typing

During recent years, the view of the relative importance of the HLA Cw locus has undergone substantial change. From being an HLA locus with both limited polymorphism and biological significance there are now more than a hundred different alleles known and the biological importance of HLA Cw, both as a transplantation antigen and as a receptor for NK cells, is well established. Sequence based typing has been shown to be a powerful tool, especially for HLA Cw typing. Here we describe two new HLA Cw* alleles found during routine typing of potential bone marrow donors and hematological patients. The HLA Cw*0105 differs from Cw*0102 at positions 361 and 368 in exon 3 leading to a Trp to Arg and Cys to Ser substitution, respectively. HLA Cw*1405 differs from Cw*14021 by a single nucleotide substitution at position 368. This mutation results in an amino acid substitution of Phe for Tyr.     

Immunogenetics of two new HLA alleles: A*0108 and B*4031

Two new alleles, HLA-A*0108 and B*4031, were identified in north-western European Caucasoid subjects. A*0108 differed from A*010101 by a single substitution (C to T) at position 216 in exon 3, resulting in an amino acid difference of Arg to Trp at position 163. It was present on a haplotype with B*1501/60/70/71; Cw*0303; DRB1*1301; DRB3*0202; DQA1*0103; DQB1*0603 and its product reacted as a normal HLA-A1 specificity. B*4031 differed from B*4001 by two nucleotides in exon 3 (positions 20 (G to C) and 69 (A to G)) resulting in two amino acid differences (Arg to Ser at position 97 and Asn to Asp at position 114). It was found on a haplotype with HLA-A*03; Cw*0304; DRB1*0404/32; DRB4*0101/3/5; DQA1*03; DQB1*0302 and has the HLA-B60 specificity. Both alleles have frequencies of < 0.0002 in the largely north-western European Caucasoid blood donor population resident in Wales.     

The complete primary structure of Cw*1701 reveals a highly divergent HLA class I molecule

Genotyping of the HLA-C locus by PCR-SSP has previously shown 100% association of B41 and B42 with a new allelic variant. Partial sequencing studies (exons 2–4) demonstrated that this PCR-SSP variant corresponded to the new allele Cw*1701. In this study we have characterized the whole coding region of Cw*1701 from a Bubi individual of Equatorial Guinea. Our results partially confirm the previously reported sequence and reveal that Cw*1701 has many new polymorphisms at several exons, including a 18-bp insertion in exon 5. Cw*1701 is thus a most unusual HLA-C molecule denning a third allelic lineage of this locus.     

Diversity of HLA-B17 alleles and haplotypes in East Asians and a novel Cw6 allele (Cw*0604) associated with B*5701

The distribution of HLA-B17 alleles and their association with HLA-A, -C and -DRB1 alleles were investigated in seven East Asian populations Japanese, South Korean, Chinese-Korean, Man, Northern Han, Mongolian and Buryat populations). The B17 alleles were identified from genomic DNA using group-specific polymerase chain reaction (PCR) followed by hybridization with sequence-specific oligonucleotide probes (SSOP). In all of these East Asian populations, except Japanese and Chinese-Koreans, B*5701 was detected and strongly associated with A*0101, Cw*0602 and DRB1*0701. In contrast, B*5801 was detected in all the seven populations and strongly associated with A*3303, Cw*0302, DRB1*0301 and DRB1*1302. The A*3303-Cw*0302-B*5801-DRB1*1302 haplotype was observed in South Korean, Chinese-Korean, Buryat and Japanese populations, while A*3303-Cw*0302-B*5801-DRB1*0301 was predominantly observed in the Mongolian population. A similar haplotype, A*0101-Cw*0302-B*5801-DRB1*1302, was observed in the Buryat population. A novel Cw6 allele, Cw*0604, was identified in the Man population. This Cw allele was observed on the haplotype A*0101-B*5701-DRB1*0701. Thus, we confirmed, at the sequence level, that the common haplotypes carrying B*5701 and B*5801 have been conserved and shared in East Asian populations.     

中国汉族人群供-受者HLA-A、B、Cw、DRB1和DQB1高分辨等位基因频率分布及错配比例的研究

目的 从基因高分辨水平,分析中国汉族人群供-受者人类白细胞抗原(human leukocyte antigens,HLA)-A、B、Cw、DRB1、DQB1各位点等位基因频率和分布的多态性;及供-受者等位基因匹配情况.方法 采用基因测序分型(sequence based typing,SBT)、序列特异性寡核苷酸探针法(sequence specific oligonueleotide probe,SSOP)和序列特异性引物法(sequence specific primer,SSP),对2540名中国汉族人的(其中1168名受者,1372名供者)DNA标本进行HLA高分辨基因分型,并作统计学处理.结果 2540份样本中共检测到44种HLA-A等位基因,频率高于0.05的A*1101、A*2402、A*0201、A*0207、A*3303、A*0206、A*3001共占80.4%;81种HLA-B等位基因,频率高于0.05的B*4001、B*4601、B*5801、B*1302、B*5101共占43.0%;44种HLA-Cw等位基因,频率高于0.05的Cw*0702、Cw*0102、Cw*0304、Cw*0801、Cw*0602、Cw*0303、Cw*0302、Cw*0401共占80.3%;61种HLA-DRB1等位基因,频率高于0.05的DRB1*0901、DRB1*1501、DRB1*1202、DRB1*0803、DRB1*0701、DRB1*0405、DRB1*0301、DRB1*1101共占70.1%;22种HLA-DQB1等位基因,频率高于0.05的DQB1*0301、DQB1*0303、DQB1*0601、DQB1*0602、DQB1*0202、DQB1*0302、DQB1*0401、DQB1*0502、DQB1*0201共占87.4%.这5个位点均处于杂合子缺失状态,其中A、B、DRB1位点符合HardyWeinberg平衡(Hardy-Weinberg equi1ibrium,HWE)(P＞0.05);Cw、DQB1位点偏离HWE(P＜0.05);排除个别基因型观察值与期望值偏差较大外,这5个位点均符合HWE.在供-受者数据的比较中,HLA全相合(10/10)的比例仅22.4%;单个等位基因错配(9/10)的比例为24.6%;两个等位基因错配(8/10)的比例为26.3%.结论 中国汉族人群高分辨水平HLA-A、B、Cw、DRB1,DQB1等位基因频率及分布特点,对非亲缘造血干细胞移植供者检索有重要参考价值;并为中华骨髓库数据入库和利用提供遗传学依据.

Abstract：

Objective To analyze the allele frequencies and polymorphism of human leukocyte antigens (HLA) -A, B, Cw, DRB1 and DQB1 between donors-recipients on high-resolution typing; and to analyze the matching and mismatching proportion between donors and recipients. Methods HLA highresolution types were determined by sequence based typing (SBT), sequence specific oligonucleotide probe (SSOP) and sequence specific primer (SSP) on 2540 unrelated Chinese Han individuals including 1168 recipients and 1372 donors, then statistical analyses were carried out. Results Forty-four HLA-A alleles were detected, and among them the frequencies of A * 1101, A * 2402, A * 0201, A * 0207, A * 3303, A *0206 and A * 3001 exceeded 0.05, and accounted for 80.4%. Eighty-one HLA-B alleles were detected, and frequencies of B * 4001, B * 4601, B * 5801, B * 1302 and B * 5101 exceeded 0. 05, and accounted for 43. 0% of total. There were 44 HLA- Cw alleles, among them the frequencies of Cw * 0702, Cw * 0102,Cw * 0304, Cw * 0801, Cw * 0602, Cw * 0303, Cw * 0302 and Cw * 0401 exceeded 0.05, and were 80.3 %of total. There were 61 HLA-DRB1 alleles, the frequencies of DRB1 * 0901, DRB1 * 1501, DRB1 * 1202,DRB1 * 0803, DRB1 * 0701, DRB1 * 0405, DRB1 * 0301 and DRB1 * 1101 exceeded 0. 05, and were 70. 1% of total. Finally, 22 HLA-DQB1 alleles were detected, the frequencies of DQB1 * 0301, DQB1 *0303, DQB1 * 0601, DQB1 * 0602, DQB1 * 0202, DQB1 * 0302, DQB1 * 0401, DQB1 * 0502 and DQB1 *0201 exceeded 0. 05, and they were 87.4% of total. All the five loci were of heterozygote deficiency. The HLA-A, B and DRB1 loci conformed to Hardy-Weinberg equilibrium (HWE) (P＞0. 05); but HLA-Cw and HLA-DQB1 loci did not (P＜0.05). Except several particular genotypes, all the five loci conformed to HWE. After comparing data between donors and recipients, only 22.4% of recipients found HLA matched donors (10/10); 24. 6% of recipients found single HLA allele mismatched donors (9/10); 26. 3% of recipients had two HLA alleles mismatched donors (8/10). Conclusion The characteristics of allele frequencies and polymorphism of HLA-A, B, Cw, DRB1 and DQB1 on high-resolution typing in Chinese Han population is valuable for donor searching in unrelated hematopoietic stem cell transplantation, and it provides genetic basis for donor registry and usage of donor resource for Chinese Marrow Donor Program.