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.     

HLA antigen and gene frequencies in Eskimos of East Greenland

A population of 78 Ammassallik Eskimos was tested for HLA‐A, B, Cw, DR and DQ specificities using serological techniques and HLA‐Cw, DRB, DQB1 and DPB1 using three different genomic techniques. The application of two new genomic techniques for HLA‐Cw (PCR‐SSP phototyping) and HLA‐DPB1 (PCR‐RLFP) typing confirmed serological results and gave a higher resolution, with more heterozygotes than previously found. High gene frequencies of HLA‐A24 (0.80), B51 (0.21), B61 (0.30), B62 (0.21), Cw*0303 (0.27), Cw*0304 (0.51), DRB1*0401 (0.45), DRB1*1402 (0.24), DQ7 (0.88), DPB1*0201 (0.18), DPB1*0401 (0.40) and DPB1*0402 (0.30) were found. A limited number of alleles were found at all HLA loci. The Ammassallik Eskimos of East Greenland are genetically homogenous with little, if any, admixture with European populations. This contrasts with other Greenlandic populations formerly tested. The pattern of alleles indicates a close genetic relationship with other Eskimo populations.     

HLA antigen and gene frequencies in Eskimos of East Greenland.

A population of 78 Ammassallik Eskimos was tested for HLA-A, B, Cw, DR and DQ specificities using serological techniques and HLA-Cw, DRB, DQB1 and DPB1 using three different genomic techniques. The application of two new genomic techniques for HLA-Cw (PCR-SSP phototyping) and HLA-DPB1 (PCR-RLFP) typing confirmed serological results and gave a higher resolution, with more heterozygotes than previously found. High gene frequencies of HLA-A24 (0.80), B51 (0. 21), B61 (0.30), B62 (0.21), Cw*0303 (0.27), Cw*0304 (0.51), DRB1*0401 (0.45), DRB1*1402 (0.24), DQ7 (0.88), DPB1*0201 (0.18), DPB1*0401 (0.40) and DPB1*0402 (0.30) were found. A limited number of alleles were found at all HLA loci. The Ammassallik Eskimos of East Greenland are genetically homogenous with little, if any, admixture with European populations. This contrasts with other Greenlandic populations formerly tested. The pattern of alleles indicates a close genetic relationship with other Eskimo populations.     

HLA class I polymorphism in Mongolian and Hui ethnic groups from Northern China

HLA-A, -B, and -C alleles were genotyped by sequencing-based typing (SBT) in 102 unrelated ethnic Mongolian individuals living in Inner Mongolia and 110 Hui individuals inhabiting the Qihai plateau in Northern China. In all, 28 HLA-A, 49 HLA-B, and 27 HLA-C alleles in Mongolians and 29 HLA-A, 41 HLA-B, and 27 HLA-C alleles in Hui were detected in this study. A*24G1, A*110101/1121N and A*02G1 are the three most frequent HLA-A alleles both in Mongolians and Hui. At the HLA-B locus, only B*51G1 was found with a frequency of more than 10% in Hui. Cw*070201G1 is the most common HLA-C allele both in Mongolian and Hui. The most frequent HLA-A:C:B, HLA-A:C, and HLA-C:B haplotypes are A*330301-Cw*030201/030202-B*5801, A*330301-Cw*030201/030202, and Cw*030201/030202-B*5801 in Mongolian and A*0207/0215N-Cw*010201/010202-B*4601, A*02G1-Cw*070201G1, and Cw*010201/010202-B*4601 in Hui, respectively. The genetic distance (GD) estimated according to HLA-A, -B, and -C allele frequency indicates that Mongolian and Hui have the closest relationship, and both are closer to Northern Han rather than Southern Han, suggesting that the two ethnicities might have been subjected to intensive gene exchange with Northern Han in history. The dendrogram based on the GD measurements further demonstrates that Mongolian and Hui cluster as a branch with Northern Han Chinese and Northeast Asians. Our results may lead to better understanding of the origins and relationships of Chinese ethnic groups and provide the genetic background for disease association studies.     

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.     

兰州地区汉族人群HLA-A、B和DRB1等位基因多态性分析

目的分析兰州地区汉族人群HLA-A、B和DRB1位点等位基因多态性特点。方法采用序列特异性引物聚合酶链反应技术对兰州地区200名健康无血缘关系的汉族个体HLA-A、B和DRB1基因座进行分型，并与西北、北方和南方汉族、西北回族、维吾尔族和藏族人群进行比较。结果兰州汉族人群中HLA-A基因座共检出14个等位基因，以A＊02，A＊11，A＊24，A＊33，A＊30，A＊01和A＊31基因最常见；HLA—B基因座共检出32个等位基因，以B＊40，B＊15，B＊46，B＊13，B＊51，B＊60，B＊58和B＊44基因最为常见；HLA-DRB1基因座共检出13个等位基因，最多见的基因依次为DRB1＊09．DRB＊15，DRB1＊12，DRB1＊04，DRB1＊11，DRB1＊07，DRB1＊08和DRB1＊14，接近北方汉族而与南方汉族有差异，与西北回族无明显差异，但与西北维吾尔族和藏族差异有统计学意义。结论兰州地区汉族人群HLA-A、B和DRB1位点等位基因多态性与南、北汉族人群存在不同程度的差异，与西北维吾尔族和藏族差异显著。     

HLA-B40, B18, B27, and B37 allele discrimination using group-specific amplification and SSCP method

We developed a system for discriminating HLA-B40, B18, B27, and B37 alleles using a two-step PCR method followed by SSCP analysis. Fragments (0.8 kb) including exon 2, intron 2, and exon 3 were amplified in the first PCR. We used two sets of primers, one specific for HLA-B60-related alleles and the other specific for HLA-B6l-related, B18, B27, and B37 alleles. No amplifications of other class I genes or pseudogenes were observed. In the second PCR, exon 2 and exon 3 were amplified separately, using diluents of the first PCR products as templates. HLA-B6l-related, B18, B27, B37, and B60-related alleles were clearly discriminated in the SSCP analysis of the second PCR products. In a population study in which B6l alleles were analyzed, B^*4003 was detected in two Japanese individuals in addition to two B6l alleles previously reported to occur in Japanese, B^*4002 and B^*4006. The relative frequencies of B^*4002, B^*4006, and B^*4003 in Japanese were 58, 35, and 6%, respectively. The individuals having B^*4003 are the first non-South Americans in whom this allele has been detected. The SSCP banding patterns of 18 HLA-B60-positive Japanese population samples were identical to those of a B^*40012 sample for both exon 2 and exon 3. We also demonstrated that the B37 allele occurring in some Japanese is B^*3701.     

应用SBT直接测序分型法研究中国南方汉族人群HLA五个基因座单倍型

目的 研究中国南方汉族人群HLA-A、B、Cw、DRBl、DQBl等位基因多态性及单倍型的分布特征.方法 应用聚合酶链反应-直接测序分型(polymerase chain reaction sequence-based typing,PCR-SBT)法对186名中国南方汉族健康人群HLA-A、B、Cw、DRBl、DQBl进行基因分型.结果 检出的HLA-A、B、Cw、DRBl、DQBl等位基因分别有28、49、24、29、20种.经统计分析A*0207-B*4601(10.81%),A*3303-B*5801(6.14%),B*4601-DRBl*0901(6.22%),B*4001*DRBl*0901(3.78%),DRBl*0901-DQBl*0303(12.16%)和DRBl*1202-DQBl*0301(8.38%)单倍型呈强连锁不平衡单倍型(RLF≥0.5,X<'2>>3.84,P<0.05);A*0207-B*4601-Cw*0102(10.75%),A*3303-B*5801-Cw*0302(5.14%),A*0207-B*4601-DR*0901(5.07%),A*3303-B*5801-DRBl*0301(2.96%),A*0207-B*4601-Cw*0102-DRBl*0901-DQBl*0303(4.87%)和A*1101-B*1301-Cw*0304-DRBl*1501-DQBl*0601(2.43%)单倍型分别是中国南方汉族人群常见单倍型.结论 中国南方汉族人群HLA 5个基因座单倍型分布具有高度的遗传多态性且有其自身分布特点.本研究获得的较完整的HLA 5个基因座单倍型分布数据,将为人类学、HLA疾病相关性和器官移植等研究提供遗传学参考数据.     

Molecular analysis of HLA polymorphism in Khoton-Mongolians

We have investigated polymorphism of the HLA class I and class II genes in Mongolians for the first time using PCR-based techniques. A minor population of Khoton-Mongolians was studied and compared to the major Khalkh-Mongolian population. Eighty-five Khoton-and 41 Khalkh-Mongolian samples were analyzed for polymorphism in HLA-A, -B, -DRB1, -DRB3, -DRB5, -DQA1, -DQB1, -DPA1, and -DPB1 loci using PCR-SSOP and PCR-RFLP methods. Allele and haplotype frequencies were calculated. The results were then compared to those obtained from other human populations. In Khoton-Mongolians, the frequency of HLA-B38, DRB1*0301, DQA1*0502, DQB1*0201 and DPB1*0401 were significantly higher than those in other Mongoloid populations including Khalkh-Mon-golians, Buryat, Chinese, Northern Han, Southern Han, Koreans and Japanese. In contrast, the frequency of HLA-A2, DQA1*0102, DPB1*0201 and DPB1*0501 were significantly lower in Khoton-Mongolians. Haplotype frequency analysis revealed that Khoton-Mongolians shared the same haplotypes specific to Mongoloids as well as to Caucasoids. On the other hand, several haplotypes were found to be specific for the Khoton. The phylogenetic tree analysis constructed by the NJ method based on allele frequencies of HLA-A, -B, -DRB1, -DQA1, and -DQB1 genes revealed that the Khoton belong to the Northeast Asian cluster and are most closely related to the Khalkh, Inner Mongolian, Uygur and Buryat populations. These data suggest a unique genetic background for Khoton-Mongolians. Furthermore, they are closely related genetically to both Mongoloids and Caucasoids.     

Genetic link between Asians and native Americans: evidence from HLA genes and haplotypes.

We have been studying polymorphisms of HLA class I and II genes in East Asians including Buryat in Siberia, Mongolian, Han Chinese, Man Chinese, Korean Chinese, South Korean, and Taiwan indigenous populations in collaboration with many Asian scientists. Regional populations in Japan, Hondo-Japanese, Ryukyuan, and Ainu, were also studied. HLA-A, -B, and -DRB1 gene frequencies were subjected to the correspondence analysis and calculation of DA distances. The correspondence analysis demonstrated several major clusters of human populations in the world. "Mongoloid" populations were highly diversified, in which several clusters such as Northeast Asians, Southeast Asians, Oceanians, and Native Americans were observed. Interestingly, an indigenous population in North Japan, Ainu, was placed relatively close to Native Americans in the correspondence analysis. Distribution of particular HLA-A, -B, -DRB1 alleles and haplotypes was also analyzed in relation to migration and dispersal routes of ancestral populations. A number of alleles and haplotypes showed characteristic patterns of regional distribution. For example, B39-HR5-DQ7 (B*3901-DRB1*1406-DQB1*0301) was shared by Ainu and Native Americans. A24-Cw8-B48 was commonly observed in Taiwan indigenous populations, Maori in New Zealand, Orochon in Northeast China, Inuit, and Tlingit. These findings further support the genetic link between East Asians and Native Americans. We have proposed that various ancestral populations in East Asia, marked by different HLA haplotypes, had migrated and dispersed through multiple routes. Moreover, relatively small genetic distances and the sharing of several HLA haplotypes between Ainu and Native Americans suggest that these populations are descendants of some Upper Paleolithic populations of East Asia.     

Molecular, serological and population studies of the alleles and products of HLA-B*41.

The HLA-B41 specificity was first identified over 25 years ago and, although both serological and biochemical studies have suggested its subdivision, it is only recently that two HLA-B*41 alleles (B*4101 and B*4102) have been identified and sequenced. We designed three oligonucleotide primers, combined in two mixtures to define these alleles by PCR using sequence-specific primers (PCR-SSP) in a random normal population of 9,464 HLA-A, B, DR, DQ typed Northern European Caucasoid donors from the Welsh Bone Marrow Donor Registry. The HLA-B41 phenotype frequency was 0.835%, and of the 79 HLA-B41 subjects 22 (27.85%) were B*4101 and 57 (72.15%) were B*4102. The phenotype frequencies of B*4101 and B*4102 were 0.232 and 0.602%, respectively, and the gene frequencies were 0.00116 and 0.00301, respectively. Formal two-locus linkage disequilibrium (LD) analysis demonstrated significant associations between B*4101 and A30 and DR11, and between B*4102 and A66 and DR13. LD analysis of three loci showed significant associations between B*4101, DR7, DQ2 and B*4101, DR11, DQ7 (DQB1*0301/0304) and between HLA-A3, B*4102, DR13; A66, B*4102, DR7; A66, B*4102, DR13; B*4102, DR13, DQ6 and B*4102, DR13, DQ7. Examination of the HLA phenotypes (including HLA-C) of the B*41 subjects, together with the LD analysis findings, suggested four different HLA haplotypes bearing B*4101 and five B*4102 haplotypes. The most frequent B*4101 haplotype was: HLA- A30 or other A allele, Cw*1701, B*4101, DRB1*1102, DQB1*0301 and the most freqent B*4102 haplotype was: A*6601 or A3 or other A allele, Cw*1701, B*4102, DRB1*1303, DQB1*0301. In addition, the well-known association of A66 with B41 was between A*6601 and B*4102, and although both B*41 alleles were commonly in association with Cw*1701, B*4101 was found with Cw*07. One-dimensional isoelectric focusing (1D-IEF) analysis of HLA-B proteins from 2 B*4101 and 2 B*4102 subjects clearly showed that the B41.1 and B41.2 1D-IEF variants, identified in the 10th International Histocompatibility Workshop, corresponded to B*4101 and B*4102 products, respectively. Serological titration studies, with 59 lymphocytotoxic pregnancy antisera, containing an HLA-B41 component and stimulated by up to five different HLA-B specificities, were unable to differentiate the two groups of B*41 subjects. This suggests that partition of the HLA-B41 specificity will not normally be achieved by classical serological methods. It is suggested that the previous alleged serological subdivision of HLA-B41 was founded on the unwitting use of antisera detecting the HLA-Cw*17 products.     

The HLA system in the population of Mongolia

The frequencies of HLA-A, B, C and DRB1 alleles and haplotype frequencies for HLA-A, B, C and A, B, DR loci were studied in 201 healthy unrelated Khalkha-Mongolians. The most common class I antigens were A24 (25.8%), A2 (23.4%), B61 (12.6%), B51 (8.5%), Cw10 (14.2%), Cw9 (14.1%), Cw7 (13.3%), Cwl (11.8%) and Cw6 (10.2%). A total of 35 DRB1 alleles were identified in this group of samples. The most frequent DRB1 allele was DRB1*0301 (11.1%), followed by DRB 1*0701 (9.7%) and DRBl*H01 (8.5%). One novel DRB1 allele (14MV) and three rare types, DRB1*1111, DRB 1*1504 and DRB 1*1412, recently described in Jews, the Dai minority of China and Japanese, respectively, were identified in Mongolians. The phylo-genetic tree constructed by UPG method put Mongolians in the Northeast Asian cluster. A comparison of three locus haplotype distributions with world populations, revealed that Mongolians share several characteristics in common with other Mongoloids as well as with Caucasoids and Amerindians. The most common A, B and DR haplotype in Mongolians, A33-B58-DR3, was shared with Thai, Thai Chinese and Singapore Chinese. These data support that unique genetic background of Mongolians played a major role in ethnic formation and differentiation of Mongoloid populations.     

HLA antigens,alleles and haplotypes among the Yup'ik Alaska natives: report of the ASHI Minority Workshops,Part II

As part of the American Society for Histocompatibility and Immunogenetics coordinated studies among minority populations, human leukocyte antigen (HLA) alleles were defined for 460 volunteer Yup'ik Eskimos from the Yukon Kuskokwim delta region of southwestern Alaska. The study group included 252 adults with no other first-degree relatives and 48 informative nuclear families. Full Yupik ancestry through both maternal and paternal grandparents was claimed by 81.1% of participants. HLA-A, -B, -Cw, -DRB1, and -DQB1 alleles were determined by SBT, SSOP, reverse SSOP, and/or RSCA according to the protocols of five participating laboratories. Polymorphism was limited with 3-6 alleles comprising > 80% of the alleles observed at each locus. Homozygosity was high, particularly at the HLA-A and -DQB1 loci, with 36.6% and 44% of individuals having a single allele defined at these respective loci. HLA-A, -B, and -DRB1 alleles were in Hardy-Weinberg equilibrium, whereas HLA-Cw and -DQB1 alleles gave significant deviation (p = 0.002; 0.005). Significant linkage disequilibrium (p < or = 0.00001) was observed in all pairwise evaluations. A new Cw*0806 allele was observed in high linkage disequilibrium with B*4801(Delta = 0.099; Delta(rel) = 1.0). Three extended haplotypes were found to have frequencies > 5%, the most prevalent being A*2402; B*4801; DRB1*0401; DQB1*0301 (0.0933). Comparison of available class I data indicate that the Yup'ik share several common alleles with other Native American populations, including: A*2402, *0206, *6801; B*1501, *2705, *3501, *4002, *4801, *5101; and Cw*0202, *0304, *0401. Comparisons of class II data also confirm a close relationship of the Yup'ik to two other Eskimo populations, Siberian and East Greenland Eskimos. DRB1*0401 and *1101, which occur in high frequency among these Eskimo populations, but not in other Native Americans, were also prevalent among the Yup'ik, with respective frequencies of 0.232 and 0.107.     

HLA diversity among Nadars, a primitive Dravidian caste of South India

South India is one of the oldest geophysical regions mainly occupied by Dravidian language-speaking people. Here a random panel of 61 unrelated Nadar healthy individual from Tamil Nadu State were analyzed and compared with other populations of India and the world. HLA-A, B and C alleles frequencies and their haplotype frequencies were determined by high-resolution typing of genomic DNA. The analysis revealed that the Nadar caste of South India have several characters shared with East Asian populations consistent with the demographic history of South India, as well as specific features including several unique alleles such as A*03011, A*31011, B*15011, B*3501, B*51011, Cw*02022. In addition, haplotypes such as A*31011-Cw*02022-B*3501, A*03011-Cw*04011-B*4406 and A*2402101-Cw*04011-B*51011 are of high frequency in both these populations but are rare or absent in other populations of India and the world. The study suggests that a comparatively lesser degree of genetic admixture occurred between the South Indian and North Indian racial groups than that between South Indian and East Asian groups.     

Analysis of high‐resolution HLA‐A, ‐B, ‐Cw, ‐DRB1, and ‐DQB1 alleles and haplotypes in 718 Chinese marrow donors based on donor–recipient confirmatory typings

High‐resolution human leucocyte antigen (HLA)‐A, ‐B, ‐Cw, ‐DRB1, and ‐DQB1 alleles and haplotype frequencies were analysed from 718 Chinese healthy donors selected from the Chinese Marrow Donor Program registry based on HLA donor–recipient confirmatory typings. A total of 28 HLA‐A, 61 HLA‐B, 30 HLA‐Cw, 40 HLA‐DRB1 and 18 HLA‐DQB1 alleles were identified, and HLA‐A*1101, A*2402, A*0201, B*4001, Cw*0702, Cw*0102, Cw*0304, DRB1*0901, DRB1*1501, DQB1*0301, DQB1*0303 and DQB1*0601 were found with frequencies higher than 10% in this study population. Multiple‐locus haplotype analysis by the maximum‐likelihood method revealed 45 A–B, 38 Cw–B, 47 B–DRB1, 29 DRB1–DQB1, 24 A–B–DRB1, 38 A–Cw–B, 23 A–Cw–B–DRB1, 33 Cw–B–DRB1–DQB1 and 22 A–Cw–B–DRB1–DQB1 haplotypes with frequencies >0.5%. The most common two‐, three‐, four‐ and five‐locus haplotypes in this population were: A*0207–B*4601 (7.34%), Cw*0102–B*4601 (8.71%), B*1302–DRB1*0701 (6.19%), DRB1*0901–DQB1*0303 (14.27%), A*3001–B*1302–DRB1*0701 (5.36%), A*0207–Cw*0102–B*4601 (7.06%), A*3001–Cw*0602–B*1302–DRB1*0701 (5.36%), Cw*0602–B*1302–DRB1*0701–DQB1*0202 (6.12%) and A*3001–Cw*0602–B*1302–DRB1*0701–DQB1*0202 (5.29%). Presentation of the high‐resolution alleles and haplotypes data at HLA‐A, ‐B, ‐Cw, ‐DRB1 and ‐DQB1 loci will be useful for HLA matching in transplantation as well as for other medical and anthropological applications in the Chinese population.     

Polymorphism of HLA class I genes in Meizhou Han population of Guangdong, China

Human leukocyte antigen (HLA) is an invaluable marker for anthropological studies because of its extreme polymorphism. Most of the studies carried out in Chinese populations are about HLA class II genes, but few about class I genes. In the present study, we investigated HLA class I polymorphism using polymerase chain reaction-sequencing-based typing (PCR-SBT) method in 104 unrelated Han individuals in Meizhou of Guangdong, southern China. Twenty-three HLA-A, 43 HLA-B and 27 HLA-C alleles were identified and allele frequencies and two-locus (C/B) and three-locus (A/C/B) haplotypes were statistically analysed. The most frequent HLA-A allele is A*110101 with a frequency of 30.3%, followed by A*24020101 (22.2%) and A*2420 (11.6%). Among the 43 detected HLA-B alleles, B*5801 (17.0%), B*400101 (15.5%) and B*4601 (10.0%) were frequently observed. Among the 27 detected C alleles, the most predominant one is Cw*07020101 (25.8%), followed by Cw*0717 (14.7%). The most frequent HLA-C/B two-locus haplotype is Cw*07020101/B*400101 (10.1%). The most common HLA-A/C/B three-locus haplotype in Meizhou Han is A*110101/Cw*07020101/B*400101 (3.4%). Phylogenetic tree based on HLA class I allele frequencies genetically suggested that Meizhou Han has an affinity to southern Asian populations. The result may also reflect an admixture of Han and ethnic minorities of southern China.     

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.     

HLA-A, -B, -C, and -DRB1 allele and haplotype frequencies distinguish Eastern European Americans from the general European American population

Sequence-based typing was used to identify human leukocyte antigen (HLA)-A, -B, -C, and -DRB1 alleles from 558 consecutively recruited US volunteers with Eastern European ancestry for an unrelated hematopoietic stem cell registry. Four of 31 HLA-A alleles, 29 HLA-C alleles, 59 HLA-B alleles, and 42 HLA-DRB1 alleles identified (A*0325, B*440204, Cw*0332, and *0732N) are novel. The HLA-A*02010101g allele was observed at a frequency of 0.28. Two-, three-, and four-locus haplotypes were estimated using the expectation-maximization algorithm. The highest frequency extended haplotypes (A*010101g–Cw*070101g–B*0801g–DRB1*0301 and A*03010101g–Cw*0702–B*0702–DRB1*1501) were observed at frequencies of 0.04 and 0.03, respectively. Linkage disequilibrium values (     ) of the constituent two-locus haplotypes were highly significant for both extended haplotypes ( P values were less than 8 × 10⁻¹⁰) but were consistently higher for the more frequent haplotype. Balancing selection was inferred to be acting on all the four loci, with the strongest evidence of balancing selection observed for the HLA-C locus. Comparisons of the A–C–B haplotypes and DRB1 frequencies in this population with those for African, European, and western Asian populations showed high degrees of identity with Czech, Polish, and Slovenian populations and significant differences from the general European American population.     

HLA-Cw*1701 is associated with two sub-Saharan African-derived HLA haplotypes: HLA-B*4201, DRB1*03 and HLA-B*4202 without DRB1*03

Different extended haplotypes have been described for many ethnic groups, such as African-Americans. The complotype FC(1,90)0 is in linkage disequilibrium with HLA-B42, DRB1*0302 in African-Americans and Southern African Xhosa individuals, suggesting a common ancestry. In order to analyze the distribution of Cw*17 alleles (Cw*1701, 1702) in relation to this African-derived extended haplotype, we studied a large panel of samples from African-American individuals and additionally a group of selected samples carrying HLA-B42, DR3 and HLA-B42, non-DR3 antigens. HLA alleles were assigned using sequence-specific amplification (SSP) and sequence-specific oligonucleotide probe hybridization (SSOP). We have found that all haplotypes (10 in total) carrying the extended haplotypes [HLA-B42, FC(1,90)0, DRB1*0302] were positive for HLA-Cw*1701. Interestingly, HLA B*4201 was found in all samples (17 in total) carrying HLA-B42, DR3, Cw*1701, whereas HLA-B*4202 was found in 10 out of 13 samples from individuals carrying HLA B42, Cw*1701 non-DR3. These findings suggest that HLA-Cw*17 polymorphism is conserved in different ethnic populations and that HLA-B42 alleles seem to separate at least different African-derived haplotypes. The historical context of these findings are important for the study of human evolution and they may be useful for the development of strategies in the search for possible donors in organ transplantation for African-derived populations.     

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.