Diversity in HLA-DR4-related DR,DQ haplotypes in Australia, Oceania, and China

The relative distributions of 12 HLA-DR4-related DRB1 alleles in indigenous populations of Australia, Melanesia, Micronesia, Polynesia, and northern and southern China have been determined by analysis of oligonucleotide hybridization patterns of 406 examples of HLA-DR4. DRB1^*0405 and DRB1^*0410 were common DR4 alleles in Australian aborigines and in Melanesians, while DRB1^*0403 was the predominant DR4 allele in coastal Melanesians, Micronesians, and Polynesians; DRB1^*0406 was confined to Chinese. A novel DR4 allele, found in 30% of DR4-positive Australian aborigines but exclusive to one aboriginal population, was a combination of DRB1^*04 and 0803 nucleotide sequences and was carried on a haplotype with DR4-like DQ linkage arrangements. DQA1 and DQB1 typing generated 12 DR4-related haplotypes; the population distributions of these reflected the ancestral affinities of aborigines and Melanesians, the overlaping of coastal Melanesia with pre-Polynesian DR4 alleles and the colonization of Micronesia by an independent, non-Polynesian group. DR4-related autoimmune disorders such as rheumatoid arthritis (RA) and insulin-dependent diabetes mellitus (IDDM) are virtually unknown in indigenous populations of Australian and Oceania and this study confirmed that high-risk RA determinants, Dw4 and Dw14, occurred rarely. However, the DQw8 allele, thought particularly to predispose to IDDM, was present in the majority of DR4-positive Polynesians and Micronesians.     

Worldwide differences in the incidence of insulin autoimmune syndrome (Hirata disease) with respect to the evolution of HLA-DR4 alleles

The relationship between the geographic distribution of susceptibility genes to insulin autoimmune syndrome (IAS) and the incidence of insulin autoimmune syndrome was investigated in order to examine the distribution of the genetic background to susceptibility to certain diseases. The HLA-DR4 allele, DRB1*0406, is associated with increased susceptibility to IAS among Japanese, while the DRB1*0403 and DRB1*0407 alleles are not (the odds ratio of which are 1.6 and 1.1, respectively). The worldwide geographic distribution of the three DR*04 alleles showed that the distribution of DRB1*0403 encompassed that of DRB1*0406 and DRB1*0407. Taken together with the findings that Glu at position 74 in the DRB1 molecule is shared by the three DRB1*04 alleles, there are only a few differences between the DRB1 molecule-nucleotide sequences of DRB1*0403, DRB1*0406 and DRB1*0407, and that all the three DRB1*04 alleles are carried by the same class II haplotype, DQA1*0301/DQB1*0302, it may be considered that DRB1*0403 is the ancestral allele of DRB1*0406 and DRB1*0407. Therefore, populations with a higher prevalence of DRB1*0406 have a higher risk of developing IAS. The extremely low prevalence of IAS among Caucasians can be explained by the low prevalence of DRB1*0406 in this population. This is a good example of the association between the predisposition to risk of development of certain diseases and the evolution of susceptibility genes.     

Polymorphism and distribution of HLA-DR2 alleles and haplotypes in a Greek population

Abstract: HLA-DR2 serological subtyping has indicated that the DR16 serotype appears at a higher frequency relative to the DR15 serotype in the Greek population, differing from the distribution observed in most other Caucasian groups. In this study, we have analyzed by the PCR-SSP technique a DR2-positive group of unrelated Greek individuals selected from our normal control panel for the different DRB1, DRB5, DQB1 and DQA1 DR2-associated alleles present. Six of the 50 individuals analyzed were homo-zygous for DR2, contributing a total of 56 haplotypes for DR2. The observed frequencies of the DR2-related DRB1 alleles were as follows: 58.9% for the DRB1*1601, 7.1% for the DRB1*1602, 25.0% for the DRBl*1501 and 7.1% for the DRB1*1502 allele. The rare allele DRB1*1605 was detected in one heterozygous sample and its presence was definitively established by DNA sequencing. The alleles *1503, *1504, *1505, *1603 and *1604 were not detected. Three DRB5 alleles were identified: DRB5*0202 (67.8%), DRB5*0101 (25.0%) and DRB5*0102 (7.1%). Ten different DRB1/DQB1/ DQA1 DR2-associated haplotypes were denned. The most frequently observed haplotype was DRBl*1601-DQBl*0502-DQAl*0102 (relative frequency =57%) followed by DRB1*1501-DQB1*0602-DQA1*0102 (relative fre-quency=14.3%). In conclusion, the refined analysis of the DR2-associated DRB1 alleles in the Greek population revealed the prevalence of the DRB1*1601 allele. The rare allele DRB1*1605 was demonstrated once. A considerable variety of different DR2-related DR/DQ haplotypes was detected and the overall haplotypic frequencies in the Greek population are distributed differently compared to those reported for most other Caucasian populations.     

Combinations of HLA DR and DQ molecules determine the susceptibility to insulin-dependent diabetes mellitus in Koreans

The association of HLA-DRB1 and DQB1 genes with IDDM in Koreans was assessed using 115 IDDM patients and 140 nondiabetic controls. DQB1*0201 is the only DQB1 allele positively associated with IDDM while DQB1*0602, *0601 and *0301 are negatively associated. Three DRB1 alleles (DRB1*0301, DRB1*0407 and DRB1*0901) are positively associated while four DR allele groups (DRB1*15, DRB1*12, DRB1*10 and DRB1*14) are negatively associated. However, Haplotype analyses indicated that DQB1*0302, DRB1*0405 and DRB1*0401 may confer susceptibility because the DRB1*0405-DQB1*0302 and DRB1*0401-DQB1*0302 haplotypes are positively associated with the disease. The lack of association in Koreans with the DQB1*0302 allele, which appears predisposing in studies of non-Orientals, is due to its strong linkage disequilibrium (LD) with the protective DRB1*0403 and *0406 alleles, while the lack of association with DRB1*0405 is because of its strong LD with the protective DQB1*0401 allele. Nine DR/DQ genotypes confer significantly increased risk to IDDM. Seven of the nine genotypes (DR3/4s, DR1/4s, DR4s/13, DR4s/8, DR4s/7, DR9/13 and DR3/9) were also found to be at high risk to IDDM in other populations, while the two others (DR1/9 and DR9/9) are only found in Koreans. Surprisingly, DR4/4 homozygotes are not associated with high risk to IDDM in Koreans. This observation can be explained by the high frequency of protective DR4 subtypes and the protective DQ alleles (0301 and 0401) associated with the susceptible DR4 alleles. Our analyses indicate that the counterbalancing act between susceptible DRB1 and protective DQB1, and vice versa, that has already been observed in Chinese and Japanese, is the major factor responsible for the low incidence of diabetes in Koreans.     

西双版纳傣族及上海汉族群体HLA－DR2相关的DR／DQ单倍型分析

对４４名西双版纳傣族和９名上海地区汉族ＤＫ２阳性个体进行了与其相关的ＤＲ／ＤＱ单倍型组合的分析。傣族群体中ＤＲＢＩ－ＤＲ２亚型分布以＊１６０２与＊１５０２为最常见，其等位基因频率分别为４３．６％与，４０．０％和汉族群体中以＊１５０１为主明显不同。傣族群体中共检出１０种与ＤＲ２相关联的ＤＲ／ＤＱ单倍型；最常见的是ＤＲＢ１＊１６０２、ＤＲＢ５＊０１０１、ＤＱＡ１＊０１０２、ＤＱＢ１＊０５０２（３４．５％）与汉族及其他群体明显不同，本研究表明傣族不仅具有高频率的ＤＲ２，而且与ＤＲ２相关联的ＤＲＢ１、ＤＲＢ５、ＤＱＡ１、ＤＱＢ１单倍型组合有其独特性。     

HLA-DR4 allele frequencies on Indian and Mestizo population from Mexico

Using PCR-SSOP and sequencing, we examined DRB1*04 nucleotide polymorphism in 137 DR4-positive Mexican healthy individuals (46 Mexican Mestizos, 64 Mazatecans, and 27 Nahuas), carrying a total of 147 DR4 haplotypes. Eleven different DRB1*04 alleles were detected in Mexican Mestizo population, whereas, in the two Indian groups a restricted polymorphism was observed (5 variants in Mazatecans and 4 in Nahuas). DRB1*0407 was the most frequent allele (gf = 0.106 in Mexican Mestizos, gf = 0.281 in Mazatecans, and gf = 0.189 in Nahuas). In spite of the restriction in polymorphism, there were differences on DRB1*04 alleles found in Mexicans mainly between Mazatecan and Nahua populations. DRB1*0403 was characteristic allele in Nahua ethnic group, whereas, 0404 and 0411 were predominant alleles in Mazatecans. This data corroborates the restricted polymorphism of DRB1*04 alleles in American populations. In spite of the restriction in this polymorphism, differences in frequencies of DRB1*04 alleles could help distinguish each population.     

The Dai minority population of Southwest China: Heterogeneity of DR2-Associated HLA-DRB1,DRB5, DQA1, and DQB1 haplotypes

HLA-DR2 is the most common DR specificity (60.3%) identified in the Dai minority population of Xishuangbanna, Yunna Province, China. We characterized the DRB1, DRB5, DQA1, and DQB1 alleles of 44 unrelated DR2-positive individuals, 11 of whom (15%) were DR2 homozygous. Four DRB1 and four DRB5 alleles encoding DR2 were identified in this population. The most frequent DR2-associated DRB1 alleles were *1602 (gf = 0.164) and *1502 (gf = 0.151). DRB1*1501 (gf = 0.048) and a new allele designated DRB1*1504 (gf = 0.014) were also detected, but *1601 and *1503 were absent. The most frequent DR2-associated DRB5 alleles were *0101 (gf = 0.233) and *0102 (gf = 0.110). Nine different DR2-associated DR/DQ haplotypes were identified. The two most common DR2 haplotypes were DRB1*1602,DRB5*0101,DQA1*0102,DQB1*0502(hf = 0.142) and DRB1*1502,DRB5*0102,DQA1*0101, DQB1*0501 (hf = 0.075). The new DRB1*1504 allele was found on a single haplotype: DRB1*1504, DRB5*0101,DQA1*0102,DQB1*0502 (hf = 0.017). The Dw2, Dw12, Dw21, and Dw22 haplotypes, present in many other Asian and Mongoloid populations, were not identified in this unique group. However, the Dai minority population is characterized by a relatively large number of diverse DR2 haplotypes and a new DRB1 allele encoding DR2.     

The HLA-DRB1*0405 haplotype is most strongly associated with IDDM in Algerians.

Insulin-dependent diabetes mellitus (IDDM) in Caucasians is strongly associated with HLA-DR3-DQ2 and DR4-DQ8. In order to investigate the HLA class II associations with IDDM in Algerians, we have used polymerase chain reaction (PCR) and sequence specific oligonucleotide analysis (SSO) to identify DQA1, DQB1, and DRB1 alleles, haplotypes and genotypes in 50 unrelated IDDM patients and 46 controls from a homogeneous population in Western Algeria. Both DRB1*0301-DQA1*0501-DQB1*0201 (DR3-DQ2) and DRB1*04-DQA1*0301-DQB1*0302 (DR4-DQ8) haplotypes were found at increased frequencies among the patients compared to controls (45% vs. 13%, RR = 5.5, Pc < 10(-5) and 37% vs. 4%, RR = 12.9, Pc < 10(-4), respectively). Among the latter, in contrast to other Caucasian populations, only DRB1*0405-DQA1*0301-DQB1*0302 was significantly increased in the Algerian patients (25% vs. 1% in controls, RR = 30.3, Pc < 10(-3). Accordingly, the highest risk of disease was observed in DRB1*0301-DQA1*0501-DQB1*0201/DRB1*0405-DQA1+ ++*0301-DQB1*0302 heterozygotes (34% in patients vs. 0% in controls; RR = 49; Pc < 10(-3). This observation and its comparison with DR-DQ haplotypes in other ethnic groups suggest that the DRB1*0405 allele which encodes an Asp57-negative beta chain may contribute to IDDM susceptibility in a similar way as Asp57-negative DQ beta chains.     

HLA-DRB and -DQB1 polymorphism in the Macedonian population

HLA-DRB1, DRB3/4/5 and DQB1 polymorphism has been studied in a population of 80 unrelated healthy Macedonians using molecular methods. Twenty-five different DRB1 alleles were identified of which DRB1*1104, *1501, *1601, and *1101 were found most frequently. Among the 15 identified DQB1 alleles, two were predominant: DQB1*0301 and *0502. The most frequent three-locus haplotypes were DRB1*1104-DRB3*02-DQB1*0301 (18%/), DRB1*1101-DRB3*02-DQB1*0301 (9%) and DRB1*1601-DRB5*02-DQB1*0502 (10%). Polymorphism for DRB1*04, *13 and *15 haplotypes was extensive. Eleven different DR2-related haplotypes were found, some of which were unusual for European populations: DRB1*1501-DRB5*0102-DQB1*0502, DRB1*1501-DRB5*02-DQB1*0502, DRB1*1501-DRB5*0102-DQB1*0601.     

Heterogeneity of HLA-DRB1*04 and its associated haplotypes in the North Indian population

HLA-DR4 has been implicated in several diseases including rheumatoid arthritis (RA) and type I diabetes, the strength of associations being ethnically variable. Unusually high level of heterogeneity in DR4-DQB1 haplotypes has been reported in the Indian population. The present study is an attempt to determine the genetic diversity of the HLA-DR4 allelic family and its associated DQA1-DQBI haplotypic combinations in the healthy North Indian population. Using PCR-SSP and PCR-SSOP techniques, nine subtypes of DR4 were encountered of which DRB1*0403 was the most predominant allele (34.8%) followed by *0404 (27%), *0401 (14.6%), and *0405 (11%). No examples of *0402, *0409, *0411, *0413-*0417, and *0419-23 were encountered, although a few other subtypes, *0410 (three examples), *0406 and *0418 (two examples each), and *0407, *0408, and *0412 (single example each) occurred infrequently in a cohort of 85 HLA-DR4 positive samples studied. Most of these subtypes occurred in combination with DQA1*03-DQB1*0302 (69.5%). DRB1*0403 and *0404 exhibited maximum heterogeneity of DQB1 combinations. Haplotype data revealed the presence of 15 different DR4-DQ haplotypes, four of which were found to be "unique" to Asian Indians, not reported in any other population. These results help to explain the observed variability in DR4 associations in autoimmune diseases in Asian Indians and provide support for scientific and historical documentation of extensive admixture in the Indian subcontinent.     

Two new HLA DRB1 alleles found in African Americans: Implications for balancing selection at positions 57 and 86

Two new DRB1 alleles have been identified (DRB1*0303 and DRB1*0805) in African Americans that differ from known DRB1 alleles only by a glycine to valine exchange at position 86. The novel DRB1*0303 allele, found in one individual, has the same DQA1*0401-DQB1*04 haplotype as DRB1*0302, suggesting that it may be a recent diversification of *0302. The novel DRB1*0805 allele, identified in 4 individuals, was found on two haplotypes, sharing a DQA1*0501-DQB1*0301 haplotype with DRB1*0804, and a DQA1*0102-DQB1*0602 haplotype found with DRB1*0801 in some African populations. DRB1*0805 differs from *0804 only at position 57 and differs from *0801 only at position 86. Assuming that DRB1*0801 and DRB1*0802 are ancestral, based on their distribution in various human populations, DRB1*0805 may have been generated twice by two independent mutations or gene conversion events at each of these positions. Alternatively, DRB1*0805 may have arisen from a single gene conversion event (or mutation) and recombined to generate multiple DR-DQ haplotypes. These findings increase the number of DRB1 allelic pairs that differ only at position 86 to 9, suggesting strong balancing selection at this position. A number of DRB1 alleles for DR8 and DR4 also differ only at position 57, a site previously postulated to be strongly influenced by balancing selection in DQB1 alleles by phylogenetic analysis.     

DNA typing for HLA-DR, and -DP alleles in a Chinese population using the polymerase chain reaction (PCR) and oligonucleotide probes

We have determined alleles of HLA-DRB1, DRB3, DRB5, DQA1, DQB1, and DPB1 loci in 91 unrelated healthy individuals from North China. Group-specific PCR primers were employed for the analysis of subsets of DR1, DR2, DR4, DRw52, and DPB. With allele-specific probes, 22 DRB1, 8 DQA1, 13 DQB1, and 12 DPB1 alleles were found in this panel. Allele frequencies showed that 25.3% of the subjects had DR7 and 26.4% had DR9, only 5.5% had DRB1*0301 (DRw17). In the DR4 group, DRB1*0405 (Dw15, 8.8%) and 0406 (KT2, 9.9%) were the most prevalent alleles. DRB1*0404 (Dw14.1), 0407 (Dw13.2) and 0408 (Dw14.2) were absent and the other alleles of the DR4 group were rare. The most common DRw6 subset was DRB1*1401 (8.8%). DRB1*0802 and 0803 were present (2.2%, 6.6%), and DRB1*0801 was not found. Associations with DQA1 and DQB1 were generally similar to those found in other populations. DPB1*0501 was the most frequent (60.2%) allele at the DPB1 locus. Overall our study shows that the distribution of class II alleles in a population from Mainland China is quite different from other ethnic groups. The high frequency of the KT2 subset of DR4. (DRB1*0406) and of DPB1*0501 are the most striking features found. A new type of DR4 was determined in one subject. It was like DR4-Dw15 (DRB1*0405) but, according to our hybridization patterns, it encoded valine instead of glycine in position 86. It is now called DRB1*0410.     

AN APPARENT FUNCTIONAL CORRELATION BETWEEN VARIATIONS IN AMINO ACID RESIDUES IN HLA-DR 4.1 AND 4.2 SEROLOGICAL SUBTYPES AND OLIGONUCLEOTIDE CHARACTERIZATION*

HLA-DR4 can be subdivided serologically into two specificities, DR4.1 and DR4.2, using well-defined monospecific alloantisera used in the 11th International Histocompatibility Workshop. In this study, a total of 1095 random DR4-positive individuals from several ethnic groups were tested first for serotype DR4.1/4.2 and then for DRB1 *04 alleles using polymerase chain reaction (PCR) followed by sequence-specific oligonucleotide probe hybridization (SSOPH). An almost 100% correlation between samples testing positive for DR4.1 and the presence of alanine at position 74 was observed, while samples testing positive for DR4.2 correlated with the presence of glutamic acid at position 74. DRB 1*04 alleles 0401, 0402, 0404, 0405, 0408, 0409 and 0410 are aligned in functional groups which coincide with the serological subtype of DR4.1. DRB 1*04 alleles 0403, 0406, 0407 and 0411 coincide with subtype DR4.2. Amino acid substitutions at positions 57, 71 and 86 indicate other significant variations between alleles within the serological subgroup of DR4.1 and define five minor subgroups. The serologic and oligonucleotide allelic subgroups are in turn correlated with recognized cellular Dw antigens. While sequence data provide evidence of structural differences, data on cellular antigens support a functional association between these designated groups and their significance in transplantation and GVHD. Testing results are categorized by ethnic group in order to establish frequency data for donor selection criteria.     

The relative frequencies of HLA-DRB1*01 alleles in the major US populations

The frequencies of alleles in the HLA-DRB1*01 family were determined in each of five US populations from a database of 82,979 individuals. Individuals typed as DR1 (or DRB1*01) comprised between 7.6%-21.3% of the individuals in each population group. Fifty-nine DR1 individuals were randomly selected from each group and subjected to high-resolution DNA typing by polymerase chain reaction using sequence-specific oligonucleotide probes. DRB1*0101 was the most common allele in the Caucasian, Asian/Pacific Islander, and Native American groups while the DRB1*0102 allele was found in the majority of African Americans and Hispanics. DRB1*0103 was present at a similar frequency in all populations. DRB1*0104, DRB1*0105, and DRB1*0106 alleles were not observed.     

Striking conservation of three extended HLA-DR13 haplotypes in the Japanese population

Abstract: HLA class II DNA typing was conducted for 1335 unrelated Japanese individuals. The study on the linkage disequilibrium revealed a striking conservation of HLA DR13 haplotypes. Among these Japanese, 155 were typed for HLA-DR13 serologically, and they were correspondent to three DRB1 alleles, DRB1*1301, 1302 and 1307 defined by using the polymerase-chain reaction and sequence-specific oligonucleotide probe (PCR-SSOP) method. The two alleles, DRB1*1301 and 1307 were exclusively associated with each specific DRB3-DQA1-DQB1 combination which was DRB1*1301-DRB3*0101-DQA1*0103-DQB1*0603, and DRB1*1307-DRB3*0202-DQA1*0501-DQB1*0301, respectively. DRB1* 1302, the most common DR13 allele in Japanese, had two significant associations with DRB3*0301-DQA1*0102-DQB1*0604 (DRB1*1302A) and with DRB3*0301-DQA1*0102-DQB1*0605 (DRB1*1302B). In this study, no other DR13 class II combinations were found. Ony the DRB1*1302A halotype was associated with the DPB1*0401 allele while the DRB1*1302B haplotype was not. The complete conservation of these DR13 class II haplotypes was found to extend toward the HLA class I region. They were HLA A3-B44-DRB1*1301, A33-B44-DRB1*1302A and A33-B17-DRB1*1302B. Japanese could be characterized with these three extended haplotypes which were remakrably different from those in Caucasian, Black and Asian other than Korean populations.     

Increasing complexity of HLA-DR2 as detected by serology and oligonucleotide typing.

Serological and oligonucleotide typing was performed on a number of HLA-DR2-positive cells from different ethnic origin, including DR2 haplotypes with various DQ associations. Exons 2 of DRB1 and DRB5 of DR2-positive individuals were locus-specific amplified and hybridized with a number of different oligonucleotides capable of discriminating between the various Dw2, Dw12, Dw21, and Dw22 associated sequences. The linkage of DRB with DQA1 and DQB1 in these haplotypes was analyzed. Among the DR2- positive cells we could define 10 different DR DQ haplotypes by serology and 13 by oligonucleotide typing. The DR2.ES specificity is a serological DRw15 variant which could not be discriminated by oligonucleotide typing from a DRw15 DQw5 haplotype. The DR2.JA variant represents a unique DRB1*1602 DRB5*0101 haplotype. The DR1+2s haplotype consists of a DRB1 DQ region from a Dw1 and a DRB5 gene from a Dw2 haplotype. Its short DR2 serum pattern can be explained by the absence of a DR2 DRB1 gene product. DRB5*0101 sequences were found in association with DRB1*1501, *1502, *1602, and *0101 alleles. Since the DRB5 gene is capable of such different associations it is comparable to the DRB3 and DRB4 genes. This may have implications for the definition of the broad DR2 specificity which is predominantly encoded by the DRB5 gene product. New DR2 haplotypes included the following DQ combinations: DQw2-positive DQA1/B1*0301/0201 and DQw6-positive DQA1/B1*0102/0601 and *0102/0603 haplotypes.     

Lack of HLA-DR2—associated DRB1 gene in a family

HLA-DR51 haplotypes co-express one DRB1 (B1*15 or B1*16) gene and one DRB5 gene. These haplotypes also carry two pseudogenes (DRB6 and DRB9). During routine HLA typing for transplantation, we observed an unexpected DR51 haplotype in two subjects (mother and daughter) in a family. Serological typing showed that these subjects are positive for DR51 and DQ6 but negative for DR15 and DR16. Investigations of genomic DNA by molecular techniques showed that these individuals carry DRB5*0101, DRB6*02 and DQB1*0602 genes, whereas the DRB1 gene associated with either DR15 (B1*1501 to B1*1504) or DR16 (B1*1601 to B1*1606) was not detected in the mother and daughter. It is possible that the new haplotype, DQB1*0602, DRB6*02, DRB5*0101, arose by deletion of DR2-associated DRB1 gene.     

DRB1*03 diversity and DRB3 associations in five major population groups in the United States

One hundred sixty-one DRB1*03 positive individuals from each of five U.S. population groups (Caucasoids, African Americans, Asians/Pacific Islanders, Hispanics, and Native Americans) were randomly selected from a database of 82,979 individuals. DRB1*03 alleles were identified by polymerase chain reaction-sequence-specific oligonucleotide probe typing. A total of six DRB1*03 alleles out of 21 known alleles were detected. DRB1*03011 was the predominant DRB1*03 allele in all populations. Caucasoids were found to be the least diversified; only DRB1*03011 was observed. African Americans carried DRB1*03021 at a high frequency. This allele was observed in three other populations. DRB1*0304 was found in Asians/Pacific Islanders and DRB1*0305, DRB1*0307 and a new allele, DRB1*0316, was found in Hispanics. A subset of individuals was also typed for DRB3 alleles. DRB3*0101, DRB3*0202, and DRB3*0301 were detected and seven DRB1-DRB3 haplotypes were defined. Testing of other individuals not included in the DRB1*03 frequency study identified a variation of a common extended haplotype, A1, B8, DR3, which carries DRB1*0304 and two previously unreported DRB1*03 alleles, DRB1*0311 and *0320, are also described.     

HLA class II allele and haplotype distribution in a population from central Poland

We have studied the distribution of HLA DRB1, DQA1, DQB1 alleles and haplotypes in a sample of 103 unrelated healthy individuals from the region of Lodz in central Poland by the polymerase chain reaction and hybridization with allele-specific oligonucleotide probes (PCR-SSO). DRB1*0101, DRB1*07, DRB1*1501, DRB1*03 and DRB1*11 were the most frequent alleles at the DRB1 locus. The DRB1*04 group was observed at a high frequency, but only five out of the 19 DR4 subtypes tested were observed. The most frequent was DRB1*0401, followed by DRB1*0403, DRB1*0402, DRB1*0407 and DRB1*0417. Eight DQA1 alleles were found in this Polish population, among which DQA1*0501, DQA1*0101 and DQA1*0102 were the most frequent. At the DQB1 locus 13 alleles were found. Among them, four were present with frequencies above 10%: DQB1*0201, DQB1*0301, DQB1*0501 and DQB1*0602. Our results underline significant differences between the population of central Poland and populations of neighbouring countries such as Germany, Ukraine and the Czech Republic. This study will serve as a reference for further anthropological studies, as well as studies of associations between HLA and disease.     

HLA-DR 52- and 51-associated DRB1 alleles in Kenya, East Africa

The genes of the major histocompatibility complex (MHC) are amongst the most polymorphic loci known in the human population. The population genetics of the MHC encoded HLA loci of sub-Saharan Africa are of major interest because of their particular genetic diversity. Here we report on the HLA-DR 52- and 51-associated determinants of the DRB1 loci observed in 165 East African individuals studied in Nairobi, Kenya. The HLA-DR typing was done by serologic and by molecular DNA techniques (PCR-SSOP). The most frequent allele identified was DRB1*1101, followed by DRB1*1503 and DRB1*1302. Some unexpected alleles were repeatedly identified: DRB1*1108, DRB1*1316 and DRB1*1421. Most oftheDR 52-and 51-associated DRB1 alleles were correctly identified by serology as part of the DR3, DR5, DR6 and DR2 groups respectively. The HLA-DRB1 profile reported here corroborates previous genetic and linguistic data supporting the concept that the Eastern African Black population is genetically distinct from other African Black populations. This has important implications in public health issues related to the genetic profile of a population (transplantation, vaccine design for example).