A novel DRB1 allele in DR2-positive American blacks

Class II D region antigens of the major histocompatibility complex are naturally occurring dimeric proteins found on the surface of lymphoid cells. In most haplotypes at least two of the polymorphic beta chains are associated with a nonpolymorphic alpha chain. The allelic variation of these proteins lies in the first domain of the expressed protein. At present, there are four known DRB genes. DRB1 encodes for the classical DR 1, 3, 4, 5, etc., specificities. DRB3 and DRB4 encode the four supertypic specificities of DRw52 and the single phenotype of DRw53, respectively. Two DRB genes are expressed in human leukocyte antigen DR2-positive individuals. While DRB1 is the more polymorphic gene in most haplotypes, in DR2 haplotypes it appears that DRB5 encodes the polymorphic DR beta chain and the DRB1 encodes a nonpolymorphic beta chain. We attempted to further define the diversity of this region by direct dideoxynucleotide sequencing of polymerase-chain-reaction-amplified genomic DNA. We identified a novel DRB1 allele in DR2-positive individuals that was only observed in the American blacks sampled. This allele may code for a black specific class II antigen.     

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。     

Comprehensive typing of DR52 (DRB3)-associated DRB1 and DRB3 alleles by PCR-RFLP

Abstract: The DR52-associated DRB1 and DRB3 alleles were resolved by PCR-RFLP. Second exon was amplified using four primer pairs (groups 1–4) for DRB1 and a pair for DRB3 alleles. Except for three endonucleases, all others had either none or only one site for a specific amplified product. Group 1 primers amplify 10 DRB1 alleles (DRB1*0302, 1101, 1302, 1303, 1305, 1307, 1402, 1403, 1407 and 1409). All but one pair, DRB1*1402 from 1409, could be resolved using seven endonucleases (ApaI, SacII, FokI, AvaII, BsaAI, BsrBI and SfaNI). Group 2 consisted of four alleles (DRB1*1201, 1202, 1404 and 1411) that can be resolved along with co-amplified DRB1*0804 and 0806 using five endonucleases (AvaII, SacII, FokI, HaeII and RsaI). Group 3 primers amplify 15 DRB1 alleles (DRB1*0301, 0303, 1102, 1103, 1104, 1107, 1301, 1304, 1306, 1308, 1401, 1405, 1406, 1408 and 14-New), which can be resolved using nine enzymes (KpnI, AvaII, FokI, SacII, HaeII, BsrBI, SfaNI, DdeI and RsaI). BsrBI, a new endonuclease, can resolve DRB1*1301 from 1306 and the previously unresolved allele DRB1*1103 from 1104. DRB1*1410, co-amplified with DR4 group-specific primers, is resolved with PstI which cleaves all DR4 alleles but not DRB1*1410. All four DRB3 alleles (DRB3*0101, 0201, 0202 and 0301) and their heterozygotes are resolved using two endonucleases, RsaI and HphI. Thirty-four DR52-associated alleles and their heterozygotes can be unambiguously resolved, except for DRB1*1402 from 1409. Thus, PCR-RFLP remains an effective method for high-resolution HLA-DR typing. Furthermore, PCR-RFLP can complement the evolving PCR-SSP method for allele-specific typing using a minimal number of restriction endonucleases.     

A description of a new DR allele, DRB1*1113

Abstract: We have discovered a previously unpublished HLA-DRB1 allele, observed in a patient (SB), his mother, and one sibling. The undefined allele gave sporadic positive reactions with sera in the DR52-associated group. SSOPH analysis utilizing both generic and group specific primers and probes also gave ambiguous results. SB typed clearly as a DRB 1*0301 (paternal allele) but the DNA from SB also bound probes specific for DRB 1*14 and DRB1*11. Sequencing revealed that the undefined allele was similar to a DRB 1*14 allele with a segment of sequence found in DRB1*11 alleles. The patient was MLC reactive with donors who express DRB1*0301, *1401 and *0301, *11 and was nonreactive solely to DRB 1*0301 (Dw3) homozygous typing cells.     

Identification of a novel DR4 allele, DRB1*0442

A new DRB1 allele encoding DR4, DRB1*0442, was identified in three Caucasian siblings by reverse in-line hybridization and defined by sequencing based typing. The DRB1*0442 allele differs from DRB1*0404 by a single nucleotide at position 227 (T-->A) of codon 47 in exon 2. At the amino acid level, this substitution results in a change from tyrosine to phenylalanine. Serologically, the new allele appears to retain the DR4 antigenicity; however, this substitution may affect peptide-binding specificity.     

Direct sequencing of SSP-PCR-amplified cDNA to identify new alleles in the DR52-associated DRB1 group: identification of DRB1*1115, DRB1*1117 and DRB1*1319

Abstract: Low and high resolution sequence specific oligonucleotide probe hybridization patterns were used to design an approach to direct sequencing of allele specific amplified cDNA. Several PCR amplifications were used to derive overlapping sequence fragments to define complete first domain sequences for a single allele. This method has been used to characterize three new DRB1 alleles in the DR52 family, DRB1*1115, DRB1* 1117, and DRB1*1319. All three alleles carry polymorphisms previously observed in other DRB alleles and underscore the importance of utilizing a directed sequencing approach for obtaining unambiguous typing results in matching for bone marrow transplantation between unrelated donor and recipient.     

A novel DRB1*13 allele (DRB1*1327) on a DR17, DQ2 haplotype with a DRB1*0301 sequence motif in the 2nd hyperpolymorphic region

In a sample from a Netherlands Caucasian, we found a new DRB1*13 allele ( DRB1*1327 ). The nucleotide sequence of the second exon of the novel allele was identical to DRB1*1301 except for a single productive base substitution changing codon 26 from TTC to TAC, encoding phenylalanine and tyrosine, respectively. The new allele shares sequence with DRB1*03011 from codons 5 to 66. The haplotype carrying the new allele was, from known linkage disequilibria, deduced to be DRB1*1327, DRB3*0101, DQA1*05011, DQB1*0201 , i.e. similar to the DR17, DQ2 haplotype, which suggests that the DRB1*1327 allele has arisen by a double recombination event between a DR13 donor haplotype and a DR17, DQ2 recipient haplotype.     

Polymorphism of human HLA-DRB1 antigens generated by genetic exchange between DR2 (DRB1*15011) and DR6 (DRB1*1405) alleles: a novel DRB1 allele (DRB1*1437) identified in a Paiwan tribe member of Taiwan

We report herein the identification of a new DRB1 allele using sequence-based typing (SBT). This novel allele, HLA-DRB1*1437, was found in an aboriginal individual from the Paiwan tribe in the southern part of Taiwan. This individual was typed by SBT method as having an HLA genotype of HLA-A*02011/0203, HLA-B*15011/3901, HLA-DRB1*11011/1437, HLA-DRB3*0202/0202, and HLA-DPB1*0501/1301. This new allele differs from DRB1*1309 in the 5'-end nucleotide sequence of polymorphic exon 2 at codon 16 (CAT-->CAA; H16Q), codon 37 (AAC-->TTC; R37F), codon 47 (TTC-->TAC; F47Y), and codon 58 (GCC-->GCT; both specify alanine). By sequence comparison, it was found that this new allele has a 5'-end sequence (from amino acid residues 7 to 66) identical to that found in the DRB1*1405 allele and a 3'-end sequence (from amino acid residues 58 to 94) identical to that found in the DRB1*15011 allele. Both DRB1*1405 and DRB1*15011 alleles have been identified among the Paiwan members (Note).     

Two DR2-associated novel alleles arose from the silent mutation of codon 72: DRB1*16012, DRB5*01012

Two DRB1*02-associated alleles, DRB1*16012 and DRB5*01012, are described. Both alleles carry the same silent substitution at codon 72.     

Identification of a novel HLA DRB1 exon 2 sequence,DRB1*1345

Five different haplotypes in the human HLA D region are recognized based on their gene composition. The HLA DR52 associated DRB1 alleles include DRB1*03/08/11/12/13/14 and are characterized by the YST sequence motif in the codons 10-12 but vary in other polymorphic regions. The mechanisms generating the extensive variability are not entirely clear. Some alleles have probably arisen from point mutations, but most polymorphism has probably been caused by intralocus gene conversion, and the distinction between the ancient serologically defined groups is more and more difficult. This report describes the identification of a novel DRB1* allele - DRB1*1345 - found in a kidney transplant recipient from East Africa. The new allele shows the closest resemblance to DRB1*1114 and DRB1*1323. It differs from both those alleles at codons 57, 58 and 60, where the new allele carries the 'A-H' sequence motif common to DRB1*14 alleles such as 1401/04/07/10/16/25. This motif is only found in one other DRB1*13 allele namely DRB1*1343.     

Detection of four novel alleles: DRB1*1130, DRB1*13072, DRB1*1315 and DRB1*1331

Four new DR52-associated DRB1 alleles are described. One allele, DRB1*1130, is a hybrid between a DRB3*02 allele and a DRB1*11011 allele. The other alleles, DRB1*13072, DRB1*1315, and DRB1*1331, are simple reshufflings of known polymorphic motifs.     

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.     

Six new DR52-associated DRB1 alleles, three of DR8, two of DR11, and one of DR6, reflect a variety of mechanisms which generate polymorphism in the MHC

We have sequenced DNA from six new DR52-associated DRB1 alleles initially detected by PCR/SSOP analysis. Three DR8 associated alleles differed from previously known alleles by single nucleotide substitutions. DRB1*0807 and DRB1*0811 both vary from DRB1*08021 at codon 57 resulting in two different amino acids at this residue. DRB1 *0807 was identified in samples of Brazilian origin while *0811 was identified among samples from the Tlingit Native American population of Southeast Alaska. DRB1*0814, identified in a family of Chinese origin, differed from DRB1*08032 at codon 12 at both the nucleotide and the amino acid level. In addition, two alleles of DR11, DRB1*1113 and *1119, were each detected in Caucasian individuals. DRB1*1113 differs from other DR11 alleles at codons 37, 67, 70 and 74, while DRB1*1119 differs from *1101 by a single nucleotide substitution at codon 67. Finally, DRB1*1418 was detected in a sample from an Asian or Pacific Islander and shares sequences with several other DR52-associated DRB 1 alleles. These six DRB 1 alleles appear to have been generated by either gene conversion events, DRB1*1113 and * 1418, or by point mutations, DRB1*0814, *0807, *0811 and *1119, although the single nucleotide substitutions found in the latter three alleles are also present in at least one other DRB1 allele and, therefore, could have been the product of gene conversions.     

Identification of a novel DRB1 allele, DRB1*1112, by sequence-based DRB typing

We report here a novel DRB1 allele (DRB1*1112) identified during sequence-based HLA-DRB typing. Polymerase chain reaction with generic DRB primers and group-specific primers and subsequent sequencing yielded identical results. Molecular cloning and sequencing confirmed that the new DRB1 allele is identical to DRB1*11011 and 1129 at exon 2 except for a single nucleotide substitution at codon 37, changing the codon from Tyr (DRB1*11011) or Ser (DRB1*1129) to Phe.     

Novel HLA-DRB1 alleles discovered during routine sequencing based typing,DRB1*03052, DRB1*04032, DRB1*1139 and DRB1*1346

We report the discovery of four HLA-DRB1 alleles during routine sequencing based typing (SBT). These alleles--DRB1*03052, DRB1*04032, DRB1*1139 and DRB1*1346--differ from previously identified DRB1 alleles by known nucleotide polymorphisms.