Polymorphism of Mhc-DRB alleles in Cercopithecus aethiops (green monkey): generation and functionality

Abstract: DRB genes have been studied for the first time in green monkeys (Cercopithecus aethiops) . Eleven new DRB alleles (exon 2, exon 3) have been obtained and sequenced from cDNA. A limited number of lineages have been identified: DRB1*03 (4 alleles), DRB1*07 (3 alleles), DRB5 (1 allele), DRB*w6 (1 allele), and DRB*w7 (2 alleles). The existence of Ceae-DRB1 duplications is supported by the finding of 3 DRB1 alleles in 3 different individuals. Ceae-DRB1 *0701 may be non-functional because it bears serine at position 82, which hinders molecule surface expression in mice; the allele is only found in Ceae-DRB duplicated haplotypes. Base changes in cDNA Ceae-DRB alleles are consistent with the generation of polymorphism by point mutations or short segment exchanges between alleles. The eleven green monkey DRB alleles meet the requirements for functionality as antigen-presenting molecules (perhaps, excluding DRBl*0701 ), since: 1) they have been isolated from cDNA and do not present deletions, insertions or stop codons: 2) structural motifs necessary for a correct folding of the molecule, for the formation of DR/DR dimers and for CD4 interactions are conserved, and 3) the number of non-synonymous substitutions is higher than the number of synonymous substitutions in the peptide binding region (PBR), while the contrary holds true for the non-PBR region.     

An unusual DRB1*1503 haplotype without a detectable DRB5 locus in a black African family

A DRB1*1503 allele not associated with DRB5 locus has been detected in an African family during routine HLA typing for bone marrow transplantation. PCR/SSOP analysis showed the DR2-associated alleles in all the family members but the DRB5 locus appeared to be absent in the patient and his brother. The samples were then analyzed for the presence of DRB6 pseudogenes and we found that the unusual haplotype was associated with DRB6*0101 allele. This finding strengthen the hypothesis of a recombination hot spot between DRB1 and DRB6 genes.     

Report of a new DRB1*13 allele: DRB1*1336

This brief communication describes the characterization of a new allele, DRB1*1336.     

Description of three novel HLA-DRB3 alleles: DRB3*010105, DRB3*0112 and DRB3*0113

This communication describes three novel DRB3 alleles whose exon 2 sequences are identical to that of DRB3*010102 except for a single nucleotide substitutions. Comparing with DRB3*010102, the sequence of DRB3*010105, DRB3*0112, and DRB3*0113 differ at codon 31 (TTC -> TTT), codon 84 (GGG -> CGG; Gly -> Arg), and codon 37 (TTC -> CTC; Phe -> Leu), respectively.     

Identification of three novel alleles: DRB3*0110, DRB1*1140, and DRB1*140102

Three novel human leukocyte antigen class II alleles (DRB3*0110, DRB1*1140, and DRB1*140102) are described here. The three novel alleles were initially detected as previously unidentified SSO hybridization patterns using CANTYPE((R)) reverse hybridization assay. Sequences were determined by cloning/sequencing. DRB3*0110 allele is identical to DRB3*010101, except for a single nucleotide substitution (CGC-->AGC) changing codon 39 from Arg to Ser. This polymorphism has not, until now, been identified in DRB allele. Thus, this is an unusual mutation as the codon 39 is a fairly conserved region. The new DRB1*1140 is identical to DRB1*1116, except for a single nucleotide substitution at codon 67 from ATC (encoding for isoleucine) to TTC (encoding for phenylalanine). This polymorphism is commonly found in DRB1*11 alleles. Compared with DRB1*140101, DRB1*140102 contains a single silent nucleotide substitution (TAT-->TAC, both encoding for tyrosine) at codon 78. This polymorphism is commonly found in DRB1*14 alleles. The three new DRB alleles may have been generated by a point mutation event. The DRB3*0110 and DRB1*140102 were identified in Caucasoid individuals. The ethnic origin of the subject carrying the DRB1*1140 allele is Egyptian. The DRB1*140102 was detected in two unrelated individuals; the DRB3*0110 and DRB1*1140 were only identified once, in a total population of 80,000.     

Specific amplification of the HLA-DRB4 gene from c-DNA. Complete coding sequence of the HLA alleles DRB4*0103101 and DRB4*01033

We present the complete coding sequence of the HLA alleles DRB4*0103101 and DRB4*01033 derived from the lymphoblastoid cell line G081, established from an individual of Spanish Gypsy ethnic origin. This cell was typed by PCR-SSP and reverse SSO as DRB4*0103101 but further characterization of the DRB4 gene by sequence-based typing (SBT) demonstrated heterozygosity at codon 78 (TAC, TAT). With the aim of confirming this polymorphism, RNA isolated from G081 was subjected to RT-PCR using primers designed to recognize specifically the 5' and 3' UT regions of HLA-DRB4 and the product was cloned and sequenced. Nucleotide sequences derived from seven clones confirmed the heterozygosity of G081, as they corresponded to two open reading frames of 801 nucleotides that matched either DRB4*0103101 or the recently described DRB4*01033, for which a partial sequence, spanning exons 2 and 3, has been reported. The phenotype of G081 (A*01; B*0702, *1302/1303; Cw*0602, *07; DRB1*0403, *0701; DRB4*0103101, *01033; DQB1*0202, *0302; DQA1*0201, *0301) is consistent with a proposed association of DRB4*01033 with DRB1*0403 and DQB1*0302.     

Three new DRB alleles routinely identified by sequence-based typing: DRB1*010103, DRB1*0326 and DRB3*0219

We describe here two additional DRB1 alleles found in two Caucasoid recipient candidates for organ transplant and a new DRB3 allele found in a Caucasoid unrelated bone marrow donor from the German file. HLA-DRB generic and allele typing were performed using commercial kits, subsequently exon 2 was sequenced. We found a DRB1*010101 with a silent mutation at codon 68 and a DRB1*0306 with a mutation at codon 38 (T-C) which causes an amino acid substitution from Val to Ala. DRB3*0219 differs from DRB3*020201 by two-point mutations at codons 60 and 74 (A/C and A/G, respectively). These mutations at positions 266 and 308 were responsible for two amino acid substitutions (Tyr to Ser and Gln to Arg).     

Six newly identified HLA-DRB alleles: DRB1*1121, *1419, *1420, *1421, DRB3*0203 and DRB5*0103

Seven samples with irregular PCR-SSO hybridization patterns, observed during routine HLA-DRB typing, were studied in more detail. Group-specific amplification, followed by hybridization with relevant SSOs strengthened the suggestion that these samples contained new DRB alleles. DRB exon 2 segments were amplified, cloned and sequenced and revealed: DRB1*1121 [MUL] is similar to DRB 1*1102 in which codon 85 changed from GTT(V) into GTC(A); DRB1*1419 [AKKAL] is similar to DRB1*1402 with codon 71 changed from AGG(R) into AAG(K); DRB1*1420 [OND-52971] is a DRB1*1406 with codon 37 changed from AAC(N) into TTC(F); DRB1*1421 [TGI] is similar to DRB1*1417 with codon 71 changed from AGG(R) into AAG(K); DRB3*0203 [POS] is similar to DRB3*0202 in which codons 37–38 are changed from TAC GCG(YA) into TCC GTC(SV); DRB5*0103 was found in two unrelated individuals of Oriental origin [IND-24 and IND-59] and is similar to DRB5*0102 in which codon 71 AGG(R) changed into ACG(T). This particular sequence variation at position 71 has not yet been described. The new DRB sequences were confirmed using the sequencing based typing technique. Low resolution PCR-SSP typing failed to amplify two of the DRB1*14 variants, whereas high resolution PCR-SSP resulted in aberrant patterns. Class II alloantisera identify the codon 71 changes in DRB1*1419 and *1421 with respect to the MC1('DR1+DR4') epitope.     

HLA-DRB1*03, DRB1*11 or DRB1*12 and their respective DRB3 specificities in clinical variants of sarcoidosis

Determination of DRB1 and DRB3 specificities in sarcoidosis patients identified that the presence of DRB1*03 and the absence of DRB1*11 and/or DRB1*12 favors a course of disease that is associated positively with L?fgren's syndrome (DRB1*03) and negatively with stage I disease (DRB1*11 and/or 12). In common with normal controls, DRB1*03 was associated with DRB3*0101 and DRB1*11/12 with DRB3*0201/2. An analysis of DRB1 and DRB3 associations in variants of sarcoidosis revealed that DRB1*03 and DRB3*0101 were associated with L?fgren's syndrome in a combined association fashion. Conversely, a lack of DRB1*11 and/or DRB1*12 but not DRB3*0201/2 favored the clinical course of sarcoidosis.     

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.     

Identification of a novel DRB1*04 allele: DRB1*0445

The novel allele DRB1*0445 differs from DRB1*04051 by a single nucleotide substitution at codon 23 (CGG-->CCG), resulting in an amino-acid change from arginine to proline. The haplotype associated with the novel allele is A*2402-B*5401-Cw*0102-DRB1*0445-DRB4*01-DQB1*0302.     

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.     

HLA-DR51 expression failure caused by a two-base deletion at exon 2 of a DRB5 null allele (DRB5*0110N) in a Spanish gypsy family

Here we describe a new HLA class II null allele at the DRB5 gene. Serologic HLA typing of a Spanish gypsy family rendered the following paternal haplotype: A2-Cblk-B52-Bw4-DR15-DQ5. However, DNA typing demonstrated the presence of a DRB5 gene in the haplotype DRB1*1502-DRB5*0102-DQB1*05031. Complete DRB5 cDNA sequencing revealed a DRB5*0102 allele with a deletion of two nucleotides at exon 2 (239-240) in codon 80. This change generates a frame shift leading to a stop codon at position 86, and could explain the lack of DR51 protein at the cell surface. This is the second DRB5 null allele described together with DRB5*0108N, raising the number of HLA alleles with an expression disorder.     

HLA-DRB4 genotyping by PCR-RFLP: diversity in the associations between HLA–DRB4 and DRB1 alleles

The serologically defined HLA-DR53 antigen is associated with HLA-DR4, -DR7, and -DR9 antigens, and these haplotypes contain two functional genes, DRB1 and DRB4, and two pseudogenes, DRB7 and DRB8. The DRB4 gene encodes the DR53 antigen, and has been officially recognized to contain three allelic variants (DRB4*0101, 0102, and 0103). In this study, we have established the polymerase chain reaction - restriction fragment length polymorphism (PCR-RFLP) method for DRB4 genotyping and analyzed genetic polymorphism of the DRB4 gene in Japanese population. DRB4*0101, DRB4*0102, and DRB4*0103 could be observed at the frequencies of 0.5%, 1.1% and 32.7%, respectively. The same DRB1 allele does not necessarily share an identical DRB4 allele. Further, a tight linkage disequilibrium was found between DRB4*0I02 and DRB1*0401 in Japanese population, whereas DRB1*0401 was associated with DRB4*0101 or *0103 in Caucasian population. These findings reveal extensive diversity of the HLA-DRB1 and -DRB4 haplotypes and may have important implications for HLA-disease associations and donor selection in unrelated transplantation.     

DRB1*1613N: a novel DRB1 allele with a premature termination codon

DRB1 null alleles are extremely rare and always sporadic, suggesting their biological selective disadvantage.