Complete HLA-B44 subtyping in Spaniards. Additional evidence for heterogeneity in Caucasian populations

HLA-B44 is one of the most common HLA class I alleles in Caucasians. Exon 3 oligotyping and sequence analysis have define five B44 subtypes: B^*4402, B^*4403, B^*4404, B^*4405 and B^*4406, with variations in exons 2 and 3. We have developed a conventional DNA typing system by using a single B12-group specific amplification including exon2-intron2-exon3 in combination with 6 oligoprobes to define all B44 subtypes. 140 HLA-B44 positive unrelated Spanish Caucasians were typed. Family studies established 30 B44-bearing haplotypes. The distribution of B44 subtypes in our population was: B^*4402 32.5%, B^*4403 66.5%, B^*4404 0.5%, B^*4405 0.5%, B^*4406 not found. B^*4402 and B^*4403 represented the 99% of the B44 alleles, as described in Caucasians. However, these two major subtypes showed an inverted frequency when compared with other Caucasian populations, B^*4403 twice as frequently as B^*4402 in Spaniards. HLA-B44-associated chromosomes showed 20 different haplotypes (including HLA-A,-C,-DR,-DQ), although demonstrating clear separated haplotype composition between B^*4402 and B^*4403: B^*4402 associated to class I alleles A2 ( ) and Cw5 ( ), and B^*4403 associated to the class II allele DRB1^*0701 ( ). These findings, in addition to the validation of a complete B44 oligotyping system, revealed further evidence of antigen frequency differences among populations of the same ethnic origin.     

HLA-B44 subtyping in a Spanish population: further evidence of Caucasian population diversity

HLA-B44 is the most frequent HLA-B allele in Caucasian populations. Several B44 subtypes, B*4402-B*4406, have been identified in individuals with this ethnic origin. Mismatches among B44 subtypes have been described as major targets for allogeneic responses in bone marrow transplantation. We have developed a PCR-SSO method, based on a B12- specific DNA amplification of exon 2 through exon 3 and subsequent non radioactive hybridization with eight probes, which allow us to discriminate all B12 homozygous combinations. We applied this method to determine the frequency of B44 subtypes in a Spanish population, as well as their HLA-A.-C.-DRB1,-DRB3/DRB4/DRB5.-DQA1 and -DQB1 associated haplotypes. A total of 141 healthy unrelated Spanish individuals and 31 B44-bearing haplotypes were investigated. Four B44 alleles were identified, B*4402 (33%), B*4403 (66%), B*4404 (0.7%), and B*4405 (0.7%). Haplotype analysis showed a clear differentiated distribution pattern for the two major B44 subtypes. B*4402 is associated with Cw5 (11/13) and A2 antigens (10/13). In contrast, B*4403 is mainly found together with DRB1*0701 (14/16). An inverted B*4402/B*4403 frequency in comparison with other European and North American Caucasian populations, revealed the existence of an extended haplotype diversity between populations of the same ethnic origin. Apart from anthropological studies, high resolution typing for HLA class I antigens presenting molecular polymorphism will be of great relevance in unrelated bone marrow transplantation.     

Differences in the recognition by CTL of peptides presented by the HLA-B*4402 and the HLA-B*4403 molecules which differ by a single amino acid

The HLA-B*4402 and B*4403 molecules differ only at residue 156, which borders the peptide binding site. Strong in vivo allogeneic reactions mediated by cytolytic T lymphocytes (CTLs) were reported in patients who received a bone marrow graft mismatched for these B44 subtypes, indicating that HLA-B*4402 and B*4403 molecules present distinct antigens. This could be due either to the presentation of different sets of antigenic peptides or to the recognition by CTLs of conformational epitopes formed by the MHC molecules alone or in association with antigenic peptides. To address this question, we compared the two B44 subtypes in their presentation to tumor-specific CTLs of three peptides, encoded by genes MAGE-3, MUM-1 and Tyrosinase. The peptides bound with similar affinities to B*4402 or B*4403 molecules, as assessed by lytic competition assays. One HLA-B*4402-restricted and one HLA-B*4403-restricted CTL clone were derived against each peptide. When tested for lysis of B*4402 and B*4403 cells incubated with the antigenic peptides, most CTLs showed a marked preference for one of the two B44 subtypes. Using variant peptides incorporating single alanine substitutions, we compared a given CTLs' recognition of its antigenic peptide presented by both B44 subtypes. Some substitutions, which had no effect on the binding of the peptide, affected its recognition by the same CTL differently on B*4402 and B*4403 molecules. These results imply that the conformations adopted by the same peptide on the two HLA-B44 subtypes are different. We conclude that the B44 subtype specificity of T cells results mostly from distinct conformations adopted by the same peptides in the two B44 molecules. This does not exclude the possibility that in some cases the B44 subtype specificity results from the selective binding of a peptide to one subtype. We found several peptides, different from the three mentioned above, that contain the canonical HLA-B44 binding motif and bind to B*4403 but not to B*4402 molecules.     

HLA-B44 ALLELE FREQUENCIES AND HAPLOTYPIC ASSOCIATIONS IN THREE EUROPEAN POPULATIONS

HLA-B44 is among the most frequent class I antigens in many populations studied so far. It has been subdivided into seven allelic forms that can only be discriminated by DNA typing. Using a simple PCR/sequence-specific oligonucleotide hybridization procedure, we have analysed the frequency distribution of B44 subtypes in three European populations from Slovenia, the Netherlands, and Switzerland. B*4402 and B*4403 were by far the predominant alleles, B*4404 and 4405 were rare, while B*4406 and B*4407 were not observed. Interestingly, B*4402 and 4403 occurred with different frequencies in the three populations, with B*4402 being most frequent in the Swiss (65% vs. 57% in the Dutch, and 46.5% in the Slovenes). Of the 139 individuals studied, 60 HLA-B44 ABDR haplotypes could be determined by family studies. In the respective populations, the linkage disequilibria between B44 and other HLA antigens occurred with different frequencies. A2-B*4402 haplotypes were very frequent in the Swiss sample, mostly associated with DRB1*0101, 0401 and 1301. B*4402 was more often linked with non-A2 antigens in the Slovenes (predominantly A24, A28) than in the Swiss and the Dutch. The predominant association of B*4403 was with DR7: this haplotype was very frequent in the Swiss (82% of the B*4403 haplotypes), while lower frequencies were found in the Dutch (72%) and Slovenian (59%) populations. In the Swiss population, more than half of the B44-DR7 haplotypes were A23-B*4403-DR7 (53% of all B*4403 haplotypes). This haplotype was significantly less frequent in the Slovenian (6%) and in the Dutch (14%) populations. The second most frequent B*4403 haplotype in both the Swiss and Slovenes is the A29-B*4403-Cw*1601-DR7 haplotype (17.6 and 29.4%, respectively). Concomitant with the increased frequency of B*4403 in the Slovenes, a higher diversity of non-DR7 B44 haplotypes was observed in this population (41% of all B*4403 haplotypes). HLA-B44 oligotyping analysis allowed us to detect B44-subtype incompatibilities in several AB-sero, DRB1/B3/B5-oligo matched unrelated bone marrow donor/patient combinations. The different frequency distributions of HLA-B44 haplotypes in the three populations analysed in this study argue in favour of local volunteer bone marrow donor recruitment. This might significantly improve the chance of finding a highly matched donor for patients with less frequent A-B-DRB1 haplotypes.     

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.     

Analysis of 250 HLA-B44 genotypes in European Caucasoids: high diversity and preferential ABCDRB1 associations in B*4402, B*4403, and B*4405 haplotypes

Based on high-resolution DNA typing within 235 pedigrees, a total of 250 HLA-A/B/C/DRB1/DRB3 genotypes have been characterized. These comprise 129 different B44 haplotypes, of which 73.6% occurred only once. Only four different B*44 alleles were identified: B*4402-4405, with B*4402 and B*4403 haplotypes accounting for 57.6 and 36.8%, respectively, of all haplotypes. Although the relative numbers of different A/B/C/DRB1/B3 haplotypic associations were similar in both B*4402 and B*4403 haplotypes, the genotypic profiles were quite different in the two groups. When associated with the A*0101, A*0201, A*2402, A*3201, and A*6801 alleles, a much more extensive polymorphism of B*4402 haplotypes with respect to HLA-C and DRB1 associations was disclosed. On the other hand, B*4403 haplotypes were more diverse in the A23-B44 and A29-B44 groups with respect to DRB1 associations. Considering B-C linkage, B*4402-Cw*0501, B*4402-Cw*0704, B*4402-Cw*1604, B*4403-Cw*0401, B*4403-Cw*1601, B*4404-Cw*1601, and B*4405-Cw*0202 accounted for 98% of all genotypes. Eight A/B/C/DRB1 haplotypes occurred at a relative genotypic frequency of >0.015, with A*2902-B*4403-Cw*1601-DRB1*0701 (11.2%) and A*0201-B*4402-Cw*0501-DRB1*0401 (8.4%) as the two most frequent genotypes. Some A and DRB1 alleles were predominantly, if not exclusively, associated with specific B-C pairs: A*0301 with B*4402-Cw*0501 and B*4403-Cw*0401; A*2301 with B*4403-Cw*0401; A*2608 with B*4402-Cw*0501; A*2902 with B*4403-Cw*1601; DRB1*0101/0401/0403/0404/1101/1104/0801/1301/1302 with B*4402-Cw*0501; and DRB1*0701 with B*4403-Cw*1601. On the basis of this dataset and our experience with searches for phenotypically matched unrelated stem cell donors, several ABDR haplotypes were identified that would confer a higher probability of B44- and C-incompatibility. The analysis of 112 consecutive unrelated stem cell donor searches revealed that 24% of the 400 tested donors were B44-mismatched, and that no single B44 allele- matched donor could be identified for only 7% of the patients. HLA-C incompatibility rate was 22.2% for the patients with > or =1 B44 allele-matched donor(s). This dataset can therefore be used as a predictive tool for B44- and C-disparities in unrelated stem cell transplantation.     

HLA-Cw*0409N is associated with HLA-A*2301 and HLA-B*4403-carrying haplotypes

The associations of HLA-B*4402 and HLA-B*4403 with alleles of HLA-A and HLA-Cw were investigated in panels of HLA-B*4403 and HLA-B*4402 homozygous individuals and in selected individuals carrying HLA-Cw*04 and HLA-B*4403. Some of these individuals were genotyped and also carried (HLA-DRB1*0701, DQB1*02). Among the latter, we studied individuals carrying the conserved extended haplotype (CEH) [HLA-Cw*04, B*4403, FC31, DRB1*0701, DQB1*02]. Four different common (HLA-Cw*, B*44) haplotypes were identified that extended to the HLA-A locus: HLA-A*0201, Cw*0501, B*4402; HLA-A*2902, Cw*1601, B*4403; HLA-A*2301, Cw*0401, B*4403; and HLA-A*2301, Cw*0409N, B*4403. We identified eight unrelated examples of the allele HLA-Cw*0409N. HLA-A*2301 was associated with both HLA-Cw*0401 and HLA-Cw*0409N, suggesting that HLA-Cw*0409N may have arisen from a mutation in a CEH. We estimate that approximately 2 to 5 in 1000 Caucasian individuals carry the allele HLA-Cw*0409N, making it one of the most frequent null HLA alleles known to date. Our findings demonstrate the first example of three different HLA-Cw-determined subtypes of a common or CEH carrying a shared HLA-B allele, in this case HLA-B*4403.     

Characterization of natural peptide ligands for HLA-B*4402 and -B*4403: implications for peptide involvement in allorecognition of a single amino acid change in the HLA-B44 heavy chain

Abstract: This study describes the characterization of endogenous peptides associated with the two major subtypes of HLA-B44. The two subtypes differ for a single amino acid substitution from Asp (HLA-B*4402) to Leu (HLA-B*4403) in position 156 of the α2 domain, causing strong alloreactivity in vivo. In order to study the involvement of peptides in this phenomenon, the peptide motifs of the two subtypes were determined from natural peptide pools using Edman degradation. The motif was found to be essentially identical for HLA-B*4402 and -B*4403, with a strong predominance for Glu at position 2, Tyr or Phe at positions 9 and 10 and hydrophobic residues, especially Met, at position 3. Two individual naturally processed ligands of HLA-B*4403 were sequenced and shown to be derived from intracellularly expressed proteins found in protein sequence databases. The sequence of these natural peptide ligands conform well to the determined motif. These data will allow the prediction of HLA-B44 restricted peptide epitopes from viral and tumor antigens of known amino acid sequences. Moreover, they indicate that the peptide repertoire presented by HLA-B*4402 and -B*4403 is very similar, suggesting that the strong alloresponse between these two subtypes is not due to presentation of a different set of self peptides.     

HLA-B44 subtyping in the Catalan population using reference strand mediated conformation analysis. Implications for the selection of unrelated bone marrow donors

Cytotoxic T lymphocytes (CTLs) reactive against the disparity between HLA-B*4402 and HLA-B*4403 have been reported after unrelated donor bone marrow transplantation. These CTLs have been associated with acute graft-versus-host disease and graft rejection. This study describes the HLA-B44-subtyping in the Catalan population using reference-strand mediated conformation analysis. It has been performed on 297 unrelated HLA-B44+ cord blood units from the Barcelona Cord Blood Bank (Barcelona, Spain). We have found a predominance of HLA-B*4403 (66.04%) over HLA-B*4402 (33.02%), whereas the predominant HLA-B44 allele in Northern Europe and the United States is HLA-B*4402. This inverted proportion between HLA-B44 subtypes in Mediterranean populations compared with other Caucasian populations suggests that HLA-B44 subtyping should be performed when an HLA-B44+ unrelated donor marrow is identified.     

Subtypes of B44 in six different populations.

We have investigated the distribution of HLA-B44 subtypes in various populations, see table. Of the five B44 subtypes investigated, two are apparently quite rare because they were only found in the local central european panel (B^*4404 and B^*4406). The european populations are characterized by a relatively high frequency of B^*4402, while in the Albanian, in the Asiatic and African populations, the subtype B^*4403 is prevailing. The distribution of the B44 subtypes in the Czech and the Munich population are virtually the same. We conclude from these data, that B44 subtypes have different distributions in different populations of the world and must therefore be taken into consideration when matching for bone marrow transplantation.     

HLA-B*44 allele frequencies and haplotypic associations in Koreans

We have investigated the frequencies of HLA-B*44 alleles and their haplotypic associations with HLA-A, -C, and -DRB1 loci in 450 healthy unrelated Koreans, including 213 parents from 107 families. All 79 samples (17.6%) typed as B44 by serology were analyzed for B*44 alleles using polymerase chain reaction (PCR) single-strand conformation polymorphism (SSCP) method. A total of three different B*44 alleles were detected: B*44031 (allele frequency 4.7%), B*44032 (3.1%), and B*4402 (1.3%). Three characteristic haplotypes revealing strong linkage disequilibrium were A*3303-Cw*1403-B*44031-DRB1*1302 (3.6%), A*3303-Cw*07-B*44032-DRB1*0701 (2.8%), and A*3201-Cw*05-B*4402-DRB1*0405 (0.4%). In addition, a strong association was observed for B*4402 with A*0301. The B*4403-bearing haplotypes of Koreans appear to be relatively common in Asian populations, whereas the B*4402-bearing haplotypes share some similarity to those of Caucasians. HLA-B44 alleles demonstrate a limited allelic diversity and comprise distinctive extended haplotypes in the Korean population. It is suggested that the frequencies of B44 subtype mismatches among ABDRB1-matched unrelated donor-recipient pairs would be low in this population.     

A new HLA-B44 variant (B44BO [B*4408]) identified by serology

Using HLA serology, we detected a new variant of HLA-B44 — B44BO — in two families. This antigen reacts with B44 antisera and is negative with over one-third of B12 (B44, B45) sera but reacts with 50% of antisera with a B62 component, especially if they contain anti-B57. The variant, B*4408, differs from the common B*4402 by 4 nucleotide substitutions in exon 2: 193, 206 and 209, which produce changes in the α1domain at positions 41, 45 and 46 (TKE in B*4402 and AMA in B44BO); and nucleotide 213, a silent substitution. At each of these positions, B*4408 is identical to B*46, B*57 and many B*15 alleles. As anticipated from its predicted iso-electric point (5.71), one-dimensional isoelectric focusing studies showed that B44BO focuses at the same position as B*4402. The sequence and serological reactivity of this rare antigen allowed the identification of two likely epitopes shared by two different groups of HLA-B antigens.     

Human leukocyte antigen-A, -B, and -Cw polymorphism in a Berber population from North Morocco using sequence-based typing

Class I human leukocyte antigen (HLA) polymorphism was examined in a Berber population from North Morocco, named Metalsa (ME). All data were obtained at high-resolution level, using sequence-based typing. The most frequent alleles were: HLA-A*0201 and A*0101; HLA-B*44 (B*4403 and B*4402); B*0801 and the B*50 allele group (B*5001 and B*5002); HLA-Cw*0602; and Cw*07 group (Cw*070101, Cw*070102, Cw*0702, Cw*0704, and Cw*0706), and Cw*040101. The novel HLA-B*570302 allele was identified. It differs at position 486 and position 855 from B*570301, resulting in synonymous Thr and Val. The analysis also evidenced some alleles common in Africans (A*3402, A*6802, A*7401, B*1503, B*4102, B*4202, B*7801, B*5802, Cw*1701, and Cw*1703) and some uncommon alleles (A*3004, B*2702, B*2703, B*5001,02, B*3503, and Cw*0706). The predominant HLA-A-Cw-B-DRB1-extended haplotypes in ME population were A*0101-Cw*0501-B*4402-DRB1*0402, A*240201-Cw*0701-B*0801-DRB1*030101, A*2301-Cw*040101-B*4403-DRB1*040501, A*0201-Cw*040101-B*4403-DRB1*1302, and A*3002-Cw*0602-B*5002-DRB1*0406. This study demonstrates a strong relatedness of ME to other Moroccan and North African populations, some characteristics of sub-Saharan Africans and evidenced the influence of various immigrations during centuries. Nevertheless, this study highlights some unique genetic traits of the ME population compared to other ethnic groups within Morocco, which could be of great interest for clinical aims, transplantation, and diseases.     

Human leukocyte antigen phenotype imposes complex constraints on the antigen-specific cytotoxic T lymphocyte repertoire

The memory response to the immunodominant Epstein-Barr virus (EBV) epitope FLRGRAYGL, which associates with HLA B8, is exceptionally restricted, being dominated by cytotoxic T lymphocytes (CTL) with a single, public T cell receptor (TCR). CTL clones that express this receptor fortuitously cross-react with the alloantigen HLA B44. However, of the two major subtypes of this HLA, B^*4402 and B^*4403, that differ by a single amino acid, only the former is recognized by these mature CTL clones. Individuals heterozygous for HLA B8 and B^*4402 use alternative TCR for the EBV determinant since the dominant TCR is potentially self-reactive. We now demonstrate that this clonotype is also essentially absent from the repertoire of CTL directed against the viral epitope in seven from seven unrelated individuals heterozygous for HLA B8 and B^*4403 . Thus immune tolerance of these CTL recognizing HLA B^*4402 is associated with expression of either B^*4402 or B^*4403. This suggests that tolerance in the human T cell compartment requires a lower threshold of recognition than for effector function, thus providing a buffer zone minimizing the risk of autoimmunity. These data also illustrate the potential for non-restricting HLA molecules to bias dramatically the T cell repertoire used for specific immune responses. Such influences may be the basis of the “protective” effects of certain HLA alleles in susceptibility to autoimmune disorders.     

Description of a novel HLA-DRB1 allele found in a candidate for bone marrow transplantation

We report the identification of a new DRB1* allele in a Spanish Caucasoid family during a search for a histocompatible bone marrow donor. This novel allele, designated as DRB1*1145, differs from DRB1*1123 in one nucleotide at position 199 in exon 2 (A replacing T), leading to one amino acid change from phenylalanine (Phe) to isoleucine (Ile) at codon 67. The propositus's father had identical class II alleles but showed a minor mismatch at locus B (B*4403 by B*4402) and a C-locus mismatch (Cw*1502 by Cw*0501). We discuss the criteria of selecting a non-related bone marrow donor with a minor mismatch on the DRB1* allele or the related father having a minor mismatch at B locus and a C-locus mismatch.     

A tyrosinase nonapeptide presented by HLA-B44 is recognized on a human melanoma by autologous cytolytic T lymphocytes

The human tyrosinase gene has been reported previously to code for two distinct antigens recognized on HLA-A2 melanoma cells by autologous cytolytic T lymphocytes (CTL). By stimulating lymphocytes of melanoma patient MZ2 with a subclone of the tumor cell line of this patient, we obtained a CTL clone that lysed this subclone but did not lyse other subclones of the same melanoma cell line. The sensitive melanoma subclone was found to express a much higher level of tyrosinase than the others, suggesting that the antigen recognized by the CTL might be encoded by tyrosinase. Transfection of a tyrosinase cDNA demonstrated that the CTL clone indeed recognized a tyrosinase product presented by HLA-B*4403. The relevant antigenic peptide corresponds to residues 192–200 of the tyrosinase protein. Lymphoblastoid cells of the B*4402 subtype were not recognized by the CTL following incubation with the peptide. Nevertheless, by stimulating in vitro lymphocytes of a healthy HLA-B*4402 donor with autologous adherent cells pulsed with the same peptide, we obtained a CTL clone which recognized tumor cells expressing tyrosinase and HLA-B*4402. As HLA-B44 is expressed in 24% of Caucasians, the tyrosinase-B44 antigen may constitute a useful target for specific immunotherapy of melanoma.     

HLA-B*4431: a new HLA-B variant with a complex ancestral history involving HLA-B*44, B*40 and B*07 alleles

We here describe the identification of the new allele HLA-B*4431, which was found in three members of a Turkish family. Sequencing of the new allele following haplotype-specific PCR amplification revealed that exon 2 is identical to HLA-B*4402, whereas exon 3 resembles a HLA-B*40 variant with the exception of position 572, where a single nucleotide transversion (C > G) leads to an amino acid exchange (Trp162Ser). The generation of the 3' part of B*4431 may be best explained by a separate recombination between B*40 and B*07. Although B*4431 consists of B44 in its alpha1 domain and of B60(40) in its alpha2 domain; the new allele only displayed B44 seroreactivity, which demonstrates that epitopes crucial for B60(40) specificity must be located in the alpha1 domain.     

Strong association between HLA-Cw*0706 and HLA-B*44032 in the Bubi population from Equatorial Guinea

Unrelated Bubi, native to the island of Bioko (Equatorial Guinea), were previously typed by low-resolution polymerase chain reaction using sequence-specific primers (PCR-SSP) and serology for HLA-A, -B and -C. HLA-B*44 was found frequently and associated with Cw*07. We have studied the HLA subtypes of 20 B*44pos/Cw*07pos Bubi individuals. HLA-B and -C were typed by sequencing exons 2 and 3. To distinguish the alleles Cw*1701/02/03, Cw*07011/012/06 and Cw*1801/02 additional sequencing of exon 1 or 5 was performed. All 20 B*44pos/Cw*07pos individuals of the Bubi population were typed Cw*0706 positive. Nineteen of them carried the B*44032 allele and one B*4407. In addition, 19 B*44neg/ Cw*07pos Bubi individuals were typed for HLA-C and none of them proved Cw*0706 positive. To determine whether the association between Cw*0706 and B*44032 was limited to the Bubi, 19 individuals from Dutch Caucasian families were typed in which B44 and Cw7 segregated on one haplotype. None of these individuals showed the presence of B*44032 or Cw*0706. The haplotypes found in the Dutch Caucasians were B*4402-Cw*0704, B*44031-Cw*07011 and B*44031-Cw*0702. The present observation indicates a strong association between B*44032 and Cw*0706 in the Bubi population.     

Sequence of four new HLA-Cw alleles: a possible role of interallelic recombination

Abstract: In order to extend our current understanding of HLA-C polymorphism, four new alleles have been cloned and sequenced: Cw*1801 in a donor of mixed origin, Cw*02024 in a Senegalese individual, Cw*1205 and Cw*1604 in European Caucasoid blood donors. HLA-Cw*1801, which most likely results from an interallelic recombination between Cw*0704 and 0401 alleles, was not associated with B*8101, but with either B*4403 or B18. The Cw*02024 allele differs from Cw*02022 by a silent mutation in exon 3. Both Cw*1801 and Cw*02024 appear to be rather frequent in populations of African origin but have not yet been detected in Caucasoids. HLA-Cw*1604 differs from Cw*1601 by two nucleotides at codon 156 leading to a Gln to Trp substitution. This new Cw16 subtype was subsequently identified in three additional unrelated families, all of South-European origin, and presented an unusual association with B*4402 in all cases. HLA-Cw*1205 is a composite allele with the α1 domain of Cw*1602 and the α2 domain of Cw*1203. It appears to be rare, at least in European Caucasoids. Three of these four alleles may have resulted from gene conversion-like or interallelic recombination events.