Anchored PCR cloning of the novel HLA-Cw*0704 allele detected by PCR-SSP

Abstract: The novel HLA-Cw*0704 allele, previously detected as the PCR-SSP variant Cw7/8v, has been cloned and sequenced from the homozygous typing cell KR03/4 after amplification by anchored PCR. The nucleotide sequence of Cw*0704 is closely related to those of other Cw*07 alleles, but carries specific changes in exon 3 consistent with its serological behavior - a short Cw7 cross-reactive with antibodies directed against HLA-Cw8. Some of the substitutions of Cw*0704 have not been previously described for HLA-C but are found in HLA-B alleles and in published C sequences of non-human primates. The new allele carries a novel polymorphism in its 5' untranslated region (5'ut) that could be shared by all Cw*07 alleles. By PCR-SSP, Cw*0704 is a relatively common allele in English Caucasoids at a frequency of 4.6%. It is most often observed on HLA-B44 haplotypes previously described as HLA-C "blank", although linkage disequilibria with other HLA-B specificities have been found.     

Identification of a novel HLA-B*07 allele--HLA-B*0726

We describe here, the identification of a novel HLA-B*07 allele named HLA-B*0726. This allele was found in a Caucasian individual serologically typed as HLA-B7, B35. Novel DNA probe patterns for the HLA-B*07 allele were found using HLA-B specific reverse sequence-specific oligonucleotide probe (SSOP) and sequence-specific primer (SSP) typing. DNA sequencing demonstrated the presence of a new HLA-B*07 sequence variant encoding a single nucleotide substitution from a G to a T at nucleotide 539 in exon 3. This results in an amino acid substitution from arginine to leucine at residue 156 in exon 3.     

Novel HLA-B alleles, B*8201, B*3515 and B*5106, add to the complexity of serologic identification of HLA types

Three class I alleles, B*8201, B*3515 and B*5106, have been described using DNA and cDNA sequencing. The B*8201 allele is most structurally related to B*5602, differing from it by 14 nucleotide substitutions resulting in 5 amino acid differences. The other two alleles, B*3515 and B*5106, differ from their most closely related HLA-B alleles by 2–3 nucleotide substitutions resulting in 1–2 amino acid substitutions, respectively. The majority of nucleotide substitutions marking these new alleles are observed in other HLA-B alleles suggesting that gene conversion and/or reciprocal recombination have created this diversity. All of the amino acid substitutions are predicted to alter the antigen binding site of the HLA-B molecule. The newly defined HLA-B allelic products were originally defined by their unusual serologic reactivity patterns. The B*8201 allelic product is serologically typed as a B "blank" or as a variant of B22 or B45. These patterns and the serologic reactivity of the other newly described allelic products are consistent with the protein sequence homology among specific HLA-B molecules. While serology remains a powerful tool for detecting HLA diversity, alleles generated by events resulting in the sharing of HLA sequence polymorphisms among alleles at a locus will continue to create complexity in the interpretation of typing results.     

The nature of recombination in HLA-B*4207

The identification of the novel human leukocyte antigen (HLA)-B*4207 allele, which was found in a blood donor of Caucasian origin, is described. The sequence of the new allele differs from HLA-B*4201 in three nucleotide substitutions in exon 2, resulting in three consecutive amino acid (AA) exchanges at position 69, 70, and 71. AA positions 69 and 70 affect the peptide-binding site of the HLA molecule in the formation of pockets A, B, and C. Therefore, it is likely that the peptide-binding motif of HLA-B*4207 differs from the HLA-B*4201 motif. HLA-B*4207 exhibits a high level of structural homology to HLA-B*08 alleles as well as to HLA-B*4201. Rating of the AA variations of these alleles according to the AA distance matrix score gives the lowest overall matching score between the HLA-B*4207 and the HLA-B*0801 alleles, indicating a high functional similarity. To further address this, homology modeling was performed using B8 as the closest structural template. The portion of the molecule that is accessible to the T-cell receptor and antibodies is identical between B*4207 and B*0801. Under consideration of allele frequencies, close inspection of these sequences shows that the new allele is most likely a result of a recombination involving B*0702 and B*0801. Unfortunately, patient consent could not be obtained for retrospective serological typing to definitively determine whether B*4207 reacts in the B8 serological group.     

The variation of the novel allele HLA-B*0739 suggests low alloreactivity when mismatched with HLA-B*0702

We here report the identification of a new HLA-B*07 allele in a male Caucasian. The new allele was initially typed as B*0713 by sequence-specific primed PCR. Because of the infrequence of that allele, a sequencing-based typing was performed to confirm that result. This yielded the detection of the novel allele. It is closest to B*070201, while it differs from B*0713 in 12 positions in exon 2. Compared to B*070201, the new variant is characterized by a non-synonymous nucleotide exchange (C-->T) at nucleotide position 118 of exon 2. Previously, this was considered a constant position, suggesting that it is likely to be caused by a single-point mutation. It results in the amino acid exchange Ala-->Val at position 40 of the mature polypeptide. As this position is located in an outer loop of the HLA molecule, it is highly unlikely to affect peptide binding or T-cell receptor interaction. Thus, the newly found allele should have a low alloreactive potential in case of a mismatch to the most common HLA-B allele B*0702.     

A novel HLA-B*51 allele (B*5116) identified by nucleotide sequencing

We report here an additional HLA-B*51 variant designated HLA-B*5116. Detected by an abnormal serological reactivity pattern, this variant was identified as a B*51 allele by polymerase chain reaction using sequence-specific primers (PCR-SSP) and characterized by nucleotide sequencing. The new variant sequence match closely with the classical HLA-B*5101 excepted two adjacent nucleotide substitutions at positions 216 and 217 of the third exon and the subsequent Leucine to Glutamic acid change at codon 163 of the alpha2 domain (CTG-->GAG). This new variant was not detected in three different ethnic groups (French, Algerian and Lebanese) suggesting a very rare frequency.     

HLA-B16 antigens: sequence of the ST-16 antigen, further definition of two B38 subtypes and evidence for convergent evolution of B*3902

Abstract: The ST-16 antigenic specificity of the HLA-B locus is defined as a B39 variant of Mexican-Americans. Nucleotide sequencing of cDNA shows the ST-16 allele (B*3905) differs from B*39011 by a single substitution that substitutes tyrosine for aspartic acid at position 74 of the mature class I heavy chain. The complete coding region sequence for the common caucasoid allele encoding the B38 antigen has been determined. This B*3801 allele differs from B*3802 at two nucleotide substitutions within the Bw4 sequence motif. B*3801 and B*3802 may have been derived independently from B*39011 by conversion events with B alleles donating distinctive Bw4 motifs. A novel allele B*39022 derived from a Colombian Indian differs from the B*39021 allele of Japanese origin at two widely separated silent substitutions. Comparison of sequences for the known B16 alleles suggest that B*39021 and B*39022 were independently derived by recombination from B*39013 and B*39011 respectively.     

Additional diversity within the B70 serotype: identification of B*1580 in a Caucasoid blood donor

Anew B70 variant, B*1580, has been identified in a Swiss Caucasoid blood donor. Sequencing of exons 2 and 3 revealed that the HLA-B*1580 differs from its closest matching allele B*1518 by two substitutions in exon 3, leading to two amino acid changes, threonine to isoleucine and leucine to isoleucine at codons 94 and 95, respectively. The complete human leukocyte antigen type of the donor is: A*2402, A*2601; B*5101, B*1580; Cw*0704, Cw*1402/05; DRB1*0801, DQB1*0402. The B*1580 is a new member of the B70 cluster, characterized by the SEE motif at positions 24, 45, and 46 in the alpha1-domain. Substitutions at codons 94 and 95, also found in some B62 and B75 alleles, do not appear to interfere with the B70 serological reactivity. Based on sequence similarity and linkage with Cw*0704, the rare alleles B*1509, B*1529, B*1564, and B*1580 are possibly derived from the B*1518 haplotype.     

Novel HLA-B35 subtypes: Putative gene conversion events with donor sequences from alleles common in native americans (HLA-B*4002 or B*4801)

In a study of 523 normal subjects of differing ethnic groups, including 189 South American Indians, we have described novel hybridization patterns corresponding to 22 potentially new HLA-B locus alleles. Three of these alleles were subtypes of B35. The locally assigned alleles, B-3504v, B-3505v, and B-3508v have been sequenced and were officially designated as B*3512, B*3517, and B*3518, respectively. In addition, we determined the nucleotide sequence of another new variant, locally designated B-3509.2. B*3517, was found in 3 individuals (2 Hispanic, 1 Caucasian), it differs from B*3505 by 3 nucleotide substitutions that lead to changes in residues 94, 95, and 103. B*3517 differs from B*3501 in residues 97 and 103. B*3518 was found in 7 South American Indian individuals (6 of 124 Toba Indians, 1 of 18 Pilaga Indians). It differs from B*3509 by 2 silent nucleotide substitutions and by one nonsynonymous substitution in codon 156 (Arg → Leu). B*3512 differs from B*3504 by 3 nucleotides, one of them leading to a substitution in residue 103 (Val → Leu). B*3509 was observed in 3 individuals from the Wichi tribe. The nucleotide sequence of one of these was determined and was found to differ from B*35091 by two synonymous nucleotide substitutions.

The distinguishing amino acid substitutions in residues 95, 97, and 156 contribute to the structure of specificity pockets F, C, and E, and D and E respectively; therefore, it is possible that some of the new alleles may have different peptide binding profiles. It has been shown that differences at residue 156 may elicit different allorecognition and mediate graft-versus-host disease and rejection in bone marrow transplantation. The mechanisms for the generation of these novel alleles may involve gene conversion events in which short exon-3 segments from the common Native American alleles B*4002 or B*4801 were inserted in HLA-B35 backbone structures. The novel allele B*3518 is closely related to B*35092 and to B*3508. Two alternative hypotheses for its generation can be suggested, the most plausible one would involve B*35092, the putative progenitor of B*3518, since both alleles are prevalent in the same Indian tribes.     

Characterization of two new HLA-B alleles by sequence-based typing: HLA-B*0817 and HLA-B*1311

In this brief communication we report the characterization of two new HLA-B variants officially named HLA-B*0817 and HLA-B*1311. The HLA-B*0817 allele was identified in a Caucasoid male candidate for renal transplantation in the North Italy Transplant program. The nucleotidic sequence of exons 2, 3 and 4 of this novel allele is identical to that of HLA-B*0804 except for three point mutations in exon 2: from A to G at position 259, from C to G at position 261 and from G to A at position 302. These mutations are responsible for two aminoacidic substitutions [Asn (r) Glu, codon 63, and Ser (r) Asn, codon 77]. HLA-B*1311 was found in a volunteer donor belonging to National Marrow Donor Program(R). This new variant is identical to that of HLA-B*1301 except for three nucleotide substitutions at positions 353, 355 and 369 leading to two aminoacidic variations from Ile to Thr at codon 94 and from Ile to Leu at codon 95 and a silent mutation at codon 99.     

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.     

Identification of HLA-B*5136 in the Chinese population

We report here a new HLA-B*5136 allele identified by sequence-based typing in the Chinese population. The new B*5136 allele showed four nucleotides difference with B*5108 at exon 3, which are two point mutations at nucleotide positions 527 T-->A and 583 C-->T, and two substitutions at adjacent nucleotide positions 559 C-->A and 560 T-->C. This results in three amino acid changes from Val to Glu at codon 177, Leu to Thr at codon 187, and His to Tyr at codon 195.     

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.     

Nucleotide sequences of novel HLA-B35 subtypes

In recent reports we described novel hybridization patterns (HP) corresponding to 22 potentially new HLA-B locus alleles in a panel of 547 subjects studied by PCR-SSOP. Three of them correspond to new subtypes of B35. To confirm the hybridization results we have isolated DNA from PBL and performed PCR, DNA cloning and nucleotide sequencing. One of the alleles, locally called B-3505v was found in three individuals: two Hispanic, one Caucasoid. It differs from B^*3505 by 3 nucleotide substitutions that lead to changes in residues 94 (Ile > Thr), 95 (Ile > Leu) and 103 (Val > Leu). B-3505v differs from B^*3501 in residues 97 and 103. Another allele called B-3508v, was found in 7 individuals, (6 of 122 Toba Indians, 1 of 18 Pilaga Indians). It differs from B^*3509 in two silent nucleotide substitutions (codons 135 and 138) and in one substitution in residue 156 (Arg > Leu). The new allele has a hybrid sequence between B^* 3508 and B^*4801. A third subtype, locally called B-3504v, observed in two Hispanic individuals, is identical to B^*3512. B^*3512 differs from B^*3504 by 3 nucleotides and one amino acid. Substitutions in residue 95 contribute to the structure of specificity pocket F, 97 to C and E, and 156 to pockets D and E. Therefore it is possible that some of the new alleles may have different peptide binding profiles. Since differences in residue 156 have been shown to affect allorecognition and mediate GvHD, identification of such variants may have important implications in transplantation and perhaps in studies of immune responses to peptides and pathogens.     

Identification of three novel HLA class I alleles: HLA-B*3928, HLA-B*400104 and HLA-B*4437

Three new human leukocyte antigen (HLA) class I alleles have been identified in the Tissue Typing Laboratory in Sydney, Australia. Sequence analysis of exon 2 and exon 3 of the HLA-B gene revealed the novel polymorphism. A silent substitution of C to T at nucleotide position 369 has been identified for the HLA-B*400104 allele when compared to the closest matched allele, HLA-B*400101. The HLA-B*3928 allele was identified with a nucleotide substitution of G to C at position 362 when compared to the closest matched allele, HLA-B*390101, resulting in an amino acid substitution of Arginine to Threonine. A nucleotide substitution of C to G at position 572 resulting in the amino acid change Serine to Tryptophan was identified in the new allele HLA-B*4437, when compared to the closest matched allele HLA-B*440301. Both amino acid substitutions implicate a different specificity and affinity of antigen binding for the alleles HLA-B*3928 and HLA-B*4437.     

A novel HLA allele, HLA-B*5113, identified in the Kolla Amerindians of North-West Argentina

A novel HLA-B51 allele, B*5113, was identified in a Kolla Amerindian individual from North-West Argentina. HLA-B*5113 differs from B*51011 by two nucleotide substitutions, one synonymous, the other nonsynonymous. The resulting amino acid difference at residue 116 in the HLA-B molecule's peptide binding site is likely to affect the nature of the peptides which bind to this molecule. The finding of this novel allele supports previous findings of increased diversity at HLA-B in Amerindian groups.     

Identification of a novel HLA-B allele--HLA-B*4902

We report herein the identification of HLA-B*4902. This new allele was identified in a Caucasian individual serologically typed as B49. The allele codifying for this antigen was not clearly detectable with polymerase chain reaction using sequence-specific primers (PCR-SSP) because of an atypical amplification pattern. DNA sequencing demonstrated the presence of a new variant due to two nucleotide substitutions (from G to C and from T to C) in exon 2 at nucleotides 309 and 311 respectively. These substitutions would result in a silent mutation and in one amino acid substitution from Ile to Thr, respectively.     

Identification of a new HLA-B variant, HLA-B*5615

A new HLA-B allele, B*5615, has been identified in a Caucasian individual by sequence-based typing. This allele shows a sequence identical to that of HLA-B*5601 except for two nucleotide substitutions that cause a change from TTA to TAC at codon 116 and an amino acidic change from Leucine to Tyrosine in the mature protein.     

Identification of a new HLA-B*08 variant, HLA-B*0804

The HLA-B locus is the most polymorphic locus known with currently over 100 different alleles described. Many of these alleles encode variants of the serologically-defined tissue transplantation antigens. This high level of diversity makes accurate tissue typing difficult. Here we present the sequence of a new HLA-B *08 variant, HLA-B *0804. found in Caucasian siblings JH and PF serologically typed as HLA-B51/B59 and HLA-B59/B60, respectively. Additionally, DNA-based typing by the polymerase chain reaction using sequence-specific primers (PCR-SSP) identified HLA-B *51 in JH and HLA-B *4001 in PF. However, PCR-SSP failed to identify a second allele in either of these individuals. The unusual finding of a B59 antigen in a Caucasian and the discrepant molecular typing results suggested that these individuals might express novel HLA molecules. Using denaturing gradient gel electrophoresis (DGGE) followed by direct sequencing, we characterized a novel HLA-B *08 variant, HLA-B *0804. The presence of this allele was confirmed by cloning and sequencing. HLA-B *0804 differed from HLA-B *0801 by only one nucleotide substitution resulting in an amino acid replacement of phenylalanine by serine at position 67. Incidentally, this single nucleotide difference was sufficient to prevent amplification by PCR-SSP. This striking difference between both the serologically typed antigen and the PCR-SSP-identified allele compared to the sequenced allele supports the use of sequence-based typing for the analysis of HLA class I locus alleles.     

Identification of a novel HLA-B allele, HLA-B*3713, in a Chinese individual

A novel human leukocyte antigen (HLA) class I allele, HLA-B*3713, has been identified in a Chinese individual. The HLA-B*3713 allele differs from the closest matching allele B*370101 by one nucleotide substitutions in exon 3 at nt 527(T-->A), resulting in an amino acid change from Val (GTG) to Glu (GAG) at codon 152.