A comprehensive polymerase chain reaction-oligonucleotide typing system for the HLA class I A locus

Unrelated donor hematopoietic transplantation

Allogeneic hematopoietic stem cell transplantation (HSCT) is the treatment of choice for a range of malignant and non-malignant diseases. Unfortunately, fewer than 30% of patients have a human leukocyte antigen (HLA)-matched sibling. Advances in our understanding of the HLA system and the development of large international donor registries are supporting the increasing use of unrelated donors as an alternative source of stem cells. Unrelated donor transplantation, however, is still associated with higher complication rates than in HLA-identical sibling donor transplants. Improvements in graft-vs.-host disease prevention and treatment, new conditioning regimens and better donor selection will likely expand the indications of unrelated donor HSCT in the next decade.

Analysis of HLA genes and haplotypes in Ainu (from Hokkaido, northern Japan) supports the premise that they descent from Upper Paleolithic populations of East Asia

The Ainu people are assumed to be the descendants of pre-agricultural native populations of northern Japan, while the majority of population of present-day Japan (Hondo-Japanese) is considered to have descended mainly from post-neolithic migrants. Sequence-level polymorphisms of the HLA-class I (HLA-A and HLA-B) genes were investigated in DNA samples of 50 Ainu living in Hidaka district, Hokkaido. HLA-A*2402, A*0201, A*0206, A*2601, A*3101, B*1501, B*5101, B*3901, and B*3501 were observed at frequencies of more than 10% and most of these have previously been found in populations of not only Asians but also North and South American Indians. A*68012, which has not so far been detected in Hondo-Japanese, was found in the Ainu (3%). On the other hand, several alleles common in Hondo-Japanese, including HLA-A*3303, A*1101, B*4403, B*5201, B*5401, B*4601, and B*0702 were infrequent in Ainu (0-1%). Correspondence and neighbor-joining analyses of various populations based on HLA-A, -B and -DRB1 gene frequencies enabled distinction between Asian, Native South American, European, and African populations. The Ainu, as well as Tlingit (Na-Dene), were placed midway between other East Asians, including Hondo Japanese, and Native South Americans (Amerindians) in the correspondence analysis. Furthermore, several HLA-A-B and HLA-B-DR-DQ haplotypes common in the Ainu, are shared with some Native American populations. These observations strongly suggest a unique place for the Ainu as descendants of some Upper Paleolithic populations of East Asia, from whom some Native Americans may have descended.

New high resolution typing strategy for HLA-A locus alleles based on dye terminator sequencing of haplotypic group-specific PCR-amplicons of exon 2 and exon 3

In this study, a new sequencing-based typing strategy for the HLA-A locus is presented which involves group-specific separate amplification of exon 2 and 3 of HLA-A alleles in a first step. Conserved HLA-A locus-specific primers of intron 1 or 3 were combined in 10 primer-mixes with group-specific primers hybridizing to the 5'- or 3'-end of exon 3 or 2 for pre-typing of the HLA-A alleles in 14 allelic groups. Maximally four overlapping short amplicons are produced under identical polymerase chain reaction (PCR) conditions with individual separate amplification of exon 2 and exon 3 of the haplotypic alleles in most heterozygous combinations. Time- and money-saving one-directional Big Dye Terminator cycle sequencing is shown to provide reliable high resolution typing of the HLA-A alleles, even in a few cases of two amplicons in one primer reaction mixture. In comparison, to other sequencing-based typing (SBT) techniques the applied typing strategy minimizes the risk of unequal amplification or of drop-outs of one of the haplotypic alleles and allows unequivocal definition of the cis/ trans linkage of polymorphic positions of the complete exon 2 and exon 3 in most heterozygous cells. This also includes detection of new alleles differing in the polymorphic template generating primer annealing sites as well as in unusual combinations of known exon 2 and 3 sequences. With 10 primer sets working under identical conditions for pre-grouping and separate amplification of the haplotypic alleles our SBT procedure also could be implemented in clinical settings of large-scale stem cell donor histocompatibility testing for fast molecular HLA-A matching.

HLA-A towards a high-resolution DNA typing

Sequencing-based typing (SBT) and sequence-specific oligonucleotide probing (PCR-SSOP) are DNA-based typing approaches to identify HLA-A alleles. In this study PCR-SSOP SBT have been evaluated and considered to reach a high-resolution typing. Based upon serological typing, 32 genomic samples were typed by SBT and PCR-SSOP Three main clusters of resolution could be defined. The advantage of the PCR-SSOP approach is the possibility to type numerous samples in a short time. SBT minimizes the number of ambiguous heterozygous combinations and often allows direct detection and identification of new alleles.

A microsatellite-based MHC genotyping system for house mice (Mus domesticus)

Major histocompatibility complex (MHC) genes are the most polymorphic loci known for vertebrates. Although this has been known for over two decades, the selective forces maintaining this genetic diversity are unclear. Efforts to study selection on these loci in nature have been hampered because no simple MHC typing systems are available. Here, we describe and evaluate a microsatellite-based MHC genotyping system for house mice (Mus domesticus). Thirty-five MHC-linked microsatellite loci were tested for amplification and scoring reliability, and 21 were deemed useful. These 21 loci were efficient at discriminating among nine serologically distinct MHC haplotypes, with 52% of microsatellite pairs providing 100% resolution. Since these microsatellite loci are scattered across the entire MHC region, they will be effective at detecting recombinant haplotypes. The number of alleles is higher for microsatellites inside the MHC than outside it, which presumably reflects genetic hitchhiking with MHC alleles under balancing selection. This microsatellite typing system now allows testing hypotheses about the nature of selection operating on MHC genes in natural populations of M. domesticus and other murid rodent species.

Complete HLA-A DNA typing using the PCR-RFLP method combined with allele group- and sequence-specific amplification

We have established a practical method of complete high-resolution typing for all HLA-A alleles using the polymerase chain reaction (PCR)-restriction fragment-length polymorphism (RFLP) technique combined with allele group- and sequence-specific amplification. The second and third exons of the HLA-A gene, in which most allelic variations are observed, were separately amplified by PCRs with 3 and 4 group-specific primer pairs, respectively. Each PCR-amplified product was digested by allele-specific restriction endonucleases and then subjected to electrophoresis on a 10% polyacrylamide gel. In this way, 62 out of 79 HLA-A alleles could be discriminated by the RFLP patterns derived from the genetic polymorphism in the exon 2 and 3 domains. The remaining 17 alleles could be defined unequivocally by either PCR-RFLP analysis after exon 4 amplification or PCR analysis with sequence-specific primers (SSP). By this method, complete HELA-A genotyping for all homozygous and heterozygous combinations can be accomplished, establishing technically simple, economical and practical routine typing of the HLA-A gene, especially for small samples.

A generic sequencing based typing approach for the identification of HLA-A diversity

Sequencing Based Typing (SBT) is a generic approach for the identification of HLA-A polymorphism. This approach includes the high resolution typing of the HLA-A broad reacting groups, HLA-A subtypes and will identify new alleles directly. The SBT approach described here uses a locus specific amplification of DNA from exon 1 to exon 5. The resulting 2,022 bp PCR product serves as a template for the subsequent sequencing reactions. Amplification is followed by direct sequencing of exons 2, 3 and 4 in both orientations with fluorescently labeled primers to define all polymorphic positions leading to a high resolution typing result. In this study the sequence of exons 2 and 3 of a panel of 49 cell lines was determined. In addition, the exon 4 region of 35 cell lines was also sequenced to evaluate the exon 4 polymorphism. The HLA-A type of most of the cells could be identified by sequencing only exons 2 and 3. However, the sequence of exon 4 was required to discriminate A*0201 from A*0209 and A*0207 from A*0215N. In this panel, an identical new "HLA-A*0103" was identified in two Caucasian samples.

Dissimilar evolution of B-locus versus A-locus and class II loci of the HLA region in South American Indian tribes

Native American populations have a limited HLA polymorphism compared with other ethnic groups. In spite of this, many novel HLA-B locus alleles, not observed in other populations, have been identified in South American tribes, and rapid evolution of this locus has been suggested. We have studied unrelated subjects of the Toba (TOB n = 116), Wichi (WIC n = 46) and Pilaga (PIL n = 14) tribes from northeastern Argentina to investigate the extent of the HLA polymorphism and obtain clues of selective forces that may have acted in these populations. In these tribes the number of HLA alleles is small at all loci except HLA-B, which presents 22 alleles. Seven novel alleles were characterized including 5 of HLA-B (B*35092, B*3518, B*3519, B*4009, B*4803) 1 at HLA-A (A*0219) and 1 at DRB1 (DRB1*0417). All these variants may have arisen by gene conversion events. Some of the novel variants represent the most frequent alleles of these populations (B*4803 in TOB and PIL; B*3519 in WIC) or are the most frequent subtypes in their lineages. HLA-A, B, DRB1,DQA1 and DQB1, but not DPB1, display relatively similar gene frequencies. This results in high heterozygosity in all the tribes for all the loci studied except HLA-DPB1. The larger polymorphism and the generation and maintenance of novel alleles at the HLA-B locus suggests a more specialized response of this locus to evolutionary forces. These effects may be related to the nature of the polymorphism, to the number of founder alleles and to the functional characteristics of the individual alleles.

Factors influencing the outcome of bone marrow transplants using unrelated donors

The use of unrelated donors for bone marrow transplantation (BMT) is associated with an increased morbidity and mortality when compared with HLA-identical donors, primarily due to an increased rate of graft-versus-host disease, but also to increased susceptibility to infections and graft failure. HLA matching for donors and recipients is the single most important factor influencing the outcome of BMT. However, unrelated donor selection generally relies on matching only for HLA-A, -B and -DR antigens without considering potential incompatibility for other HLA loci, such as HLA-C, -DQ and -DP. In addition, other factors that affect the outcome of BMT need to be taken into consideration in selecting the best unrelated donor. In this review, we will focus on the effects of HLA-associated factors in determining the result of a transplant procedure. We will also mention other relevant factors, drawing on our experience of laboratory studies performed at The Anthony Nolan Research Institute and clinical studies at the Hammersmith Hospital in London.

Development of PCR-SSOP for HLA-A typing of bone marrow registry donors

A medium resolution PCR-SSOP typing method, using 26 digoxigenin labelled probes, has been established for the identification of HLA-A alleles. The system is capable of discriminating all of the serologically defined specificities except for eight heterozygous combinations which are however rare in Caucasians. The method has been applied to 1,838 individuals on the local bone marrow registry who either had only one detectable HLA-A antigen, or a HLA-A antigen whose presence had been queried using the serological technique or a broad HLA-A specificity assigned by the serological technique. In all but one case the serologically assigned antigens were detected with the PCR-SSOP method. In addition, PCR-SSOP detected the presence of a second HLA-A allele in over 10% of individuals who had been previously homozygous. Frequency information, based on a population of 5,000 individuals, has been established using a combination of molecular and serological typing data.

A novel method for simultaneous high resolution identification of HLA-A, HLA-B, and HLA-Cw alleles

We describe a novel high resolution DNA based typing approach for HLA class I alleles, which identifies the recombinational motifs present in exons 2 and 3 of the HLA class I genes. Unique identification patterns for 201 known HLA-A, HLA-B, and HLA-Cw alleles were generated by the use of only 40 probes, which were targeted at these common motifs. The unambiguous identification of the alleles was achieved by the development of a new and powerful allelic separation technique that allows isolation of single alleles after amplification. To validate the method, we have used locus-specific primers to amplify exons 2 and 3 of HLA-A, HLA-B, and HLA-Cw loci from 22 heterozygous and 41 homozygous cell lines. After amplification, the allelic fragments from each locus were separated, blotted, and hybridized with the 40 probes. In all cases, the allelic products could be separated and 81 different class I alleles, 33 HLA-A, 30 HLA-B, and 18 HLA-Cw, were identified according to the predicted probe hybridization patterns.

High frequency of HLA-A*0207 subtype in Chinese population

BACKGROUND

HLA-A2 is the most polymorphic and most common HLA phenotype found in various ethnic populations. Seventeen HLA-A2 subtypes have been reported and characterized by molecular techniques. Differences among these subtypes are limited to a few amino acids. Among them, HLA-A*0201 is the predominant subtype among whites. The results of a recent study, however, suggest that the HLA-A*0207 subtype may be present at a high frequency in the Chinese population.

STUDY DESIGN AND METHODS

To determine the exact frequency of the HLA-A*0207 subtype in the Chinese population, genomic DNA samples obtained from 54 HLA-A2-positive Chinese in Taiwan were studied by using sequence-specific primers and polymerase chain reaction.

RESULTS

HLA-A*0207 was present in 56 percent of the studied subjects. The estimated gene frequency for HLA-A*0207 is 17.8 percent in the Chinese population.

CONCLUSION

HLA-A*0207 is the most common HLA-A2 subtype among Chinese. The high frequency of the HLA-A*0207 allele in this population offers a unique opportunity to study the ways in which different HLA-A2 subtypes may influence the clinical outcome of allograft transplantation and the disease susceptibility of recipients.

HLA-A2 allelic microvariants in nasopharyngeal carcinoma

HLA-A2-positive nasopharyngeal carcinoma (NPC; n = 38) and normal control (n = 51) populations were analysed by high-resolution oligotyping to identify A2 allelic microvariants. Within the control group, A*0207 was found to be the most common allele, accounting for 50% of the A2 frequency in normals. In contrast, this allele was found to be present in only 23% of NPC cases, suggesting a protective effect. Of these 9 NPC patients with A*0207, all were associated with B46, unlike in the control group, where it can be found associated with non-B46 antigens. Another allele, A*0201, which was thought to be protective against NPC was in fact present in 39.5% of NPC patients, more than twice the frequency in controls. These data confirm that A*0201 is not a protective allele for NPC, and other factors such as the A*0207, non-B46 haplotype are of greater importance.

Complete generic and extensive fine-specificity typing of the HLA-B locus by the PCR-SSOP method

This study describes sequence specific oligonucleotide probe (SSOP) typing of hypervariable regions in exons 2 and 3 of HLA-B locus genes. A single HLA-B specific PCR-product spanning from bp 84 in exon 2 to bp 241 in exon 3 was used for dot blot hybridization to forty-seven chemiluminescent labeled oligonucleotide probes. Thirty-one of these probes were derived from four hypervariability zones in exon 3 of HLA-B genes and covered most known sequence polymorphisms within these regions. In addition, sixteen probes derived from polymorphic regions in exon 2 were used to discriminate alleles not unequivocally characterized by the exon 3 based probes. This SSOP panel gave rise to eighty-six distinct hybridization patterns that could be used to unequivocally define all WHO-designated serological HLA-B specificities except for HLA-B54 in all homo- and heterozygous combinations. Furthermore, sixty-six out of ninety-seven molecularly defined HLA-B subtypes were characterized by unique hybridization patterns in all homozygous and most (possibly all) heterozygous combinations. The reproducibility of these results was confirmed by analysis of forty-four Workshop reference cell lines and of seventy-eight randomly chosen samples (one-hundred forty-seven alleles) from unrelated individuals serologically typed in the laboratory. For sixty-five samples (one-hundred-thirty-three alleles), molecular typing confirmed the results obtained by serology and allowed molecular subtype assignment for ninety-one alleles tested. A serologically blank allele could be defined by molecular analysis in three cases. The method presented here for molecular typing of the HLA-B locus can be used as an alternative to biochemical methods such as one-dimensional isoelectric focusing for assignment of serologically cross-reacting HLA-B molecules as well as for subtype characterization of a large variety of HLA-B alleles.

Genetic polymorphism within HLA-A*02: significant allelic variation revealed in different populations

HLA-A2 is present at high frequency in most populations, as identified by serological and biochemical means. The value of these methods is limited by their failure to discriminate between the products of the 14 known allelic HLA-A*02 variants. The great majority of genetic polymorphism which defines the allelic variants is found in exons 2 and 3 of the A*02 genes. These exons encode the alpha-1 and alpha-2 domains of the HLA Class I molecules, and variation within the genes may influence the peptide binding specificity of the gene products of each allele. Failure to accurately assign the allelic types has implications in transplantation, in interpretation of cellular assays and in the understanding of HLA disease associations. We have developed a method for determining the 14 known alleles of HLA-A*02 by use of ARMS-PCR to determine the degree of variation of HLA-A*02 alleles in 3 different population groups. Considerable variation was found in the relative frequencies of particular A*02 alleles between Caucasian, oriental and black individuals. Our results indicate the importance of ethnic origin in terms of the expected HLA-A*02 allelic profile, and emphasize the functional significance of allele specific subtyping of HLA-A*02.

Population diversity of B-locus alleles observed by high-resolution DNA typing

HLA B-locus typing by group-specific PCR and hybridization with SSOP was performed in 81 10th IHWS B cell lines and 334 selected subjects of our local panel, from four ethnic groups. Most of the B-locus serological specificities were well defined. However, some antigens like B41, B58, B56, the splits of B14, and some subtypes of B5, were not accurately assigned by serology. In the panel studied, we found 17 hybridization patterns that corresponded to probable new alleles. New patterns occurred in the four ethnic groups examined. Multiple subtypes of B35, B5, B15, B41, B44, B57, B58, B70, B14, B40, B22 were found in subjects of the same ethnic group. In view of the poor serological definition of some alleles, and the occurrence of multiple subtypes in the same ethnic population, it appears that high resolution B-locus typing may be an important addition for detection of potentially relevant HLA incompatibilities in transplantation. It should also be valuable for population studies and for the investigation of HLA associations with diseases.