HLA allele and haplotype diversity in the Croatian population: State of the art.

The aim of this report was to compare our data with data presented in the European Federation for Immunogenetics (EFI) catalogue (version 1.0) and to evaluate whether or not current (CUR) HLA alleles found in the Croatian population fall into the same categories of common (COM) or well-documented (WD) HLA alleles as those listed in the EFI catalogue. Among 237 HLA-A, -B, -DRB1 alleles observed in the Croatian population so far, 181 alleles were observed ≥3 times. According to our criteria, 36 alleles at HLA-A locus, 71 alleles at HLA-B locus and 51 alleles at HLA-DRB1 locus were characterised as CUR in Croatia (COM or WD in EFI catalogue), while 23 local HLA alleles are not listed at all among COM or WD alleles in EFI catalogue.

HLA haplotypes in primary sclerosing cholangitis patients of admixed and non-European ancestry.

Primary sclerosing cholangitis (PSC) is strongly associated with several human leukocyte antigen (HLA) haplotypes. Due to extensive linkage disequilibrium and multiple polymorphic candidate genes in the HLA complex, identifying the alleles responsible for these associations has proven difficult. We aimed to evaluate whether studying populations of admixed or non-European descent could help in defining the causative HLA alleles. When assessing haplotypes carrying HLA-DRB1*13:01 (hypothesized to specifically increase the susceptibility to chronic cholangitis), we observed that every haplotype in the Scandinavian PSC population carried HLA-DQB1*06:03. In contrast, only 65% of HLA-DRB1*13:01 haplotypes in an admixed/non-European PSC population carried this allele, suggesting that further assessments of the PSC-associated haplotype HLA-DRB1*13:01-DQA1*01:03-DQB1*06:03 in admixed or multi-ethnic populations could aid in identifying the causative allele.

High-resolution HLA-A, -B and -DRB1 allele and haplotype frequencies in 7823 Han marrow donors of Liaoning province, China.

BACKGROUND: The human leukocyte antigen (HLA) system is the most polymorphic gene cluster in humans. High-resolution donor-recipient matching for HLA genes improves patient survival after unrelated hematopoietic stem cell transplantation. MATERIALS AND METHODS: In this study, we analyzed the high-resolution allele and haplotype frequencies at the HLA-A, -B and -DRB1 loci in the Liaoning Han population and analyzed its relationships with other populations. RESULTS: The 3 most frequent alleles at the HLA-A, -B and -DRB1 loci were A*24:02, A*02:01:01G, A*11:01; B*13:02, B*46:01, B*40:01:01G; DRB1*09:01, DRB1*15:01 and DRB1*07:01, respectively. The most frequent 2-locus haplotypes were A*30:01-B*13:02 and B*13:02-DRB1*07:01. A*30:01-B*13:02-DRB1*07:01 was determined to be the predominant 3-locus haplotype. Hot maps and multiple correspondence analyses based on the frequencies of HLA specificities, which allow statistical visualization of dependent and independent relationships among variables, indicate that the Liaoning Han population is closely related to Northern populations of China and shows relative close relationships with Asian populations. CONCLUSION: These data will provide an outline of the HLA characteristics of healthy individuals in our region and help bone marrow transplantation patients find suitable HLA-matched donors.

A reliable, high-resolution and high-throughput genotyping method for HLA-DRB1.

Human leukocyte antigen (HLA) DNA typing is an essential part to identify a donor who may be a good match for the patients who need haematopoietic stem cells from bone marrow. Thus, fetching quickly high-resolution genotype is very important at present. However, current HLA DNA typing methods especially for HLA-DRB1 generally yielded ambiguous typing results because of high degree of heterozygosity on exome region and primer pairs design limitations, which generally amplified only exon2 of HLA-DRB1 and the position of its primer pairs is on exome region. To solve this problem, we developed a reliable, high-resolution and high-throughput (RHH) sequence based typing approach for HLA-DRB1 through massively parallel paired-end sequencing. Several primer pairs were designed to amplify three exon regions, which are part of exon1, the whole region of exon2 and exon3 of HLA-DRB1, to genotyping for HLA-DRB1 by synthesis. 94 samples were included to analyze and the highly successful genotyping ratio (98.94%) and no ambiguous genotyping result demonstrated the accurate performance of our method for HLA-DRB1 genotyping.

HLA-A, -B, -C, and -DRB1 genotyping of 1000 Northern Irish individuals from Belfast, Northern Ireland in the United Kingdom.

One thousand individuals from Belfast, Northern Ireland were genotyped at the HLA-A, -B, -C and -DRB1 loci using sequence-specific oligonucleotide probe methods. HLA-A locus genotypes display a minor Hardy-Weinberg (HW) deviation (p=0.0375); HLA-B, -C and -DRB1 genotypes are consistent with expected HW proportions. These genotype data are available in the Allele Frequencies Net Database under identifier AFND 1243.

Identification of a novel HLA-DRB1*04 null allele, HLA-DRB1*04:178N.

A single nucleotide insertion in codon 77 of HLA-DRB*04:05:01 results in a null allele, HLA-DRB1*04:178N.

HLA-DRB1*11:106, a variant of HLA-DRB1*11, discovered in a Chinese bone marrow donor.

HLA-DRB1*11:106 has 1 nucleotide change from HLA-DRB1*11:01:01 at nucleotide 155 (G → A).

Genetic diversity of HLA-DRB1 alleles in the Tujia population of Wufeng, Hubei Province, China.

We established a genetic database by investigating human leukocyte antigen (HLA)-DRB1 allelic frequencies in a disease-association study in the Tujia population in Wufang, Hubei, China. The allele frequencies of the HLA-DRB1 locus in 262 healthy, unrelated Tujia individuals living in the Wufeng region of the Hubei Province were analyzed using the Luminex HLA sequence-specific oligonucleotide method with a WAKFlow HLA typing kit. A total of 13 alleles were detected at the HLA-DRB1 locus. HLA-DRB1*09 was the most common allele (22.52%), followed by DRB1*08 and DRB1*15 (11.07%), and DRB1*12 and DRB1*04 (10.69%). These data were compared with the results obtained for 10 other ethnic groups living in other regions as well as to Han groups using neighbor-joining dendrograms and principal component analysis. The results showed that the Tujia population has a close genetic relationship with the Middle Han population at the HLA-DRB1 locus. This information will be useful for HLA-DRB1-linked disease-association studies.

A human-specific allelic group of the MHC DRB1 gene in primates.

BACKGROUND: Diversity among human leukocyte antigen (HLA) molecules has been maintained by host-pathogen coevolution over a long period of time. Reflecting this diversity, the HLA loci are the most polymorphic in the human genome. One characteristic of HLA diversity is long-term persistence of allelic lineages, which causes trans-species polymorphisms to be shared among closely related species. Modern humans have disseminated across the world after their exodus from Africa, while chimpanzees have remained in Africa since the speciation event between humans and chimpanzees. It is thought that modern humans have recently acquired resistance to novel pathogens outside Africa. In the present study, we investigated HLA alleles that could contribute to this local adaptation in humans and also studied the contribution of natural selection to human evolution by using molecular data. RESULTS: Phylogenetic analysis of HLA-DRB1 genes identified two major groups, HLA Groups A and B. Group A formed a monophyletic clade distinct from DRB1 alleles in other Catarrhini, suggesting that Group A is a human-specific allelic group. Our estimates of divergence time suggested that seven HLA-DRB1 Group A allelic lineages in humans have been maintained since before the speciation event between humans and chimpanzees, while chimpanzees possess only one DRB1 allelic lineage (Patr-DRB1*03), which is a sister group to Group A. Experimental data showed that some Group A alleles bound to peptides derived from human-specific pathogens. Of the Group A alleles, three exist at high frequencies in several local populations outside Africa. CONCLUSIONS: HLA Group A alleles are likely to have been retained in human lineages for a long period of time and have not expanded since the divergence of humans and chimpanzees. On the other hand, most orthologs of HLA Group A alleles may have been lost in the chimpanzee due to differences in selective pressures. The presence of alleles with high frequency outside of Africa suggests these HLA molecules result from the local adaptations of humans. Our study helps elucidate the mechanism by which the human adaptive immune system has coevolved with pathogens over a long period of time.

Nonsynonymous substitution rate heterogeneity in the peptide-binding region among different HLA-DRB1 lineages in humans.

An extraordinary diversity of amino acid sequences in the peptide-binding region (PBR) of human leukocyte antigen [HLA; human major histocompatibility complex (MHC)] molecules has been maintained by balancing selection. The process of accumulation of amino acid diversity in the PBR for six HLA genes (HLA-A, B, C, DRB1, DQB1, and DPB1) shows that the number of amino acid substitutions in the PBR among alleles does not linearly correlate with the divergence time of alleles at the six HLA loci. At these loci, some pairs of alleles show significantly less nonsynonymous substitutions at the PBR than expected from the divergence time. The same phenomenon was observed not only in the HLA but also in the rat MHC. To identify the cause for this, DRB1 sequences, a representative case of a typical nonlinear pattern of substitutions, were examined. When the amino acid substitutions in the PBR were placed with maximum parsimony on a maximum likelihood tree based on the non-PBR substitutions, heterogeneous rates of nonsynonymous substitutions in the PBR were observed on several branches. A computer simulation supported the hypothesis that allelic pairs with low PBR substitution rates were responsible for the stagnation of accumulation of PBR nonsynonymous substitutions. From these observations, we conclude that the nonsynonymous substitution rate at the PBR sites is not constant among the allelic lineages. The deceleration of the rate may be caused by the coexistence of certain pathogens for a substantially long time during HLA evolution.

Genetic variation in the major histocompatibility complex of the European brown hare (Lepus europaeus) across distinct phylogeographic areas.

The major histocompatibility complex is one of the best studied systems in vertebrates providing evidence for the long-term action of selection. Here, we examined the intra- and inter-population genetic diversity of the MHC class II DRB locus in European brown hare (Lepus europaeus) and correlated the results with genetic variability already estimated from the MHC DQA locus and from maternally (mitochondrial DNA (mtDNA)) and biparentally (allozymes, microsatellites) inherited loci. L. europaeus showed remarkable genetic polymorphism in both DQA and DRB1 loci. The Anatolian populations exhibited the highest genetic polymorphism for both loci. Balancing selection has established increased variability in the European populations despite the founder effects after the last glaciation. Different evolutionary rates were traced for DRB1 and DQA loci, as evidenced by the higher number of common DRB1 than DQA alleles and the greater differences between DRB1 alleles with common origin in comparison with DQA alleles. The high number of rare alleles with low frequencies detected implies that frequency-dependent selection drives MHC evolution in the brown hare through the advantage of rare alleles. Both loci were under the influence of positive selection within the peptide-binding region. The functional polymorphism, recorded as amino acid substitutions within the binding pockets, fell also within distinct geographic patterns, yet it was much narrower than the genetic polymorphism. We hypothesize that certain structural and functional characteristics of the binding pockets set limitations to the actual shape of genetic polymorphism in MHC.

Evaluation of HLA-DRB1 imputation using a Finnish dataset.

Owing to the vast amount of alleles, high-resolution human leukocyte antigen (HLA) typing is expensive and time-consuming. Scientists have attempted to develop computational approaches to define HLA alleles with high confidence. We tested the reliability of HLA*IMP and SNP2HLA for imputing HLA-DRB1 alleles in a Finnish material (n=161). The per-individual success rates varied between 16.68% and 25.4% using both softwares. One of the most prominent example was HLA-DRB1*01:01 allele showing approximately a 30% success rate while being the most common wrongly imputed allele. In Finland, isolation and migration history have shaped the gene pool narrower showing HLA haplotype frequencies typical to the Finnish population when compared to Europeans. The imputation success for HLA-DRB1 alleles was very low pointing to the importance of population-specific reference material.

HLA-class II alleles in patients with drug-resistant pulmonary tuberculosis in Kazakhstan.

The human leukocyte antigen (HLA) system has a major role in the regulation of the immune response as it is involved in the defense against pathogens. Some studies have reported that HLA class II genes play a strong role in severe cases of pulmonary tuberculosis (PTB) in several populations. Thus the aim of the study was to compare the HLA-class II alleles of patients with drug resistant tuberculosis with those of healthy controls from the same ethnic group in Kazakhstan. The aim of the present study was to evaluate the correlation of HLA-class II alleles by patients with drug resistant tuberculosis and the healthy controls of the same ethnic group in Kazakhstan. The HLA-class II alleles of 76 patients with tuberculosis (TB) and 157 healthy volunteers were investigated using sequence-based typing (SBT)-method. HLA-DQA1*03:02 HLA-DRB1*08:01 and DRB1*08:03 occurred more frequently (P = 0.05) in patients with drug resistant tuberculosis than in controls. We observed a possible association between certain HLA alleles and TB that are specific for the Kazakh population. Further studies are needed to confirm our findings using a larger number of patients with drug resistant tuberculosis.

HLA-associated hemorrhagic fever with renal syndrome disease progression in slovenian patients.

Major histocompatibility complex (MHC) class I and class II genes regulate the balance between appropriate aggressive responses and invading pathogens while minimizing the destruction of host tissue. Several studies have shown that in hemorrhagic fever with renal syndrome (HFRS) patients, the disease outcome is determined by a complex interaction between the virus and immunopathologic and human genetic factors. In Slovenia, the severity of the disease caused by Puumala virus (PUUV) is significantly lower than that of HFRS due to Dobrava virus (DOBV). We have determined 23 different HLA-B and 12 different HLA-DRB1 types in Slovenian HFRS patients. Comparison of HLA frequencies between healthy individuals and HFRS patients showed no strong association with the susceptibility for hantaviral infection. Significant associations were recognized when the patient group was separated according to the virus responsible for the infection. DOBV-infected patients have a significantly higher frequency of HLA-B*35 than PUUV-infected patients. For HLA class II genes, the biggest difference between the PUUV- and DOBV-infected groups of patients was in HLA-DRB1*13, where this phenotype was more frequent in PUUV-infected patients, especially in the severe form of the disease. HLA-B*07 could play a protective role in PUUV-caused HFRS in the Slovenian population. Our study shows diverse associations of HLA molecules with DOBV- and PUUV-induced HFRS, and therefore, we presume that different hantaviruses are presented differently through the same HLA molecules and that this might lead to either a more severe or a milder form of the disease. In line with this idea, we have noticed that HLA-B*35 might be a genetic risk factor for DOBV infection in the Slovenian population.