Novel HLA-A and HLA-B alleles in South American Indians

HLA diversity in the Argentinian Umbilical Cord Blood Bank: frequencies according to donor's reported ancestry and geographical distribution

Umbilical cord blood (UCB) is a suitable source for hematopoietic stem cell transplantation. The study of HLA genes by next generation sequencing is commonly used in transplants. Donor/patient HLA matching is often higher within groups of common ancestry, however "Hispanic" is a broad category that fails to represent Argentina's complex genetic admixture. Our aim is to describe HLA diversity of banked UCB units collected across the country taking into consideration donor's reported ancestral origins as well as geographic distribution. Our results showed an evenly distribution of units mainly for 2 groups: of European and of Native American descent, each associated to a defined geographic location pattern (Central vs. North regions). We observed differences in allele frequency distributions for some alleles previously described in Amerindian populations: for Class I (A*68:17, A*02:11:01G, A*02:22:01G, B*39:05:01, B*35:21, B*40:04, B*15:04:01G, B*35:04:01, B*51:13:01) and Class II (DRB1*04:11:01, DRB1*04:07:01G/03, DRB1*08:02:01, DRB1*08:07, DRB1*09:01:02G, DRB1*14:02:01, DRB1*16:02:01G). Our database expands the current knowledge of HLA diversity in Argentinian population. Although further studies are necessary to fully comprehend HLA heterogeneity, this report should prove useful to increase the possibility of finding compatible donors for successful allogeneic transplant and to improve recruitment strategies for UCB donors across the country.

Diversity of HLA Class I and Class II blocks and conserved extended haplotypes in Lacandon Mayans

Here we studied HLA blocks and haplotypes in a group of 218 Lacandon Maya Native American using a high-resolution next generation sequencing (NGS) method. We assessed the genetic diversity of HLA class I and class II in this population, and determined the most probable ancestry of Lacandon Maya HLA class I and class II haplotypes. Importantly, this Native American group showed a high degree of both HLA homozygosity and linkage disequilibrium across the HLA region and also lower class II HLA allelic diversity than most previously reported populations (including other Native American groups). Distinctive alleles present in the Lacandon population include HLA-A*24:14 and HLA-B*40:08. Furthermore, in Lacandons we observed a high frequency of haplotypes containing the allele HLA-DRB1*04:11, a relatively frequent allele in comparison with other neighboring indigenous groups. The specific demographic history of the Lacandon population including inbreeding, as well as pathogen selection, may have elevated the frequencies of a small number of HLA class II alleles and DNA blocks. To assess the possible role of different selective pressures in determining Native American HLA diversity, we evaluated the relationship between genetic diversity at HLA-A, HLA-B and HLA-DRB1 and pathogen richness for a global dataset and for Native American populations alone. In keeping with previous studies of such relationships we included distance from Africa as a covariate. After correction for multiple comparisons we did not find any significant relationship between pathogen diversity and HLA genetic diversity (as measured by polymorphism information content) in either our global dataset or the Native American subset of the dataset. We found the expected negative relationship between genetic diversity and distance from Africa in the global dataset, but no relationship between HLA genetic diversity and distance from Africa when Native American populations were considered alone.

Full gene HLA class I sequences of 79 novel and 519 mostly uncommon alleles from a large United States registry population

HLA class I assignments were obtained at single genotype, G-level resolution from 98 855 volunteers for an unrelated donor registry in the United States. In spite of the diverse ancestry of the volunteers, over 99% of the assignments at each locus are common. Within this population, 52 novel alleles differing in exons 2 and 3 are identified and characterized. Previously reported alleles with incomplete sequences in the IPD-IMGT/HLA database (n = 519) were selected for full gene sequencing and, from this sampling, another 27 novel alleles are described.

Increased frequencies of activating natural killer receptors are associated with liver injury in individuals who do not eliminate hepatitis C virus

This study was designed to investigate the role of killer immunoglobulin-like receptor (KIR) genes in the outcome of hepatitis C virus (HCV) infection. In patients who cleared the virus (HCV RNA-) we found a decrease of 2DL2 (P= 0.04), and 2DS2 (P= 0.014) accompanied by an increase of 2DS5 (P= 0.04). Those RNA+ patients with elevated levels of hepatic transaminases (HCV RNA+ elevated alanine aminotransferase) showed an increased frequency of 2DS3 (P= 0.018). Additionally, in cirrhotic patients we found an increased frequency of individuals having two copies of 3DS1 and HLA-Bw4 (P= 0.016). We conclude that higher natural killer cytotoxicity might be associated with a worse progression of the HCV infection.

Human leukocyte antigen allele associations in type-1 autoimmune hepatitis patients from western India

BACKGROUND AND AIMS

The immunogenetic basis of autoimmune diseases has become more and more evident. We have analyzed the human leukocyte antigen (HLA) associations with type-1 autoimmune hepatitis (AIH) among patients from western India.

METHODS

In 20 patients and 120 healthy controls, polymerase chain reaction amplified with sequence specific primers and hybridized with oligoprobes was carried out to elucidate the HLA A, B, C and DRB1 allele associations.

RESULTS

The study revealed that A*0222 (20% vs 1.66%; P = 0.0001), A*3201 (15% vs 0.83%; P = 0.0004), A*680102 (30% vs 6.66%; P = 0.001), B*35 (40% vs 11.66%; P = 0.001), B*5501 (10% vs 0.83%; P = 0.008), Cw*0102 (15% vs 1.66%; P = 0.002) and Cw*070101 (50% vs 11.66%; P = 2.5E-05) were significantly increased among the A, B and C alleles of AIH patients. Among the HLA DRB1 alleles, DRB1*0301 (20% vs 6.19%; P = 0.03), DRB1*1301 (15% vs 2.65%; P = 0.01), DRB1*14 (30% vs 11.5%; P = 0.02) and DRB1*1501 (40% vs 22.12%; P = 0.08) were increased in AIH patients when compared with the controls.

CONCLUSIONS

The present study indicates that the HLA susceptibility to type 1 AIH in the different populations studied is complex.

Multiplex single nucleotide extension: a robust and high throughput method for HLA-A locus typing

This report describes a typing method that can identify all known human leukocyte antigen A (HLA-A) alleles by determining nucleotides present at polymorphic sites using single nucleotide extension. Allele specific primers are bound to capture oligonucleotides which allows for a multiplex approach during single nucleotide extension (SNE) reactions. Eleven group-specific polymerase chain reaction amplifications were performed to obtain the templates to be analyzed with sets of primers designed to investigate the polymorphisms. Extension of biotin-labeled ddNTPs onto allele-specific primers was catalyzed by a DNA polymerase and each primer was hybridized to a specific capture oligonucleotide covalently bound to a bead. After staining with streptavidin-PE, incorporated fluorescence was determined with a flow cytometer. Fluorescence intensities were interpreted by computer and the nucleotide sequence was translated into HLA-A genotypes. Group-specific amplification reactions and primer sets for SNE were validated with 42 reference samples of known HLA-A alleles. In addition, 296 samples from three populations (N. A. Caucasian, African-American, Terena S. A. Indian) were analyzed and results compared to previous typing by SSOP. Reproducibility between repeated typings was 100% and ambiguities were quite rare. The method has been found to be accurate, relatively simple to perform and fast. It is our method of choice for high resolution clinical HLA-A typing.

Tumor necrosis factor and interleukin-10 gene promoter polymorphisms in Brazilian population and in Terena Indians

The Terena Amerindians are located in the midwestern region of Brazil. We have previously reported a restricted polymorphism for HLA class I and class II in 99 unrelated Terena using PCR-SSO and more recently for MICA. There are single nucleotide polymorphisms (SNPs) that determine high or low production of certain cytokines. We have now studied the frequencies of mutant allele (A) at position -308 in the promoter of the gene tumor necrosis factor (TNF)-alpha (pro-inflammatory cytokine) and the alleles A and T, at position -1082 and -819, respectively, in the promoter of the interleukin (IL)-10 gene, in 51 of these subjects from the Terena tribe using PCR SSP and in 195 normal unrelated healthy Brazilians using PCR-RLFP. All 51 Terena Indians tested (100%) had the G/G genotype at position TNF-alpha -308, with no mutation found thus far. In contrast, among the Brazilian general population, the allelic frequency of A was 18.9%. When anti-inflammatory cytokine IL-10 was studied at two different positions, -1082 and -819, a high mutation rate was found when Terena were compared with the general Brazilian population (P <.05). The genetic cytokine profile may be required to balance the restricted HLA repertoire for peptide presentation in this native population.

Origin of Mayans according to HLA genes and the uniqueness of Amerindians

The HLA allele frequency distribution of the Mayans from Guatemala was studied and compared with those of other First American Natives and worldwide populations (a total of 12,364 chromosomes and 6182 individuals from 60 different populations). The main conclusions were (1): the closest Amerindian group to Mayans is the Arhuacs, who were the first recorded Caribbean Islands' inhabitants (2). Mayans are not so close to Mesoamerican Zapotec, Mixe and Mixtec Amerindians, who genetically cluster together. Mixe had been related to Mayans only on linguistic bases (3). DRB1*0407 and DRB1*0802 alleles are found in 50% of Mayans; these alleles are also found in other Amerindians, but the Mayans' high frequencies may be showing a founder effect for this Mesoamerican-Caribbean population (4). Extended Mayan specific HLA haplotypes are described for the first time (5). Language and genes do not completely correlate in microgeographical studies (6). Significant genetic input from outside is not noticed in Meso and South American Amerindians according to the genetic analyses; while all world populations (including Africans, Europeans, Asians, Australians, Polynesians, North American Na-Dene Indians and Eskimos) are genetically related. Meso and South American Amerindians tend to remain isolated in the neighbour joining analyses.

HLA A*02 allele frequencies and B haplotype associations in Western Indians

The population of Western India is described as Australoid or Proto-Australoid elements with admixture from Caucasian, Mongoloid, and Aryan races. We investigated the frequencies of human leukocyte antigen (HLA) A*02 alleles and their B* allele haplotype associations among 664 healthy unrelated Western Indians. Fifty-one of 204 serologically typed A2 individuals were analyzed for 56 molecular A*02 subtypes using high resolution polymerase chain reaction-reverse line strip-sequence-specific oligonucleotide hybridization (PCR-RLS-SSOP). A total of seven different A*02 alleles were identified, A*02011 (16%), A*0203 (16%), A*0205 (2%), A*0206 (2%), A*0211 (52.9%), A*0222 (4%), and A*0236 (8%). The most common HLA B allele associated with A*02 was B*40. Among the 42 subtypes HLA B*4006 (37.22%) was the most frequent subtype. HLA A*0211 was highly frequent in this population, A*0206 and A*0203 are common alleles observed among Asian populations, whereas A*0205 occurs in Caucasians and Africans and A*0222 has been observed among Hispanics. A*0236 has been observed among the western Indians exclusively. Most of the HLA A*02 subtypes observed were associated with B*4006 haplotype, although A*0236 was with B*0702 or B*1302 among the western Indians. The prevalence of A*0211 at high frequencies, A*0222, A*0236 novel alleles along with A*02 related haplotypes, demonstrate a substantial heterogeneity, which may be a consequence of founder effect, racial admixture, or selection pressure due to environmental factors.

Molecular variability in Amerindians: widespread but uneven information

A review was made in relation to the molecular variability present in North, Central, and South American Indian populations. It involved results from ancient DNA, mitochondrial DNA in extant populations, HLA and other autosomal markers, X and Y chromosome variation, as well as data from parasitic viruses which could show coevolutionary changes. The questions considered were their origin, ways in which the early colonization of the continent took place, types and levels of the variability which developed, peculiarities of the Amerindian evolutionary processes, and eventual genetic heterogeneity which evolved in different geographical areas. Although much information is already available, it is highly heterogeneous in relation to populations and types of genetic systems investigated. Unfortunately, the present trend of favoring essentially applied research suggest that the situation will not basically improve in the future.

Molecular analysis of HLA-DRB1, DQA1, DQB1, DQ promoter polymorphism and extended class I/class II haplotypes in the Seri Indians from Northwest Mexico

The study of the genetics of the Major Histocompatibility Complex (MHC) in Amerindians is of great value in understanding the origins and migrations of these native groups, as well as the impact of immunogenetics on the epidemiology of diseases affecting these populations. We analyzed, using Polymerase Chain Reaction and Sequence Specific Oligonucleotide Probes (PCR-SSOP), DRB1, DQA1, DQB1 alleles and the promoter regions of DQA1 and DQB1 genes in 31 unrelated and 24 related Seri, a Mexican Indian group, from the state of Sonora (Northwest Mexico). The class II genotypes of this population were found to be in genetic equilibrium. The allele frequency (AF) of the prevalent DRB1 alleles were DRB1*0407 (48.4%), DRB1*0802 (33.9%) and DRB1*1402 (16.1%). The most frequent DQA1 and DQB1 alleles were DQA1*03011 (AF = 50.00%), DQA1*0401 (AF = 33.87%) and DQA1*0501 (AF = 16.13%); DQB1*0302 (AF = 50.00%), DQB1*0402 (33.87%) and DQB1*0301 (16.13%); which were in combination with DRB1*0407, DRB1*0802 and DRB1*1402, respectively. Three QAP and three QBP alleles were present (QAP 3.1, 4.1, 4.2; QBP 3.1, 3.21, 4.1) associated with the typical published DQA1 and DQB1 alleles. Four class II haplotypes were present in family members: DRB1*0407-QAP-3.1-DQA1*03011-QBP-3.21-DQB1*0302; DRB1*0802-QAP-4.2-DQA1*0401-QBP-4.1-DQB1*0402; DRB1*1402-QAP-4.1-DQA1*0501-QBP-3.1-DQB1*0301 and DRB1*0701-QAP-2.1-DQA1*0201-QBP-2.1-DQB1*0201. The family data were used to confirm extended haplotypes. A total of 21 haplotypes were found when A* and B* loci were also considered. The three most frequent combinations included A*0201-B*3501-DRB1*0407, A*3101-B*5101-DRB1*0802, and A*0201-B*40-DRB1*1402.

Characterization of a novel MICA allele, MICA*047

We report the identification of a novel MICA allele, MICA*047. It was initially detected because of an unusual hybridization pattern with sequence-specific oligonucleotides (SSOP) in a normal subject of Caucasian origin. Cloning and sequencing of both strands, and comparison of the sequence with previously defined MICA alleles, revealed that the new allele is similar to MICA*041 except for one nucleotide substitution at position 811 (C-->G). It appears that this new allele could have been generated by an interallelic sequence exchange between MICA*011 and MICA*0411.

HLA class I diversity in Kolla Amerindians

Human leukocyte antigen (HLA) class I polymorphism was studied within a population of 70 unrelated Kolla Amerindians from the far northwest of Argentina close to the Bolivian border. The results indicate that the HLA-A, -B, and -C alleles typical of other Amerindian populations also predominate in the Kolla. These alleles belong to the following allele groups: HLA-A*02, *68, *31, *24, HLA-B*35, *15, *51, *39, *40, *48, and Cw*01, *03, *04, *07, *08, and *15. For the HLA-A locus, heterogeneity was seen for HLA-A*02 with A*0201, *0211, and *0222; and for A*68 with *68012 and *6817, the latter being a novel allele identified in this population. Analysis of HLA-B identified heterogeneity for all Amerindian allele groups except HLA-B*48, including the identification of the novel B*5113 allele. For HLA-C heterogeneity was identified within the Cw*07, *04, and *08 groups with Cw*0701/06, *0702, *04011, *0404, *0803, and *0809 identified. The most frequent "probable" haplotype found in this population was B*3505-Cw*04011. This study supports previous studies, which demonstrate increased diversity at HLA-B compared with HLA-A and -C. The polymorphism identified within the Kolla HLA-A, -B, and -C alleles supports the hypothesis that HLA evolution is subject to positive selection for diversity within the peptide binding site.

Diversity of alleles encoding HLA-B40: relative frequencies in united states populations and description of five novel alleles

The frequency of each B*40 allele was determined by DNA sequencing in four major United States populations: Caucasians, African Americans, Asians/Pacific Islanders, and Hispanics. Thirty-two individuals from each ethnic group, who were previously described serologically as B40, B60, or B61, were randomly selected out of a pool of 82,979 unrelated individuals for allele characterization. Out of nine different B*40 alleles identified in this study, B*4001 and B*4002 were the two most frequent B*40 alleles in all the population groups. B*4001 was the primary B*40 allele seen in Caucasians (83%) and African Americans (76%), while B*4002 was found in the majority of Hispanics (62%). The distributions of both alleles were comparable in the Asian/Pacific Islander population. These two alleles were the only B*40 alleles detected in Caucasians while four to five additional B*40 alleles were seen in the other population groups. The other B*40 alleles detected in this study included: B*4003 and B*4010 in Asian/Pacific Islanders; B*4012 and B*4016 in African Americans; and B*4004, B*4006, and B*4027 in Hispanics. Analysis revealed significant differences between Hispanics and all other groups as well as between African Americans and Asian/Pacific Islanders. This report also describes five novel B*40 alleles: B*4019, B*4020, B*4024, B*4027, and B*4028.