HLA in Jaidukama: an Amerindian secluded Colombian population with new haplotypes and Asian and Pacific-shared alleles.

America first inhabitants and peopling are still debated. In order to increase knowledge about these questions, we have aimed to detect HLA genes of an Amerindian secluded community: Jaidukama, who lives in North Colombia Equatorial forest. HLA genotyping and extended haplotype calculations were carried out in 39 healthy individuals belonging to 13 families. HLA frequencies were compared to other Amerindians and worldwide populations by calculating genetic distances, relatedness dendrograms and correspondence analyses. Only four DRB1 alleles were found (*0404, *0407, *1402 and *1602); however a total of 17 Amerindian different extended class I-class II HLA haplotypes were directly counted from the family studies, nine of them were specific of Jaidukamas. Some of the alleles or group of alleles within an extended haplotype (i.e. DQB1-DRB1) were also found in Asians and Pacific Islanders, further supporting existence of Asian and Pacific gene flow with Amerindians or a common founder effect. It is further supported that HLA extended haplotypes vary faster than alleles in populations. It is concluded that this unique model of Amerindian secluded families study suggests that rapid HLA haplotype variation may be more important than allele variation for survival (starting immune responses). This work may also be useful for future transplant programs in the area.

The Origin of Amerindians and the Peopling of the Americas According to HLA Genes: Admixture with Asian and Pacific People.

The classical three-waves theory of American peopling through Beringia was based on a mixed anthropological and linguistic methodology. The use of mtDNA, Y chromosome and other DNA markers offers different results according to the different markers and methodologies chosen by different authors. At present, the peopling of Americas remains uncertain, regarding: time of population, number of peopling waves and place of peopling entrance among other related issues. In the present review, we have gathered most available HLA data already obtained about First Native American populations, which raise some doubts about the classical three waves of American peopling hypothesis. In summary, our conclusions are: 1) North West Canadian Athabaskans have had gene flow with: a) close neighboring populations, b) Amerindians, c) Pacific Islanders including East Australians and d) Siberians; 2) Beringia was probably not the only entrance of people to America: Pacific Ocean boat trips may have contributed to the HLA genetic American profile (or the opposite could also be true); 3) Amerindians entrance to America may have been different to that of Athabaskans and Eskimos and Amerindians may have been in their lands long before Athabaskans and Eskimos because they present and altogether different set of HLA-DRB1 allele frequencies; 4) Amerindians show very few "particular alleles", almost all are shared with other Amerindians, Athabaskans and Pacific Islanders, including East Australians and Siberians; 5) Our results do not support the three waves model of American peopling, but another model where the people entrance is not only Beringia, but also Pacific Coast. Reverse migration (America to Asia) is not discarded and different movements of people in either direction in different times are supported by the Athabaskan population admixture with Asian-Pacific population and with Amerindians, 6) HLA variability is more common than allele veriability in Amerindians. Finally, it is shown that gene genealogy analises should be completed with allele frequency analyses in population relatednes and migrations studies.

HLA genes in Uros from Titikaka Lake, Peru: origin and relationship with other Amerindians and worldwide populations.

Uros population from the Titikaka Lake live in about 42 floating reed ('totora') islands in front of Puno City (Peru) at a 4000 m high altiplano. They present both an mtDNA and a human leucocyte antigen (HLA) profile different from the surrounding populations: mtDNA A2 haplogroup is common to Uros and Amazon forest lowland Amerindians. HLA genetic distances between populations have been calculated and neighbour-joining dendrograms and correspondence analyses were carried out. Approximately 15 006 HLA chromosomes from worldwide populations have been used for comparisons. Only eight HLA-A alleles have been found, three of them accounting for most of the frequencies. The same phenomenon is seen for HLA-B, HLA-DRB1 and HLA-DQB1 alleles: a few alleles (3, 4 and 3, respectively) are present in most individuals. The presence of HLA-B*4801 and HLA-DRB1*0901 alleles in a relatively high frequency (although not the most frequent alleles found) is a characteristic shared with Asians and some populations from the Andean altiplano. Three specific Uros haplotypes have been found among the most frequent ones: HLA-A*680102-B*3505-DRB1*0403-DQB1*0302; HLA-A*2402-B*1504-DRB1*1402-DQB1*0301; and HLA-A*2402-B*4801-DRB1*0403-DQB1*0302. The present study suggests that Uros may have been one of the first populations from the shores of the Titikaka Lake coming from the Amazonian forest, which might have given rise to other later differentiated ethnic group (i.e. Aymaras). Uros HLA profile is also useful to study genetic epidemiology of diseases linked to HLA and to construct a future transplant waiting list by adding up regional lists in order to get a bigger pool for transplanting with better HLA matching.

The peopling of Madeira Archipelago (Portugal) according to HLA genes.

The Madeira-Porto Santo Archipelago was officially colonized in 1420 by Portuguese settlers. Its importance in Columbus' information for the American discovery and for slave traffic across the Atlantic is unquestionable. Thus, a complex peopling may have given rise to a present-day high admixture of ethnicities according to HLA genes. A sample of 173 healthy unrelated Madeirans was analysed and compared with 6986 HLA chromosomes from other worldwide populations. Genetic distances, neighbour-joining dendrograms and correspondence analyses were used for comparisons. Southern European, North African (including Canary Islands), Jewish and Mediterranean typical HLA alleles were found and genetic distances from Madeirans to these populations were the closest ones. In addition A*24-B*65-DRB1*0102-DQB1*0501 and A*68-B*08-DRB1*0301-DQB1*0201 haplotypes were newly found in Madeira and not found in any other population. Jewish-Armenian-Middle East haplotype (A*33-B*65-DRB1*0102-DQB1*0501) is one of the most common haplotypes; this haplotype is also present in Spaniards and North Africans. Quantitatively, Portuguese, North Africans (Algerians), Spaniards and Canary Islanders (in this order) are the most important parental populations to Madeirans. Results are discussed on the basis of the recorded historical peopling which does not show a noticeable African gene input in present-day Madeiran population according to our data; one of the closest related populations found is the Canary Islanders, suggesting that Guanche (Canary Islands first inhabitants) slaves gene flow is still noticed at present, both in Madeira and in Canary Islands populations.

A novel allele, HLA-G*010114, with a non-coding DNA base change in exon 2.

The non-classical human leucocyte antigen (HLA) class I locus, HLA-G, shows a low protein polymorphism and a more varied DNA (eight proteins and 28 alleles). HLA-G DNA polymorphism accounts mainly for changes at third codon bases of the protein coding exons; this does not imply amino acid change in most cases. This relatively high HLA-G DNA polymorphism in comparison with their protein polymorphism suggests that evolutionary forces are acting upon HLA-G for invariance. This may be related to the immunotolerogenic function postulated for HLA-G.

Killer immunoglobulin receptor gene and allele frequencies in Caucasoid, Oriental and Black populations from different continents.

Parallel to the growth in interest in the past few years in the killer immunoglobulin-like receptor (KIR) genes has been the elucidation of the presence/absence of these genes and to a very limited extent, the frequency of alleles of these genes in many populations. In the present study, we have chosen seven populations to investigate the presence/absence of the KIR genes and their alleles, i.e. Cuban, Brazilian, Oman, Hong Kong Chinese, Singapore Chinese, South African Xhosa and South African San. The populations were chosen to represent different continents of the world. We show the divergence in the frequencies of these genes, and their alleles, in the different populations. Many new sequence-specific oligonucleotide probe patterns represent new alleles, each occurred in only one of the populations. The KIR gene frequencies of these seven populations were calculated and genetic distances were represented by neighbour-joining dendrograms and correspondence analyses. Also, the presence or absence of 17 KIR loci in the presently studied populations was compared with the presence or absence of the same loci in 56 worldwide populations (available on the website www.allelefrequencies.net). In total, 5134 individuals were analysed and the populations grouped, with some exceptions, according to a geographical gradient.

A novel HLA-G allele (HLA-G*0108) with an alpha-3 domain amino acid change.

HLA-G non classical class I locus shows a comparatively low polymorphism. It encodes for tolerogenic HLA molecules that may be important in autoimmunity and transplant (and foetal) rejection control. HLA-G molecules give negative signals to Natural Killer and T lymphocytes. In the present paper, a new allele, HLA-G*08, is described, which may be useful for monitoring transplants and for HLA and disease studies.

14th International HLA and Immunogenetics Workshop: report on non-classical class I genes.

Non-classical class I genes are encoding for cell surface proteins that have largely yet unknown functions. Although some of these proteins (human leukocyte antigens E, F and G) have been shown to present peptides, their polymorphism is very restricted at the peptide-binding region. In the present Workshop, several papers were presented addressing detection, evolutive and functional issues of these proteins. The general inhibitory immunological function of these proteins is put forward.

HLA-E polymorphism in Amerindians from Mexico (Mazatecans), Colombia (Wayu) and Chile (Mapuches): evolution of MHC-E gene.

Human leukocyte antigen (HLA)-E is a nonclassical class I (Ib) gene with a restricted polymorphism. Only eight DNA alleles and three proteins of this gene have been described and their frequencies analyzed in Caucasian, Oriental, Asian Indian, and Negroid populations. In the present study, HLA-E polymorphism has been analyzed in six Amerindian and Mestizo populations from North and South America and compared with previously described populations. HLA-E*0101 is the most frequent allele found in all populations except in Afrocolombian and Wayu Amerindians, in which blood group analyses show a high admixture with Caucasian and African populations. Mazatecan and Mapuche (two Amerindian groups from North and South America, respectively) presented similar HLA-E frequencies, whereas Wayu Indians are more similar to the Afrocolombian population. The Mexican and Colombian Mestizo show similar allele frequencies to Amerindians with high frequencies of HLA-E*0101 and HLA-E*010302 alleles. Also, frequencies in Negroids and Asian Indians present a similar distribution of HLA-E alleles. These data are in agreement with worldwide restricted polymorphism of HLA-E because no new allele was detected in the six populations studied. The allelic frequencies show differences among Caucasian, Oriental, Mestizo and Indian populations. Ape major histocompatibility complex-E allelism is also very restricted: common chimpanzee (one allele); bonobo (two alleles); gorilla (two alleles); orangutan (one allele); rhesus monkey (eight alleles); cynomolgus monkey (two alleles); and green monkey (two alleles).

MHC-F polymorphism and evolution.

The major histocompatibility complex (MHC)-F class Ib locus shows a limited polymorphism, and the function of its mainly intracellular protein is not clear. We have identified human leukocyte antigen (HLA)-F orthologous DNA sequences in Pongidae in order to study the MHC-F gene evolution and its products' function. HLA-F orthologous complementary DNA transcripts are found in chimpanzee and in the new primate species studied (bonobo, gorilla and orangutan). Analyses of the predicted amino acid sequences and their comparison with other primate MHC-F proteins show that MHC-F may be a protein with a typical class I structure and that the key residues of the peptide-binding region are highly conserved in MHC-F in all studied primates species. Thus, MHC-F conservation along the primate evolution suggests an important role in cellular physiology. It is possible that the MHC-F protein could be involved, together with MHC-G and MHC-E, in the natural killer cell activity regulation, although rhesus macaque cannot express complete surface MHC-G orthologue molecules.

HLA-G polymorphism and evolution.

Six proteins, one null allele and 22 human leukocyte antigen (HLA)-G alleles were found in humans. Bonobo, chimpanzee and gorilla only show one allele and orangutan shows five alleles. All Cercopithecus alleles show stop codons at position 164 (Macaca mulatta with seven DNA alleles, Macaca fascicularis with seven DNA alleles and Cercopithecus aethiops with three DNA alleles). Cotton-top tamarin New World monkeys showed 20 DNA and protein alleles; the major histocompatibility complex (MHC)-G New World sequences seem to be closer to MHC-E and lack typical MHC-G primates intron 2-specific deletion. This seems to suggest that MHC-G genes in New World primates are not orthologous and that their function may be similar to that of classical presenting MHC genes.

HLA Genes in Mayos Population from Northeast Mexico.

HLA class I and class II alleles have been studied in 60 unrelated people belonging to Mayos ethnic group, which lives in the Mexican Pacific Sinaloa State. Mayos HLA profile was compared to other Amerindians and worldwide populations' profile. A total of 14,896 chromosomes were used for comparisons. Genetic distances between populations, Neigbour-Joining dendrograms and correspondence analyses were performed to determine the genetic relationship among population. The new specific Mayo HLA haplotypes found are: HLA-A*02-B*35-DRB1*1406-DQB1*0301; HLA-A*02-B*48-DRB1*0404-DQB1*0302; HLA-A*24-B*51-DRB1*0407-DQB1*0302 and HLA-A*02-B*08-DRB1*0407-DQB1*0302. However, the typical Meso American HLADRB1*0407 represents a 40% of all DRB1 alleles. While common HLA characteristics are found in Amerindian distant ethnic groups, still new group specific HLA haplotypes are being found, suggesting that a common founder effect (i.e. high DRB1*0407) is noticed. Moreover, new HLA haplotypes are almost certainly appearing along time probably due to specific pathogen (?) selection for diversity. Mayo language is close to the Tarahumara one (another geographically close group); notwithstanding both groups are not genetically close according to our results, showing again the different evolution of genes and languages, which do not correlate. Finally, Sinaloa is one of the Mexican States in which more European genes are found. However, the results presented in this paper, where no European HLA genes are seen in Mayos, should have a bearing in establishing transplant programs and in HLA and disease studies.

HLA-G, -E and -F: allelism, function and evolution.

The major histocompatibility complex class I genes comprise a bunch of classical genes (A, B, C), non-classical genes (E, F and G), pseudogenes and truncated genes. MHC-E, -F and -G are now considered immune "tolerization" molecules, which not only interact with NK cells but with T lymphocyte subsets and other cells and have a role in fetus acceptation. A strong positive directional selection is acting for maintaining the observed low polymorphism on E, F and G loci in human and apes. Invariance must be important for this non-classical class I proteins function.

High-resolution molecular characterization of the HLA class I and class II in the Tarahumara Amerindian population.

We describe for the first time the high-resolution profiling of HLA-A, -B, -C, -DRB1, -DQB1 and -DPB1 in a culturally and geographically distinct Mexican ethnic group, the Tarahumaras. The alleles most frequently found by reference strand-mediated conformational analysis in this population were for class I: HLA-A*240201, *020101/09, *0206, *310102, *680102; HLA-B*4002, *1501, *510201, *3501/02/03, *4005, *4801; HLA-Cw*0304, *0801, *0102, *040101; and for class II: HLA-DRB1*080201, *1402, *040701; HLA-DQB1*0402, *0301, *0302/07; HLA-DPB1*0402, *0401, *020102. In addition, a novel allele, HLA-A*0257, was found. Based on comparison of presently known HLA-DRB1 and -DQB1 allele frequencies in Amerindian groups and worldwide populations, the Tarahumaras are unexpectedly more related to the geographically and linguistically distant Aymara and Terena Amerindian groups than they are to neighbouring tribes.

The uniqueness of amerindians according to HLA genes and the peopling of the Americas

El estudio de la genética de poblaciones se utiliza en epidemiologíay en medicina preventiva y predictiva, además de paraaveriguar el origen y el emparentamiento de los grupos étnicosen estudios antropológicos.El sistema más polimórfico en humanos es el complejo HLA,y unos pocos de sus alelos están ligados a enfermedad. En este sentido,los marcadores genéticos más utilizados para estudios antropológicos,las variantes de DNA mitocondrial y del cromosoma Y,también están ligadas a enfermedades, pero en un grado comparativamentemayor que HLA, teniendo en cuenta solamente elnumero de «alelos sanos» de estos marcadores genéticos. El estudiode los genes HLA demuestra que es muy útil para descubrir elorigen y el emparentamiento genético de las poblaciones a nivelmundial. En el presente estudio, hemos comprobado cómo, aparentemente,los Amerindios no se relacionan genéticamente conninguna otra población del mundo. De acuerdo con los genes HLA,los Amerindios son los primeros habitantes de las Américas y estabanallí cuando llegaron oleadas de gentes hablando lenguas NaDene (Atabascos, Navajos, Apaches) y Esquimales. Mientras seobserva que en todas las otras poblaciones mundiales existe ungradiente de emparentamiento, que va en general concordandocon la proximidad o lejanía geográfica, los Amerindios se sitúanaparte de todos. Esta conclusión principal se ha basado en el estudiode 14.968 cromosomas HLA de todo el mundo y en análisisestadísticos utilizando el método de «Neighbour Joining» y los análisisde correspondencia, junto con las distancias genéticas de Neientre grupos étnicos. El estudio poblacional HLA de Amerindiosprocedentes de la zona del Océano Pacífico sudamericano es particularmenteimportante para España, donde se viene registrandoun importante flujo migratorio procedente de estos países. Estohace necesario hacer listas de tipaje HLA con el objeto de efectuartrasplantes entre españoles y Amerindios para fines terapeúticos

The genetic profiles of human populations are being used forepidemiology and preventive/predictive medicine, in additionto ascertaining the origin and relatedness of ethnic groups foranthropological studies.HLA is the most polymorphic genetic system in humans anda few HLA alleles are linked to disease. However, the mtDNAand Chr Y variants, widely used in genetic anthropology, are linkedto disease to a much higher degree than HLA, if we only takeinto account the number of «healthy» alleles from these three differentgenetic markers.HLA gene studies allow the determination of the origin andgenetic relatedness of worldwide populations. In the present studywe have been able to uncover that Amerindians apparently donot relate with any other worldwide population, according totheir HLA genetic profile. Amerindians are the very First AmericanNatives that were already in America when Na Dene (Athabascans,Navajo, Apache) and Eskimo speaking people reachedit. While other worldwide populations are genetically related followinggenerally a smooth geographic gradient, Amerindians appearapart. This main conclusion has been reached by using 14,968worldwide HLA chromosomes and Neighbour Joining and correspondenceanalyses together with Nei´s genetic distances betweenethnic groups. The HLA study of southern American PacificAmerindians is particularly important for Spain, where a recentimportant immigration of these populations has taken place. Thismakes it necessary to building up an Amerindian typing list inSpain in order to deal with transplantation between Spaniardsand Amerindians for therapeutic uses

Generation of the B*41 group of alleles as indicated by intron sequences.

The generation of the B*41 alleles has been analysed using exon 1, intron 1, exon 2, intron 2 and exon 3 sequences. Results showed that B*4102 may have been generated as the first B*41 allele by a recombination mechanism between B*400102 and B*0801 or B*4201 involving intron 2. B*4101, B*4104 and B*4107 alleles could have been generated from B*4102 by a gene conversion event taking three different fragments from sequences belonging to intron 2/exon 3 of B*45, B*50 or B*49 alleles. B*4105 and B*4106 could be generated from B*4101 allele by point mutations, and B*4103 generation is unclear due to the lack of intron 2. The importance of introns in HLA-B allele polymorphism generation is stressed.

MHC-F DNA sequences in bonobo, gorilla and orangutan.

The major histocompatibility complex (MHC)-F class Ib locus shows a limited polymorphism, and the function of its mainly intracellular protein is not clear. We have identified human leucocyte antigen (HLA)-F orthologous DNA sequences in Pongidae in order to study the MHC-F gene evolution and its products' function. HLA-F orthologous cDNA transcripts are found in chimpanzee and in the new primate species studied (bonobo, gorilla and orangutan). Analyses of the predicted amino acid sequences and their comparison with other primate MHC-F proteins show that MHC-F may be a protein with a typical class I structure and that the key residues of the peptide-binding region (PBR) are highly conserved in MHC-F in all studied primates species. Thus, MHC-F conservation along the primate evolution suggests an important role in cellular physiology. It is possible that the MHC-F protein could be involved, together with MHC-G and MHC-E, in the natural killer (NK) cell activity regulation, although rhesus macaque does not express MHC-G and MHC-E orthologues. The evolutionary pathway of the six-base-pair deletion at exon 2 existing in some primates is put forward.

Origin of Aymaras from Bolivia and their relationship with other Amerindians according to HLA genes.

Aymara Amerindians from the Titicaca Lake Andean highlands are studied for HLA-A, HLA-B, HLA-DRB1 and HLA-DQB1 gene frequencies. Genetic distances, neighbour-joining and correspondence analyses are performed by using other Amerindian and worldwide populations (15384 chromosomes are studied). The HLA genetic profile of Aymaras is different from neighbouring and language-related Quechuas (Incas). Both Quechuas and Aymaras seem to present an HLA-DRB1*0901 high frequency, which is present in a very low frequency or absent in Mesoamericans (Mazatecans, Mayans) and most studied Amerindians. Moreover, it is observed a closer relatedness of Aymaras with Amerindians from the Amazon Basin and Chaco lowlands, compared to Quechuans.

The origin and spread of the HFE-C282Y haemochromatosis mutation.

The mutation responsible for most cases of genetic haemochromatosis in Europe (HFE C282Y) appears to have been originated as a unique event on a chromosome carrying HLA-A3 and -B7. It is often described as a "Celtic mutation"--originating in a Celtic population in central Europe and spreading west and north by population movement. It has also been suggested that Viking migrations were largely responsible for the distribution of this mutation. Two, initial estimates of the age of the mutation are compatible with either of these suggestions. Here we examine the evidence about HFE C282Y frequencies, extended haplotypes involving HLA-A and -B alleles, the validity of calculations of mutation age, selective advantage and current views on the relative importance of "demic-diffusion" (population migration) and "adoption-diffusion" (cultural change) in the neolithic transition in Europe and since then. We conclude that the HFE C282Y mutation occurred in mainland Europe before 4,000 BC.