Polymorphism, recombination, and linkage disequilibrium within the HLA class II region.

Thirty-nine CEPH (Centre d'Etude du Polymorphisme Humain) families, comprised of 502 individuals, have been typed for the HLA class II genes DRB1, DQA1, DQB1, and DPB1 using nonradioactive sequence-specific oligonucleotide probes to analyze polymerase chain reaction amplified DNA. This population, which consists of 266 independent chromosomes, contains 27 DRB1, 7 DQA1, 12 DQB1, and 17 DPB1 alleles. Analysis of the distribution of allele frequencies using the homozygosity statistic, which gives an indication of past selection pressures, suggests that balancing selection has acted on the DRB1, DQA1, and DQB1 loci. The distribution of DPB1 alleles, however, suggests a different evolutionary past. Family data permits the estimation of recombination rates and the unambiguous assignment of haplotypes. No recombinants were found between DRB1, DQA1, and DQB1; however, recombinants were detected between DQB1 and DPB1, resulting in an estimated recombination fraction of greater than or equal to 0.008 +/- 0.004. Only 33 distinct DRB1-DQA1-DQB1 haplotypes were found in this population which illustrates the extreme nonrandom haplotypic association of alleles at these loci. A few of these haplotypes are unusual (previously unreported) for a Caucasian population and most likely result from past recombination events between the DR and DQ subregions. Examination of disequilibrium across the HLA region using these data and the available serologic HLA-A and HLA-B types of these samples shows that global disequilibrium between these loci declines with the recombination fraction, approaching statistic nonsignificance at the most distant interval, HLA-A to HLA-DP.DR-DQ haplotypes in linkage disequilibrium with DPB1 and B are noted and, finally, the evolutionary origin of certain class II haplotypes is addressed.     

Recombination sites in the HLA class II region are haplotype dependent

We have analyzed DNA sequence polymorphisms of DQ alpha and DQ beta chains from three haplotypes from the DRw52 family: DR5 DQw1 (FPA, GM3106), DRw6 DQw1 (CB6B, 10w9060), and DRw6 DQw3 (AMALA, 10w9064). The results indicate that the DR5 DQw1 and DRw6 DQw1 haplotypes have arisen by recombination between the DR beta 1 and DQ alpha loci. This contrasts with our previous analysis of DR4 DQ"Wa", DR3 DQ"Wa", and DR7 DQw3 haplotypes, all of which appear to have arisen by virtue of recombination between DQ alpha and DQ beta. Thus, there appear to be at least two different sites where recombination has occurred within the DR and DQ subregions. These differing patterns of recombination were interpreted in the context of the three major family groups of class II haplotypes, the DRw53, DRw52, and DR1/2 haplotype families. The data indicate that haplotypes from these family groups tend to undergo recombination at different locations. We propose that these differences in site of recombination are a reflection of differences in the molecular organization of the haplotypes belonging to each family group.     

Linkage relationships in the bovine MHC region. High recombination frequency between class II subregions

Class II genes of the bovine major histocompatibility complex (MHC) have been investigated by Southern blot analysis using human DNA probes. Previous studies revealed the presence of bovine DO , DQ , DQ , DR and DR genes, and restriction fragment length polymorphisms for each of these genes were documented. In the present study, the presence of three additional class II genes, designated DZ , DY , and DY , are reported. DZ was assumed to correspond to the human DZ gene while the other two were designated DY because their relationship to human class II genes could not be firmly established. The linkage relationships among bovine class II genes and two additional loci, TCP1B and C4, were investigated by family segregation analysis and analysis of linkage disequilibrium. The results clearly indicated that all these loci belong to the same linkage group. This linkage group is divided into two subregions separated by a fairly high recombination frequency. One region includes the C4, DQ , DQ , DR and DR loci and the other one is composed of the DO DY , DY , and TCPIB loci. No recombinant was observed within any of these subregions and there was a strong or fairly strong linkage disequilibrium between loci within groups. In contrast, as many as five recombinants among three different families were detected in the interval between these subregions giving a recombination frequency estimate of 0.17 ± 0.07. The fairly high recombination frequency observed between class 11 genes in cattle is strikingly different from the corresponding recombination estimates in man and mouse. The finding implies either a much larger molecular distance between some of the bovine class II genes or alternatively the presence of a recombinational hot spot in the bovine class II region.     

Discordant patterns of linkage disequilibrium of the peptide-transporter loci within the HLA class II region.

Disequilibrium between genetic markers is expected to decline monotonically with recombinational map distance. We present evidence from the HLA class II region that seems to violate this principle. Pairwise disequilibrium values were calculated from six loci ranging in physical separation from 15 kb to 550 kb. The histocompatibility loci DRB1, DQA1, and DQB1, located on the distal end of the class II region, behave as a single evolutionary unit within which extremely high linkage disequilibrium exists. Lower but still significant levels of disequilibrium are present between these loci and DPB1, located at the proximal edge of the HLA complex. The peptide-transporter loci TAP1 and TAP2, located in the intervening region, reveal no disequilibrium with each other and low or negligible disequilibrium with the flanking loci. The action of two genetic process is required to account for this phenomenon: a recombinational hotspot operating between TAP1 and TAP2, to eliminate disequilibrium between these loci, and at the same time selection operating on particular combinations of alleles across the DR-DP region, to create disequilibrium in the favored haplotypes. The forces producing the patterns of disequilibrium observed here have implications for the mapping of train loci and disease genes: markers of TAP1, for example, would give a false impression as to the influence of DPB1 on a trait known to be associated with DQB1.     

Invariant chain associates with HLA class II antigens via its extracytoplasmic region

Complexes of HLA class II alpha- and beta-chains with invariant chain were proteolytically digested to study domain interactions between these molecules. Detergent extracts of metabolically labeled monensin-treated B lymphoblastoid cells (B-LCL) were digested with proteinase K and immunoprecipitated with anti-HLA-DR or anti-invariant chain antibodies. Subsequent two-dimensional polyacrylamide amide gel electrophoresis showed that proteinase K treatment results in the sequential generation of three polypeptides of approximately 21,500, 19,500, and 18,000 daltons respectively. All are proteolytic fragments derived from invariant chain, and all remain associated with class II antigens. Two-dimensional gels of endoglycosidase H-treated immunoprecipitates showed that all three fragments contain two N-linked oligosaccharides. Neuraminidase treatment of immunoprecipitates and Bandeiraea simplicifolia lectin binding of cell extracts showed that the largest fragment, but not the smallest fragment, also contains O-linked oligosaccharides. None of the fragments possess the transmembrane region; fragments were released in soluble form when biosynthetically labeled B-LCL were ruptured by freezing and thawing and intact membranes were separated from aqueous components by ultracentrifugation. Lack of the transmembrane sequence was confirmed on the 18,000 dalton fragment by demonstrating through specific peptide cleavage at tryptophanyl residues that this fragment retains a substantial portion of the C-terminal region of I chain beyond trp162. Retention of the C-terminal region excludes the presence of the transmembrane region when m.w. are considered. Our data, taken in context of the amino acid sequence of the invariant chain predicted by the cDNA clone, demonstrate that invariant chain interacts with class II antigens via its extracytoplasmic region.     

Soluble HLA class I and HLA class II antigens in the blood of HIV infected patients

The levels of HLA, class I, antigen and HLA-DR antigen in the blood sera of HIV-infected persons were determined by the enzyme immunoassay. The levels of soluble antigens HLR-DR and of HLA, class I, in serum samples containing only antibodies to HIV were elevated, respectively, 1.8- and 1.3-fold in comparison with the norm. The level of soluble HLA-DR antigen in samples containing the markers of other infections (HBsAg, antibodies to hepatitis C virus, anti-IgM antibodies to cytomegalovirus) was significantly higher in comparison with samples containing only antibodies to HIV and serum samples from healthy donors (p < 0.05). The concentration of soluble HLA antigen, class I, in the samples containing antibodies to HIV and markers of other infections was also elevated, but the statistically authentic increase in comparison with the normal level was observed only in the presence of the markers of HIV infection, hepatitis C and cytomegalovirus infection.     

A novel HLA class II molecule

Molecular evidence has been obtained for a novel monomorphic HLA class II molecule distinct from HLA-DP/DQ/DR using a panel of lymphoblastoid cells which include HLA-loss mutants. The expression of this molecule was investigated using monomorphic affinity-purified mouse monoclonal antibodies (mAbs), including one of the IgG_2a subclass designated EDUA. This antibody reacts strongly in a cell-binding radioimmunoassay with HLA-DR and -DQ loss mutants derived from a lymphoblastoid parental cell. The EDU-1 mAb also reacted with a local panel of homozygous Epstein-Barr virus-transformed cell lines. The reactive molecules were further detected on allostimulated T-cell clones and various leukemic cells including those of myeloid origin which lack surface expression of HLA-DQ molecules. Thus the class II molecule described in this study corresponds to a monomorphic HLA class II determinant expressed on a variety of cells of different origin and HLA phenotypes. Moreover, this antigen structure is distinct from that of HLA-DP/DQ/DR as shown by direct immunoprecipitation, serial immunodepletion experiments, and two-dimensional gel electrophoresis. The molecule could be specified by new class II genes between DP and DQ. An alternative explanation for the genetic basis of the novel molecule is the existence of isotypic associations between alpha and beta chains of various class II molecules (DP, DX, DZ, and DO) but not DR and DQ as the mutant cells tested lack the latter genes.     

HLA class II allele frequencies in the Lebanese population

Aims

Being one of the most polymorphic genetic systems , the Human Leukocyte Antigen system is divided into class I (HLA-A, HLA-B and HLA-C) and class II (HLA-DP, -DQ and -DR). This study is the first and largest of its kind to describe the distribution of HLA-DQB1 and HLA-DRB1 alleles in Lebanon and the region.

Methods

Respectively, 560 and 563 Lebanese individuals referred for HLA typing and possible bone marrow/kidney donation were tested for HLA-DQB1 and HLA-DRB1 alleles using the polymerase chain reaction/sequence specific priming (PCR-SSP) method.

Results

Our data were compared to that of several populations with interesting common findings between the Lebanese, Jordanian, Bahraini, Saudi, Kuwaiti, Tunisian, Korean, Japanese, Thai, Irish, Bulgarian and Polish populations.

Conclusion

These data about the Lebanese population are going to aid future researchers to study the relation of HLA-DQB1 and HLA-DRB1 alleles with major and common diseases in the Lebanese population and will add to the available international literature associated with these loci. In addition it will serve as a reference for the future national bone marrow registry program in our country. We also reviewed the literature for the described association between HLA-DRB1 and -DQB1 loci and different disease entities.     

Characterization of the MHC class II region in cattle. The number of DQ genes varies between haplotypes

The organization of the major histocompatibility complex (MHC) class II region in cattle was investigated by Southern blot analysis using human probes corresponding to DO, DP, DQ, and DR genes. Exon-specific probes were also employed to facilitate the assessment of the number of different bovine class II genes. The results indicated the presence of single DO and DR genes, at least three DR genes, while the number of DQ genes was found to vary between MHC haplotypes. Four DQ haplotypes, DQ ^{1 1} to DQ ^{2 4}, possessed a single DQ and a single DQ gene whereas both these genes were duplicated in eight other haplotypes, DQ ^{3 5} to DQ ^{9 12}. No firm evidence for the presence of bovine DP genes was obtained. The same human probes were also used to investigate the genetic polymorphism of bovine class II genes. DQ DQ , DR DR , and DO restriction fragment length polymorphisms (RFLPs) were resolved and in particular the DQ restriction fragment patterns were highly polymorphic. Comparison of the present result with the current knowledge of the class II region in other mammalian species suggested that the DO, DP, DQ, DR, and DZ subdivision of the class II region was established already in the ancestor of mammals. The DP genes appear to be the least conserved class II genes among mammalian species and may have been lost in cattle. The degree of polymorphism of different class II genes, as revealed by RFLP analyses, shows striking similarities between species.     

Polymorphism of the HLA class II loci in Siberian populations

The populations that colonized Siberia diverged from one another in the Paleolithic and evolved in isolation until today. These populations are therefore a rich source of information about the conditions under which the initial divergence of modern humans occurred. In the present study we used the HLA system, first, to investigate the evolution of the human major histocompatibility complex (MHC) itself, and second, to reveal the relationships among Siberian populations. We determined allelic frequencies at five HLA class II loci (DRB1, DQA1, DQB1, DPA1, and DPB1) in seven Siberian populations (Ket, Evenk, Koryak, Chukchi, Nivkh, Udege, and Siberian Eskimo) by the combination of single-stranded conformational polymorphism and DNA sequencing analysis. We then used the gene frequency data to deduce the HLA class II haplotypes and their frequencies. Despite high polymorphism at four of the five loci, no new alleles could be detected. This finding is consistent with a conserved evolution of human class II MHC genes. We found a high number of HLA class II haplotypes in Siberian populations. More haplotypes have been found in Siberia than in any other population. Some of the haplotypes are shared with non-Siberian populations, but most of them are new, and some represent “forbidden” combinations of DQA1 and DQB1 alleles. We suggest that a set of “public” haplotypes was brought to Siberia with the colonizers but that most of the new haplotypes were generated in Siberia by recombination and are part of a haplotype pool that is turning over rapidly. The allelic frequencies at the DRB1 locus divide the Siberian populations into eastern and central Siberian branches; only the former shows a clear genealogical relationship to Amerinds. Received: 18 August 1997 / Accepted: 6 October 1997     

High resolution molecular typing of HLA class II region in the population of the island of Krk, Croatia

The HLA class II alleles (DRB1, DRB3, DRB5, DQA1, and DQB1) and haplotypic associations were studied in the population of the island of Krk using the PCR-SSOP method and the 12th International Histocompatibility Workshop primers and probes. Allele and haplotypic frequencies were compared with the general Croatian population. Significant differences were observed between the population of the island of Krk and Croatians for: a) three broad specificities at DRB1 locus (DRB1*01, *15, and *07), b) one allele at DRB3 locus (DRB3*0301), c) one allele at DQA1 locus (DQA1*0201), d) one allele at DQB1 locus (DQB1*0303). Four unusual haplotypic associations, which have not yet been described in the Croatian population, DRB1*1301-DQA1*0103-DQB1*0607, DRB1*1302-DQA1*0102-DQB1*0605, DRB1*1305-DQA1*0102-DQB1*0605 and DRB1*1305-DQA1*0103-DQB1*0603 were observed in the population from the island of Krk.     

HLA class II nucleotide sequences, 1992

The HLA class II sequences included in this compilation are taken from publications listed in the papers: Nomenclature for factors of the HLA system, 1989, Nomenclature for factors of the HLA system, 1990, and Nomenclature for factors of the HLA system, 1991 (WHO Nomenclature Committee 1990, 1991, 1992). Where discrepancies have arisen between reported sequences, the original authors have been contacted where possible, and necessary amendments to published sequences have been incorporated into this alignment. Future sequencing may identify errors in this list, and we would welcome any evidence that helps to maintain the accuracy of this compilation. In the sequence alignments, identity between residues is indicated by a hyphen (-), an unavailable sequence is indicated by an asterisk (*), and gaps in the sequence are inserted to maintain the alignment between different alleles showing variation in amino acid number. Correspondence to: S. G. E. Marsh.     

HLA class I and class II polymorphism in three Sicilian populations

Two human leukocyte antigen (HLA) class I loci (HLA-A and HLA-B) and one class II locus (HLA-DR) were typed at the DNA level in the Sicilian population. Study participants were of Sicilian origin (183 for class I loci and 260 for class II loci) and live in three towns, chosen on the basis of geographic position and different historical events. These towns are Sciacca (southwest Sicily, located at sea level, conquered by Arabs in A.D. 814), Piana degli Albanesi (northwest Sicily, 720 m above sea level, has maintained religious, cultural, and linguistic peculiarities traced to Albanian settlement in 1488), and Troina (northeast Sicily, 1120 m above sea level, known as the first settlement of Normans). The assumptions underlying the study of genetic structure, based on HLA allele polymorphism, are that these three towns are located in areas that can be distinguished according to historical criteria and that they are likely to have contributed to cultural and probably genetic differences. As such, the high frequency of some alleles in Sciacca and Troina seems to be correlated with Greek, Phoenician, North African, and Arab influence. In accordance with different human settlements in Sicily, we found that the HLA allele frequencies support the existence of genetic differentiation between the western and eastern sides of Sicily. This separation is attributed to Greek colonization in the east and to Phoenician-Carthaginian-Arab influence in the west. Moreover, the comparisons of all allele frequencies between Mediterranean and AfrIcan populations show the same trend, highlighting in some cases European origin and in other cases non-European origin.     

HLA class II nucleotide sequences, 1991

The HLA class II sequences included in this compilation are taken from publications listed in the accompanying paper, Nomenclature for factors of the HLA system, 1990 (Bodmer et al. 1991) and Nomenclature for factors of the HLA system, 1989 (Bodmer et al. 1990). Where discrepancies have arisen between reported sequences the original authors have been contacted where possible, and necessary amendments to published sequences have been incorporated into this alignment. Future sequencing may identify errors in this list and we would welcome any evidence that helps to maintain the accuracy of this compilation. In the sequence alignments identity between residues is indicated by a hyphen (-). Unavailable sequence is indicated by an asterisk (*). Gaps in the sequence are inserted to maintain the alignment between different alleles showing variation in amino acid number.     

Association of HLA class I antigens and HLA class II alleles with vitiligo in a Turkish population

As is the case with many other autoimmune diseases, there is an association between vitiligo and HLA complex. HLA subtypes vary with racial/ethnic background. The purpose of this study was to determine which HLA class I antigens and HLA class II alleles are associated with Turkish vitiligo patients. Forty-one patients with vitiligo and 61 healthy control subjects were typed for HLA class II alleles. Thirty-three out of 41 patients with vitiligo and 100 healthy transplant donors were typed for HLA class I antigens. HLA DNA typing was performed by polymerase chain reaction/sequence specific primer method for class II. HLA typing for class I was performed by serological method. The frequency of HLA DRB1*03 was 0.6340 in patients compared to 0.2950 in controls (P = 0.0014). The frequency of HLA DRB1*04 was found to be 0.6830 in patients compared to 0.2950 in controls (P = 0.00026). The allele HLA DRB1*07 was present in 0.390 of patients compared to 0.0820 of the controls (P = 0.0004). A preventive antigen for the manifestation of vitiligo has not been identified in this study. Our findings suggest that DRB1*03, DRB1*04 and DRB1*07 alleles are genetic markers for general susceptibility to vitiligo in a Turkish population.