A study of Italian pediatric celiac disease patients confirms that the primary HLA association is to the DQ(alpha 1*0501, beta 1*0201) heterodimer.

Celiac disease (CD) has been recently reported to be primarily associated with the DQ(alpha 1*0501, beta 1*0201) heterodimer encoded in cis on DR3 haplotype and in trans in DR5,7 heterozygous individuals. The high incidence of DR5,7 heterozygotes, reflecting the high frequency of the DR5 allele in Italy, makes the analysis of the Italian CD patients critical. Polymerase chain reaction-amplified DNA from 50 CD patients and 50 controls, serologically typed for DR and DQw antigens, was hybridized with five DQA1-specific oligonucleotide probes detecting DQA1*0101 + 0102 + 0103, DQA1*0201, DQA1*0301 + 0302, DQA1*0401 + 0501 + 0601, and DQA1*0501 and a DQB1-sequence-specific oligonucleotide probe recognizing DQB1*0201 allele. As expected by the DR-DQ disequilibria, DQA1*0201 [62% in patients versus 26% in controls, relative risk (RR) = 5] and DQA1*0501 (96% versus 56%, RR = 19) show positive association with the disease. Of CD patients, 92% (50% DR3 and 42% DR5,7) compared to 18% of the controls carry both DQA1*0501 and DQB1*0201 alleles, so that the combination confers an RR of 52, higher than both the risks of the single alleles (DQA1*0501 RR = 19, DQB1*0201 RR = 30), confirming the primary role of the dimer in determining genetic predisposition to CD both in DR3 and in DR5,7 subjects.     

HLA-DQ1 haplotype ruin the effect of cis complementation of DQA10501-DQB10201 in association with trichosanthin-induced immunosuppression

CD8 cell-mediator (M+) or non-mediator (M−) are distinguishable for healthy subjects according to whether their CD8 T cells keep the down-regulatory function in Trichosanthin (Tk)-induced immunosuppression. Tk is a plant protein of 247 amino acid residues purified from a Chinese medicinal herb. The M+ phenotype has been shown in our previous work to be strongly associated with HLA-DQ2. By genotyping with PCR-based techniques, the essential alleles of the DQ2 were identified as DQA1^*0501 and DQB1^*0201, which were either in cis (DR3) or in trans (DR5, DR7) position. A more detailed examination of the HLA association pattern with M+/M− in 42 Chinese candidates, however, revealed another two points of interest. 1) The cis complementation did not work if another DQA1^*01- or DQA1^*02-related haplotype (e.g. DRB1^*0101-DQA1^*0101-DQB1^*0501) were combined. The later seemed to behave like a ‘negative’ factor superimposed on the ‘positive’ role of DQA1^*0501-DQB1^*0201 haplotype in heterozygous condition. 2) In addition to DQA1^*0501, the DQB1^*0201 was actually able to combine all available DQA1 alleles except DQA1^*01 family to form the trans complementation. Again, the DQ1 haplotype acted negatively. It is thus likely that the cis and trans complementary association of DQA1^*0501-DQB1^*0201 could only be detected conditionally or only appeared as a special case in the Tk-induced immunosuppression.     

Genetic differences in HLA-DQA1* and DQB1* allelic distributions between celiac and control children in Santiago, Chile.

Celiac disease is a permanent gluten intolerance strongly associated with HLA class II antigens. The over presentation of particular HLA alleles and haplotypes has been described in several populations. Different lines of evidence obtained during the last years suggest that a particular HLA-DQ heterodimer, encoded by the DQA1*0501 and DQB1*0201 genes in cis or trans conformation, confers the primary disease susceptibility. We report the HLA class II allelic distribution and DQA1/ DQB1 genotypes in 62 Chilean celiac patients compared with 124 control subjects in Santiago, Chile. We found a pronounced increase of the "susceptible" alleles :DQA1*0501 (0.480 vs 0.169, Pc < 0.0005), DQB1*0302 (0.430 vs 0.242, Pc = 0.002) and DQB1*0201 (0.250 vs 0.125, Pc = 0.037) in celiac patients in comparison with control children. As for "protective" alleles, we detected a high frequency of DQA1*0101 (0.310 vs 0.160, Pc = 0.01), DQA1*0201 (0.105 vs 0.010, Pc < 0.0075) and DQB1*0301 (0.250 vs 0.100, Pc = 0.010) in controls. In relation to risk haplotypes, the main combination observed was the conformation DQ8 (DQB1*0302/DQA1*0301) over DQ2 (DQB1*0201/DQA1*0501). In conclusion, results show that celiac disease in Chilean patients is primarily associated with DQ8 conformation. This is concordant with the high frequency of DR4 alleles (in linkage disequilibrium with DQB1*0302) detected in Amerind groups in Chile, where DQB1*0302 is more frequent than DQB1*0201.     

Allelic distribution and the effect of haplotype combination for HLA type II loci in the celiac disease population of the Valencian community (Spain)

The association between human leukocyte antigen (HLA) class II antigens and celiac disease (CD) was analyzed in a Spanish population. No association with DRB1*04 and DQB1*0302 was noted. The main associated haplotype (70.8%) was DRB1*03–DQB1*0201–DQA1*0501(DR3–DQ2), followed by DRB1*07–DQB1*0202–DQA1*0201 (DR7–DQ2) haplotype, which is associated with DRB1*11–DQB1*0301–DQA1*0505 (DR11–DQ7). The combinations of DR3–DQ2 with DR7–DQ2, and DR7–DQ2 with DR11–DQ7, present a twofold risk compared with each haplotype in homozygosis. An independence test in DR3-DQ2 haplotype found that association with CD was attributable to the whole haplotype, but for DR7-DQ2 was secondary to DQB1/DQA1. There is no need of a double gene dosage to increase the risk. CD-associated alleles typing demonstrates a very high negative predictive value to exclude CD in risk groups.     

Oligotyping of celiac multiplex families with the 11th International Histocompatibility Workshop reagents.

Using PCR and SSO probes from the 11th International Histocompatibility Workshop, we oligotyped for HLA-DRB1 gene and DQA1*0501, DQB1*0201 alleles 10 celiac families each with 2 affected children. All families belong to the Italian population except for one, whose mother is originally from Cape Verde island. 8/10 sibling pairs share the DQA1*0501/B1*0201 heterodimer, inherited in cis or in trans arrangement. All the dimer-negative patients were DR4-positive.     

Novel HLA-DR2 and -DR3 haplotypes among Norwegian Caucasians

In the Northern European population, all DR2 haplotypes encoded by DRB1*1501 have previously been found to carry the DQA1*0102 and DQB1*0602 alleles, and DR3 haplotypes have been found to carry the DQA1*0501 and DQB1*0201 alleles. Here we report a novel recombinant DR2 haplotype carrying the DRB1*1501, DQA1*0102 and DQB1*0603 alleles as well as a novel recombinant DR3 haplotype carrying the DRB1*0301, DRB3*0101, DQA1*0102 and DQB1*0602 alleles.     

Polymorphism within the HLA-DQB1*02 promoter associated with susceptibility to coeliac disease

Susceptibility to coeliac disease is associated with a particular HLA-DQαβ heterodimer encoded by the DQA1*0501 and DQB1*02 genes. A single base polymorphism in the DQB1*02 promoter region in DR7, DQA1*0201, DQB1*02 haplotypes was observed, associated with an increased susceptibility to the disease. This finding suggests a novel mechanism of susceptibility to immune-mediated diseases.     

Allele and haplotype frequencies for HLA class II (DQA1 and DQB1) loci in patients with celiac disease from Spain

Celiac disease (CD) is a complex and multifactorial disease, defined as a malabsorptive disorder of the small intestine resulting from ingestion of gluten. Genetic susceptibility to CD has been associated with human leukocyte antigen (HLA)-DQ2 heterodimer, encoded by the DQA1*0501 and DQB1*02 genes. However, HLA risk factors do not explain the whole genetic predisposition: not all DQ2-encoding haplotypes confer equal susceptibility to CD. The aim of the present work was to confirm the aforementioned findings in a southern European population. With this purpose, 136 unrelated children diagnosed with CD were typed at the DNA level for HLA-DQA1 and -DQB1 loci. Patients are currently attended at the Donostia Hospital (province of Guipúzcoa, Spain). HLA class II typing was performed by polymerase chain reaction-sequence specific primer procedures. Conspicuous frequencies of the alleles associated with susceptibility to CD were observed (DQA1*0501: 0.592, DQB1*0201: 0.471). Accordingly, the haplotypes DQA1*0501-DQB1*0201 and DQA1*0201-DQB1*0202 revealed a strong linkage disequilibrium (18.84% and 18.75%, respectively) when compared with the Spanish general population. Of the total sample, 93.4% (127 individuals) were carriers of DQ2 heterodimer, either in homozygosis or in heterozygosis. This percentage coincides with figures reported in previous studies, implying the effect of other genes in the development of CD.     

Molecular characterization of HLA class II genes in celiac disease patients of Latin American caucasian origin

Abstract: In the present study, the polymorphic domain of HLA class II genes present in a pediatric population of Argentinian celiac disease patients was analyzed by hybridization to sequence-specific oligonucleotides and DNA sequencing. Sixteen out of 16 DR5/7 heterozygous patients bore the DQA1*0501 and DQB1*0201 alleles implicated in the DQ2 risk specificity. The second exon of DQA1, DQB1 and DRB1 genes from 2 DR5/7 patients was characterized by DNA sequencing. The following alleles were found in both patients: DRB1*1101 and DRB1*0701; DQB1*0301 and DQB1*0201; DQA1*0501 and DQA1*0201. Previous serological analysis in this population had shown the presence of DQ2 in 95% of the patients (40% in controls) and a negative association with DQ1 haplotypes, suggesting the presence of other "permissive" or neutral alleles. The following HLA-DQB1 alleles, besides DQB1*0201, were identified in 31 CD patients: DQB1*0301, 0302, 0401 and 0402. All these alleles share a common pattern of residues between positions 84 and 90, and distinct from that present in DQ1-related alleles.     

The HLA DQB 1*0502 allele is neutrally associated with insulin-dependent diabetes mellitus in the Sardinian population

In the Sardinian population a very high incidence of insulin-dependent diabetes mellitus (IDDM) and the lack of HLA-DR2 protective effect due to the high frequency of the A2, Cw7, B17, 3F31, DR2, DQw1 extended haplotype has been reported. This haplotype, carrying a Serine at position 57 of the DQB1*0502 allele, has been previously reported to be underrepresented in patients when compared to controls. In order to provide an explanation for this finding, we defined by RFLP analysis the HLA haplotype of 45 Sardinian IDDM patients and 49 controls. All DR-2DQw1 subjects were molecularly characterized at the HLA DQA and DQB loci. All DR2-positive patients and the vast majority of the DR2-positive controls had the DQB1*0502 allele at the DR2-linked DQB1 locus, with no statistically significant difference between the two groups. All DQA1 genes were the ones expected, with only two exceptions. Nine out of 10 of the DR2-positive patients were compound heterozygotes for DQB1*0201/DQB1*0502 alleles; only this allele combination was significantly increased (p less than 0.0003). Our data suggests that a) the DQB1*0502 allele is neutral for IDDM development and b) the susceptibility to IDDM in our DR2-positive patients is related to the compound heterozygous state between the neutral DQA1*0102/DQB1*0502 and the susceptibility DQA1*0501/DQB1*0201 alleles.     

Cis-trans complementation of DQA1-DQB1 genes are modulated by DQ alleles: an immunogenetics analysis of DQ association with the down-regulatory function of CD8 cells in trichosanthin-induced immunosuppression

The initiation of a CD8 cell-mediated pathway (M⁺) was adopted as a phenotypic trait to analyse genetic predisposition in trichosanthin (Tk)-induced immunosuppression. Tk is a natural protein antigen with 247 amino acid residues. Based on DNA typing for DR, DQ, DP and TAP genes, data in this paper indicate that only DQ genes were primarily involved and that the alleles DQA1*0501 and DQB1*0201 were strongly associated with the M⁺ phenotype in cis (on DR3 haplotype) or trans (on DR5/DR7 heterozygotes) complementation. This is consistent with our observation that only the DQ-positive cells were capable of expanding after being co-cultured with Tk for 96h. Two points of interest were noted. (1) The susceptible haplotype DRB1*0301-DQA1*0501-DQB1*0201 showed an association with the M⁺ phenotype only if combined with DRB1*04-, DRB1*08-, or DRB1*09-related haplotypes. When co-presented with DRB1*11-, DRB1*15-, DRB1*07-related haplotypes, however, no cis complementation could be detected. A detailed analysis of the association patterns indicated that the DQB1 locus of the non-susceptible haplotypes was the main factor for up- or down-modulation. (2) For M⁺ phenotype-related trans complementation in Tk-induced suppression, it was found that not only DQA1*0501-DQB1*0201 (DR5/7) alleles, but also associated DQA1*0301-DQB1*0201 (DR4/7, 9/7) alleles, were involved. The allele DQB1*0201 was not associated with the DQA1 alleles in DRB1*01-, DRB1*15-, DRB1*13-, DRB1*07-related haplotypes. The results obtained indicate that there are some additional genetic factors involved in the functional expression of cis and trans complementation of DQA1 and DQB1 genes, among which the DQ alleles play a critical role as self-regulators.     

HLA DQ AND DP IN FINNISH FAMILIES WITH CELIAC DISEASE

We studied DQA1, DQB1, and DPB1 alleles in 31 Finnish families with celiac disease (CD). All healthy first-degree relatives underwent clinical investigation, including in most cases biopsy, to establish whether clinically silent CD was present. Our results indicate that all patients, having either full clinical CD or its silent form, had the susceptibility alleles DQA1*0501 and DQB1*0201. The different clinical outcomes of CD were therefore not directly determined by the DQ alleles. The frequency of DPB1*0101 was also higher in CD patients, but the association appeared secondary to those of DQA1*0501 and DQB1*0201 (DQ2). The primary association of CD with the DQA1*0501 and DQB1*0201 alleles, rather than with HLA haplotypes, was confirmed in multiplex families.     

Oligotyping of Italian celiac patients with the 11th International Histocompatibility Workshop reagents.

Oligotyping for HLA-DRB1, DQA1 and DQB1 specificities has been performed on PCR-amplified DNA from 55 Italian celiac children, living in Rome, and 50 blood donors. 52.6% of CD patients were DR3;DQA1*0501;DQB1*0201-positive versus 14% of controls (RR = 6.85) and 34.5% were DR5,7;DQA1*DQB1*0201-positive versus 2% of controls (RR = 25.86). 7 patients (12.7%) were negative for the DQA1*0501/B1*0201 dimer: 3 of them were DR4 (5.4%) and the others typed as DR1,5; 1,7; 5,7 and w6,7. No patient was negative for both DQA1*0501 and DQB1*0201 alleles.     

T cells recognizing an HLA-DQ alpha beta heterodimer encoded in cis by the DR4DQw4 haplotype and in trans by DR4DQw8/DRw8DQw4 heterozygous cells

We generated alloreactive DQ-specific CD4+ T-lymphocyte clones. One of these (TLC HH58) was only restimulated with cells having the DR4DQw4 haplotype or cells being DR4DQw8/DRw8DQw4 heterozygous. The former cells carry the DQA1*0301 and DQB1*0401 alleles in cis position while the latter cells carry DQA1*0301 and DQB1*0402 alleles (DQB1*0402 is identical to DQB1*0401 except for codon 23) in trans position. Thus, very similar DQ alpha beta heterodimers are encoded by these genes in both cis and trans positions, which are recognized by the same T cells.     

系统性红斑狼疮临床表现与HLA Ⅱ类单倍型关联的研究

目的 探讨系统性红斑狼疮（ＳＬＥ）易感基因致病的模式。方法 利用多聚酶链反应／特异寡核控针杂交（ＰＣＲ／ＳＳＯＰＨ）方法检测１１３例确诊ＳＬＥ病人的ＨＬＡⅡ基因型并进行单倍型分析。结果 ＳＬＦ病人的单倍型具有特定的结构特征,即以２个或３个重型ＳＬＥ相关基因共同组成１个单倍型;反之,２个或３个轻型ＳＬＥ相关基因组成另１个单倍型;重型基因和轻型基因之间很少有强连锁不平衡。ＤＱＡ１＊０３０１－ＤＱＢ１＊     

用聚合酶链反应-直接测序分型法研究江苏汉族人群HLA-DQA1和DQB1基因多态性

目的检测江苏地区汉族人群HLA-DQA1和DQB1等位基因及单倍型的频率，分析该人群DQA1、DQB1基因多态性和DQA1-DQB1单倍型特点。方法应用聚合酶链反应-直接测序分型法（PCR-sequence-based typing ，PCR-SBT）方法对100名健康、无血缘关系的江苏汉族人群的HLA-DQA1和DQB1进行基因分型。结果共检出7个DQA1等位基因和13个DQB1等位基因。DQA1等位基因中，DQA1＊0301／02／03的基因频率最高（29．5％），其次为DQA1＊0501（18．5％）、DQA1＊0102（17．0％）、DQA1＊0201（12．5％）；DQB1等位基因中，DQB1＊0201／02（21．5％）、DQB1＊0301／09（14．5％）、DQB1＊0303（13．5％）和DQB1＊0603（11．5％）最为常见。分析得出30种DQA1-DQB1单倍型，DQA1＊0301／02／03-DQB1＊0303（12．5％）、DQA1＊0201．DOB1＊0201／02（10．5％）、DQA1＊0501-DQB1＊0201／02（9．5％）、DQA1＊0501-DQB1＊0301／09（7．0％）为常见的单倍型。结论江苏汉族人群HLA-DQA1和DQB1基因具有较为丰富的多态性，基因频率分布具有中国北方群体的特征且具有一定的独特性。     

HLA-DQA1 AND DQB 1 ALLELE AND GENOTYPE CONTRIBUTION TO IDDM SUSCEPTIBILITY IN AN ETHNICALLY MIXED POPULATION

HLA-DRB1, DQA1 and DQB1 alleles have been determined in 42 families with one IDDM proband and 64 healthy controls, by oligotyping (PCR-SSO) using primers and probes from the XI International Histocompatibility Workshop. A positive DRB1 *03 and DRB1 *04 association with the disease was observed, whereas DRB 1*11 and DRB 1 *07 showed negative association but 19% of patients carried DRB1 alleles different to DRB 1 *03 or *04. When single alleles were considered, DQA1 *03 showed the strongest association with susceptibility to the disease (RR = 8.2, Pc = 0.00001) but this association was outgrown by 2 and 3 allele combinations, with genotype DRB 1 *04-DQA 1 *03-DQB1*0302/DRB1*03- DQA 1*0501- DQB 1*0201 showing the strongest association (RR = 28, Pc = 0.002). Application of the relative predispositional effect (RPE) method to our data, revealed a further susceptibility risk provided by the DRB1*13-DQA1*0102-DQB 1*0604 haplotype once DR3 and DR4 haplotypes were removed. When DQA1-DQB1 genotypes were analysed for presence of Arg 52 (DQ α) and absence of Asp 57 (DQ β), genotypes SS/SS were found significantly increased in diabetics. Interestingly, one of the strongest associations with the disease was observed with the DQA 1*03-DQB 1*0201 combination encoded mainly by genes in trans (RR = 11.7 Pc = 0.00004). These observations and their comparison with DR-DQ haplotypes in more homogeneous ethnic groups support the stronger influence of the DQ molecule rather than the individual DR or DQ alleles in the susceptibility to IDDM. They also emphasize the need for detailed HLA haplotype studies in non-Caucasian and ethnically mixed populations to gain further insight into the nature of genetic and environmental factors contribution to autoimmunity.     

The distribution of DQ genes in the Saharawi population provides only a partial explanation for the high celiac disease prevalence

Celiac disease (CD) is a multifactorial disorder of the small intestine caused by a permanent dietary intolerance to gluten. The combined presence of the HLA class II DQA1*0501 and DQB1*0201 alleles represents the major genetic component for disease predisposition. It has been shown that the Saharawi refugees living in northern Africa have a very high frequency of CD. In the present study we analysed this population to evaluate the degree of association with CD of the haplotypes and genotypes at the main HLA-DQB1 and DQA1 disease loci. We found a strong association of the DR3, DQB1*0201-DQA1*0501-positive haplotypes and genotypes. A very high frequency of DR3, DQB1*0201-DQA1*0501 was also observed in the general Saharawi population. These results indicate that there is a good correlation between disease prevalence and frequency of the main predisposing haplotype in the background population. However, the correlation is incomplete because similar frequencies of DR3 are also observed in populations such as the Sardinians showing a much lower prevalence of CD. We can conclude that the distribution of DQ genes in the Saharawi population only provides a partial explanation for the high prevalence of CD. Other factors, such as rapidly changing dietary habits and/or non-DQ genes, may also play some role.     

Absence of DRwl5/3 and of DRwl5/7 heterozygotes in Caucasian patients with systemic lupus erythematosus

Polymorphic MHC class II molecules determine immune responsiveness towards pathogens and also contribute to susceptibility or resistance to a number of different autoimmune diseases, including systemic lupus erythematosus (SLE). The HLA-DR and -DQ alleles of 52 patients with SLE were analyzed by serology and, for 42 patients, HLA-DRB1, -B3 and DQB1 allelic polymorphism was determined by oligotyping on PCR-amplified DNA. While we confirm the increase of DR3 (44.2% versus 16% in controls; p less than 0.001) reported by others, we observed a complete absence of DRw15(2)/DR3 and DRw15(2)/DR7 heterozygotes among Caucasian patients. Moreover HLA-DQB1 oligotyping revealed the absence of DQB1*0602/0201 heterozygotes in our panel of Caucasoid SLE patients. Since both DR3 and DR7 haplotypes share the same DQB1*0201-encoded DQ beta chain, and since DRw15 is known to be in linkage disequilibrium with DQA1*0102, it can be predicted that DQA1*0102/DQB1*0201 combinations are absent in Caucasian patients. We therefore propose that a DQA1*0201/DQB1*0201-encoded HLA-DQ trans-dimer formed in these heterozygotes might function as a suppressor-inducer molecule that confers resistance against SLE.     

DQCAR microsatellite polymorphisms in three selected HLA class II-associated diseases

Abstract: DQCAR is a very polymorphic CA repeat microsatellite located between the HLA DQA1 and DQB1 gene. Previous studies have shown that specific DQCAR alleles are in tight linkage disequilibrium with known HLA DR-DQ haplotypes. Of special interest was the fact that haplotypes containing long CA repeat alleles (DQCAR > 111) were generally more polymorphic within and across ethnic groups. In these latter cases, several DQCAR alleles were found even in haplotypes containing the same flanking DQA1 and DQB1 alleles. In this work, three HLA class II associated diseases were studied using the DQCAR microsatellite. The aim of this study was to test if DQCAR typing could distinguish haplotypes with the same DRB1, DQA1 and DQB1 alleles in control and affected individuals. To do so, patients with selected HLA DR-DQ susceptibility haplotypes were compared with HLA DR and DQ matched controls. This included: Norwegian subjects with Celiac disease and the HLA DRB1*0301, DQA1*05011, DQB1*02 haplotype; Japanese subjects with Type 1 (insulin-dependent) Diabetes Mellitus and the HLA DRB1*0405, DQA 1*0302, DQB 1*0401 haplotype; and French patients with corticosensitive Idiopathic Nephrotic Syndrome and the HLA DRB 1*0701, DQA 1*0201, DQB1*0202 haplotype. These specific haplotypes were selected from our earlier work to include one haplotype bearing a short DQCAR allele (celiac disease and DR3, DQ2-DQCAR99) and two haplotypes bearing long DQCAR alleles (Diabetes Mellitus and DR4, DQ4-DQCAR 113 or 115 Idiopathic Nephrotic syndrome and DR7, DQ2-DQCAR 111–121). Additional DQCAR diversity was found in both control and patients bearing haplotypes with long CA repeat alleles. The results indicate that DQCAR typing did not improve specificity in combination with high resolution DNA HLA typing as a marker for these three disorders.