HLA-DQ antigens and DQβ amino acid 57 of Japanese patients with insulin-dependent diabetes mellitus: detection of a DRw8DQw8 haplotype

DQw8 (DQw3.2) on DR4 haplotypes is a susceptibility gene for development of insulin-dependent diabetes mellitus (IDDM) in Caucasoids, possibly because it encodes a non-Asp amino acid (aa) (i.e. Ala) at residue 57 of the DQ beta chain (non-Asp-57). Most Caucasoid IDDM patients are homozygous non-Asp-57. We have examined 14 Japanese IDDM patients, selected to be either DR4 or DRw9 (associated to IDDM among Japanese). Their DQB1 alleles and the aa encoded by their DQB1 codons 57 were identified, using 11 different sequence-specific oligonucleotide probes. Secondly, they were examined with DQw8 specific T lymphocyte clones and with anti-DQ monoclonal antibodies. The DQB1 genes on their DR4 and DRw9 haplotypes in all cases encoded Asp-57. Two patients were Asp-57 homozygous, the rest were Asp-57/non-Asp-57 heterozygous. The DR4 haplotypes all carried DQw4 (rather than DQw8), and the DRw9 haplotypes all carried DQw9. Furthermore, five of six DRw8 positive patients carried a previously undetected DRw8DQw8 haplotype, where both the DQA1 and DQB1 genes were similar to those usually found on the DR4DQw8 haplotype. Thus, the DR/DQ allele combinations and aa residue 57 of the DQ beta chain of Caucasoid and Japanese IDDM patients are largely different.     

HLA-DR, DQ genotypes of celiac disease patients and healthy subjects from the West of Ireland

Celiac disease (CD) has one of the strongest class II HLA associations of any human illness. We used DNA-RFLP typing to study the class II HLA genotypes of celiac disease patients from the West of Ireland, the geographic area with the highest rate of celiac disease in the world. We confirmed the high frequency of HLA-DR3 in this population, and we were also able to demonstrate the additional risk of developing celiac disease imparted by HLA-DR7. This was done by clearly distinguishing DR7, DQ2 haplotypes from DR7, DQ9 haplotypes, and by "subtraction analysis" of haplotype frequencies. As reported in other populations, most of the patients without DR3 were heterozygous for DR7 and DR11 or 12 (DR5), or had DR4. We used PCR-RFLP and direct sequencing of amplified DNA to examine HLA-DR4 subtypes. The frequency of HLA-DR4 was markedly decreased in patients compared with controls (p=0.000001) and there was a significant alteration of DR4 subtypes of the patients compared with controls (p=0.0227). Moreover, all of the CD patients (5 of 5) with DR4 had a haplotype associated with the DQB1*0302 allele compared with only 11 of 23 control subjects with DR4. Our results in this population with exceptionally high risk of CD strongly support the DQ heterodimer hypothesis and suggest that the recently described sequence difference between the DQB1*02 alleles of DR3 and DR7 may contribute to a synergistic increased risk when these haplotypes are inherited together. In addition, our findings suggest a role for HLA-DQ in DR4-associated CD.     

Tumour Necrosis Factor-β Gene RFLP Alleles in Finnish IDDM Hapiotypes

The genes located between class II and class I HLA genes including polymorphic tumour necrosis factor (TNF) genes may contribute to the disease susceptibility in IDDM. Restriction fragment polymorphisms of the TNF-beta gene have been found to be fixed in the major IDDM susceptibility haplotypes, the B62,DR4 haplotype being associated with the 10.5-kb fragment and the B8,DR3 haplotype with a 5.5-kb fragment. We studied this TNF polymorphism in a sample of diabetic families. In all IDDM-associated haplotypes (n = 129) the 5.5-kb allele was more frequent than in haplotypes found only in healthy family members (n = 112) (58.1% versus 40.2%, P < 0.01). Among IDDM haplotypes the B62,DR4 haplotype was characterized by the 10.5-kb TNF fragment, whereas two other common Finnish IDDM-associated DR4 haplotypes--A24,B39,DR4 and A2,B56,DR4--had the 5.5-kb TNF fragment. Both IDDM-associated and non-associated DR3 positive haplotypes were linked to the 5.5-kb fragment. The distribution of various combinations of TNF alleles in IDDM probands (n = 63) did not differ from that expected according to the Hardy-Weinberg distribution. Our results indicate that the 10.5-kb allele of TNF-beta gene as such is not a risk factor contributing to DR4/DQ8-associated susceptibility. Alternatively, there may be heterogeneity in pathogenetic effector mechanisms.     

中国汉族白血病患者及其相关人群罕见的HLA-DR/DQ连锁不平衡研究

 目的 研究中国汉族白血病患者及其相关人群罕见的HLA-DR/DQ连锁不平衡单倍型。方法 对2000－2005年在我院进行异基因造血干细胞移植前HLA配型的白血病患者及与患者有血缘关系的家系供者共1500例的血液标本，采用低分辨序列特异性引物聚合酶链反应（PCR-SSP）方法进行HLA-DR/DQ基因分型，并对两位点间连锁不平衡参数进行统计学分析。1500例中患者650例，平均年龄25岁；家系供者850例，平均年龄42岁。结果 在41例的血液标本中发现13种罕见的连锁不平衡单倍型，主要为HLA-DQ8 或HLA-DQ9与不同DR位点的连锁。其中DR14/DQ4、DR4/DQ5、DR9/DQ6、DR9/DQ7、DR8/DQ8、DR9/DQ8、DR12/DQ8、DR13/DQ8和DR14/DQ9共9种单倍型尚未见报道。650例白血病患者中有20例存在12种罕见的连锁不平衡单倍型，850例家系供者中有21例存在8种罕见的连锁不平衡单倍型。DR8/DQ8单倍型只见于家系供者，而DR14/DQ4、DR12/DQ6、DR11/DQ8、DR13/DQ8和DR14/DQ9单倍型则只见于白血病患者。41例HLA-DR/DQ基因分型结果显示，连锁不平衡单倍型与DR52（DRB3）宽抗原相关联者占58.5%（24/41），与DR53（DRB4）宽抗原相关联者占36.6%（15/41），而与DR51（DRB4）宽抗原相关联者仅占4.9%（2/41）。所发现单倍型频率最高的为DR12/DQ8（0.0023）和DR9/DQ8（0.0023），其次为DR11/DQ9（0.0020）和DR12/DQ9（0.0017）。13种连锁不平衡单倍型的绝对及相对连锁不平衡参数均为负值，说明它们在中国汉族人群中较为罕见，并处于连锁不稳定状态。结论 发现了罕见的DR/DQ连锁不平衡单倍型，对补充中国汉族人群HLA-DR/DQ基因的连锁不平衡类型，提高HLA分型结果的准确性具有一定意义；同时，DR/DQ连锁不平衡单倍型在不同人群中的差异为疾病关联研究提供了思路。     

HLA多态性在广东汉族人群分布的特殊性

目的探讨人类白细胞抗原（ｈｕｍａｎｌｅｕｃｏｃｙｔｅａｎｔｉｇｅｎＨＬＡ）在广东汉族群体中的遗传特征。方法采用免疫磁珠单抗血清学技术进行ＨＬＡ－Ａ、Ｂ分型和聚合酶联反应－序列特异性引物（ｓｅｑｕｅｎｃｅｓｐｅｃｉｆｉｃｐｒｉｍｅｒｓＰＣＲ－ＳＳＰ）进行ＨＬＡ－ＤＲ、ＤＱ分型,调查了４０６名广东汉族健康献血员。结果识别ＨＬＡ－Ａ、Ｂ、ＤＲ和ＤＱ座位１０６个特异性,４１４２条单倍型,发现ＨＬＡ－Ａ３３－Ｂ５８－ＤＲ１７－ＤＱ２和ＨＬＡ－Ａ２－Ｂ４６－ＤＲ９－ＤＱ９在广东汉族中呈现高频率。结论ＨＬＡ－Ａ３３－Ｂ５８－ＤＲ１７－ＤＱ２和ＨＬＡ－Ａ２－Ｂ４６－ＤＲ９－ＤＱ９,这两条单倍型在广东汉族人群中的分布频率与相关文献其他民族和人群相比为显著连锁不平衡单倍型。     

A new HLA-DR2 extended haplotype is involved in insulin-dependent diabetes mellitus susceptibility

To ascertain why HLA-DR2 seems to confer only a moderate resistance to insulin-dependent diabetes mellitus (IDDM) in the high-incidence population of Sardinia, Italy, 32 families having one individual affected with IDDM (the proband) and 31 families without IDDM history were randomly selected from the same geographical area and serologically and molecularly HLA typed. The 64 haplotypes of the probands were then compared with the 122 haplotypes determined in the parents from the control families. Two haplotypes were found to have the highest percentage in the general population (12.3% and 7.3%, respectively). The first is the already described "Sardinian" extended haplotype A30, Cw5, B18, 3F130, DR3, DRw52, DQw2 (39.0% in IDDM patients). The second is an extended haplotype that has not been identified before (A2, Cw7, B17, 3F31, DR2, DQw1), and, due to the DR2 allele, we expected it to be decreased in IDDM. However, a stratified analysis performed by removing the DR3 and DR4 haplotypes showed that the frequency of this haplotype is significantly increased in IDDM patients. A peculiar feature of this haplotype is its DQw1 allele, which is DQB1*0502 and has serine in position 57 of the DQ beta chain. The absence of an aspartic acid in this position seems to confer susceptibility to IDDM and not resistance. The fact that DQB1*0502 was present in 75% of the Sardinian DR2 haplotypes may explain why, in Sardinia, DR2 is not providing the commonly recognized resistance to IDDM.     

DR4 subtypes and their molecular properties in a population-based study of Swedish childhood diabetes

The aim of this study was to determine the association between childhood insulin-dependent diabetes mellitus (IDDM) and HLA-DR4 subtypes and to test in a population-based investigation whether the DR4 association has an effect independent to that of DQ. First, HLA genotyping identified DR4 in 337/425 (79%) patients and 148/367 (40%) controls (Odds Ratio 5.67; p<0.01). Second, a total of 14 DR4 subtypes were detected by PCR and sequence specific oligo probes. Only two DR4 subtypes, DRB1*0401 (62% patients and 25% controls; OR 4.95, p<0.01) and *0404 (16% patients and 10% controls; OR 1.67, p<0.05) were however positively associated with the disease. These two subtypes were positively associated only when linked to DQB1*0302-DQA1*0301 (DQ8) (56% patients and 14% controls; OR 7.69, p<0.01; 15% patients and 10% controls; OR 1.55, p<0.05, respectively). When DRB1*0401 was linked to DQB1*0301-DQA1*0301 (DQ7) (6% patients and 11% controls; OR 0.52, p<0.05), this DR4 subtypes was negatively associated with IDDM. Third, tests of strongest association allowed the following ranking of alleles or haplotypes: DQB1*0302-DQA1*0301 (DQ8) >DQB1*0302 > DRB1*0401 >DRB1*0404 and the association of DRB1*0401 has a significant effect in DQ8 positive IDDM patients. We conclude that the DR4 association with IDDM is secondary to DQ by linkage disequilibrium, which support the role of HLA-DQ as a primary genetic risk factor for IDDM.     

Sequence analysis of HLA class II genes from insulin-dependent diabetic individuals

To examine the nature of HLA-linked genetic susceptibility to insulin-dependent diabetes mellitus (IDDM), we compared HLA class II gene sequences from IDDM patients and control individuals. Genomic libraries were constructed from two siblings with IDDM, typed serologically as DR3,w6 and DR3,4. These libraries represent the HLA haplotypes (DR3, DR4) most frequently associated with IDDM, as well as one haplotype found less often. Individual genomic clones were identified and assigned to specific loci and haplotypes. The nucleotide sequence was then determined from the variable second exon from the HLA-DQ, DQß, and DRß genes from all three haplotypes. Sequence variation within the DQ genes could not be correlated with the disease. For all three haplotypes, the DQ sequence from the IDDM patient was identical to the DR-matched control sequence. Similarly, for the DR3 haplotype, the DQß sequences matched all control DR3 alleles. The DQß sequence from the DR4 haplotype was identical to the predominant DR4 allele (DQß 3.2) but differed at four amino acid residues from the other major DR4 DQß sequence (DQß3.1) found rarely among IDDM patients. Sequence analysis of the DQß gene from the DRw6 haplotype revealed a new allele that differed from the DQß allele from a control DR6 allele at two residues. The DRß genes from these three haplotypes also did not show any sequence features uniquely associated with IDDM, although the frequency of certain allelic variants in all three of these haplotypes may be altered in the IDDM population. A particular group of amino acids was found to be shared between the DRß-1 alleles from the DR4 and DRw6 haplotypes and may be involved in genetic susceptibility to IDDM.     

Additional association of intra-MHC genes,MICA and D6S273, with Addison's disease

Intra-MHC sequences including MHC class I chain-related genes (MICAs), D6S273 and D6S2223 are associated with autoimmune diseases in addition to HLA class II. In the current study, we ascertained the haplotypes of 57 Caucasian patients with Addison's disease composed of these genetic markers and compared them either with 72 general population controls or with 105 child controls carrying Addison's disease high-risk DR3-DQ2/DR4-DQ8 genotypes. The MICA-A5.1/A5.1 genotype as well as HLA DR3/4 especially with DRB1*0404 were the main susceptibility markers. The homozygous MICA-A5.1/A5.1 genotype was significantly more frequent in the patients with Addison's disease (61%) than in the healthy controls (6%). The MICA-A5.1 allele was increased on both the DR3 and DR4 haplotypes, independent of DQ and DRB1 subtyping, in the patients with Addison's disease compared with the controls. Furthermore, the D6S273*140 allele on the DR3 haplotype and the D6S273*134 allele on the DR4 haplotype in the DR3/4 heterozygotes influenced susceptibility relative to the DR3/4 controls. The risk for Addison's disease was increased for the DR3-D6S273*140-MICA-A5.1/DRB1*0404-D6S273*134-MICA-A5.1 genotypes compared with that conferred by the DR3/4 controls. Susceptibility to Addison's disease is influenced by the genes around MICA and D6S273 for both the HLA DR3-DQ2 and DR4-DQ8 haplotypes.     

A new predictive model for insulin-dependent diabetes mellitus susceptibility based on combinations of molecular HLA-DRB1 and HLA-DQB1 pockets

With a view to establishing an accurate evaluation of the genetic predisposition to insulin-dependent type I diabetes (IDDM), we have built a model based on the characteristics of the relevant pockets of HLA-DR and -DQ molecules. Three independent populations were investigated. Group I and group II were Caucasoids, while group III was Japanese, including a total of 1,166 IDDM patients and 2,391 healthy controls. We formulate the hypothesis that suceptibility to IDDM is not only explained by the absence of Aspartate 57 (negative charge) from pocket 9 of DQB1 (P9DQ), but also by the presence of an electric charge (+/- vs. neutral), generated by residues 70, 71 and 74 in pockets 4 of DRB1 (P4DR) and DQB1 (P4DQ) molecules. The respective weight of each pocket, was evaluated in a multivariate analysis based on the logistic regression method. The 4 components (2 loci and 2 pockets) were systematically analysed in the computer model. It was clearly shown that the structural characteristics of pockets P9DQ-P4DR and, to a lesser degree that of P4DQ, account for IDDM predisposition. On applying the model to the whole international series, it appears that the highest risk concerns individuals with P9DQ non-Asp 57 and both the charged P4 of DRB1 and P4 of DQB1, conferring a 80% prediction of susceptibility. Conversely, P9DQ Asp and neutral P4DR and P4DQ give the lowest risk with a predictive value of 5%. This model of risk susceptibility prediction fits remarkably well with the observed distribution in a worldwide study. It allows a better evaluation of the respective role of HLA-DR and -DQ molecules as a major component of susceptibility to IDDM.     

MICA marks additional risk factors for Type 1 diabetes on extended HLA haplotypes: an association and meta-analysis

The association of the HLA complex on chromosome 6 does not explain total linkage of the HLA region to Type 1 Diabetes (T1D), leading to the hypothesis that there may be additional causal genes in the HLA region for immune-related disorders. Reports on the MHC Class I chain-related A (MICA) gene as candidate for association with T1D are contradicting. We investigated whether variation in MICA is associated to T1D in a cohort of 350 unrelated individuals with juvenile-onset T1D and 540 control subjects, followed by a meta-analysis of 14 studies. We also investigated an HLA-independent association for MICA with T1D. In our case-control study, we found that the MICA*A5 variant was significantly associated with an increased risk for T1D, while MICA*A6 was significantly associated with a decreased risk that was confirmed by our meta-analysis. However, the meta-analysis did not show an association of MICA*A5 T1D. Analysis of MICA alleles conditional on T1D-associated high-risk MHC class II haplotypes revealed that MICA*A6 was associated with an increased risk for T1D when this marker co-occurred with HLA DQ2DR17 T1D-risk-haplotypes. In contrast, MICA*A6 reduced the risk from the HLA DQ8DR4 T1D-risk haplotype. Moreover, MICA*A9 showed a significant association to increased risk for T1D on DQ8DR4 haplotypes. Co-inheritance of MICA*A6 with the HLA DQ2DR17 haplotype in T1D indicates this haplotype may carry the additional genetic factors for T1D, but our study does not support an independent association between MICA variants and T1D.     

Extensive study of DRB, DQA, and DQB gene polymorphism in 23 DR2-positive, insulin-dependent diabetes mellitus patients.

To gain insight into the HLA subregions involved in protection against insulin-dependent diabetes mellitus (IDDM) we investigated the polymorphism of HLA-DR and -DQ genes in 23 DR2 IDDM patients. Results show the following. (1) Fourteen patients (61%) possess the DRB1, DRB5, and DQB1 alleles found in DRw16/DQw5 healthy people. These data contrast with the 5% of DRw16 normally found in DR2 populations and are in agreement with former observations supporting that the DRw16 haplotype is not protective. (2) Nine DR2 patients, i.e., 39% versus 95% in published DR2 controls, possess the DRB alleles found in DRw15 unaffected people. Among them, six patients have also DQA1 and DQB1 alleles identical to those found in DRw15/DQw6 healthy individuals. These data confirm that the DRw15/DQw6 haplotype is protective but indicate that none of the DR or DQ alleles, alone or in association, confers an absolute protection. (3) Our most striking results concern the very high frequency of recombinant haplotypes among the DRw15 patients: 3 of 9. In these three patients recombinations led to the elimination of both DQB1 and DQA1 alleles usually associated with DRw15. This strongly suggests that the occurrence of IDDM in these DRw15 patients is due to the absence of the usual DQ product and thus reinforces the assumption that DQ rather than DR region is involved in the protection conferred by the DRw15/DQw6 haplotype. Finally, analysis of the non-DRw15 haplotypes in heterozygous patients showed that IDDM can occur in the absence of any DQ alpha beta heterodimer of susceptibility.     

Association of pulmonar tuberculosis with HLA system antigens in Northeastern Mexico

BACKGROUND: Genetic susceptibility to pulmonary tuberculosis (PTb) has been associated with the HLA (Antigens of the Human Leukocytes) system of the MHC (Major Histocompatibility Complex), mainly with HLA-DR and-DQ antigens. Based on this assumption we carried out a case control study to determine the association of PTb with the HLA-DR and-DQ antigens among a sample of patients attending a medical unit belonging to the Mexican Social Security System (IMSS). METHODS: HLA system phenotypes from cases (n=50) and controls (n=417), were defined serologically using a complement dependent microlymphocytotoxic assay. B lymphocytes were obtained using immunobeads. The allele and haplotype frequencies were determined using the Arlequin version 3.01 computer software. Relative risk (RR) was calculated with the Epimax Table Calculator. RESULTS: The alelles HLA-DR11(5), -DR16(2) and -DQ7(3) and haplotypes /DR11(5)-DQ7(3), /DR14(6)-DQS(1) and /DR16(2)-DQ7(3) had a higher frequency in cases than in controls (RR>1, p<0.05). The HLA-DR17(3) and DQ8(3) alelles and /DR17(3)-DQ2 and /DR4-DQ8(3) haplotypes had a higher frequency among controls than among cases (RR<1, p<.05). CONCLUSIONS: These results indicate an association between PTb with the HLA-DR and -DQ antigens in a Mexican sample. Our results are similar to those found in the international literature.     

HLA-A, B, C, DR antigens, Bf, C4 and glyoxalase I (GLO) polymorphisms in French Basques with insulin-dependent diabetes mellitus (IDDM)

The Basques were previously shown to present a high frequency of HLA—B18 and Bf Fl. which are known to be associated with insulin dependent diabetes mellitus (IDDM). During the VIII International Histocompatibility Workshop, we studied HLA-A, B, C, DR; Bf, C4 and GLO.I polymorphisms in 51 unrelated French Basque IDDM patients and in 50 controls. Haplotypes were established by family studies in all controls and some patients. Two haplotypes were frequently found in the controls: HLA- A1, Bw57, Bf S, C4 FIS, DR7 and HLA- Aw30, Cw5, B18, Bf Fl, C4 Fs°, DR3. The first one was not found in the patients. All the components of the second haplotype had increased frequencies possibly as a consequence of linkage disequilibrium with HLA— DR3 : a highly significant association between IDDM and HLA-DR3 was observed (90.2% vs 24.0%, relative risk (RR) = 29.1. P < 10⁻¹¹). The HLA-DR4 frequency was slightly increased (37.3% vs 16.0%). and HLA—DR2 was not found. The silent allele C4 s ° was particularly associated with early diagnosed IDDM (86.7% in patients with age at onset under 20 years vs 57.1% in other patients, P < 0.02). The high relative risk for HLA-DR3/DR4 heterozygous vs that of individuals, possibly HLA-DR3 homozygous, supported the hypothesis that two HLA-DR linked genetic factors could be involved in the inheritance of IDDM susceptibility.     

Aspartic acid at position 57 of the HLA-DQβ chain in insulin-dependent diabetes mellitus: An association with one DRw9–DQw9 subtype in the Chinese population

Eighteen unrelated Chinese patients with insulin-dependent diabetes mellitus (IDDM) were analyzed for HLA Class II genes using a variety of molecular biological techniques including restriction fragment length polymorphism (RFLP), polymerase chain reaction with allele-specific oligonucleotides (PCR-ASO) and direct DNA sequencing. The high frequency of DR3/DR4 heterozygotes found in the Chinese with IDDM strengthens the importance of this combination of haplotypes in IDDM susceptibility since it is present in two genetically distant populations--Chinese and Caucasians. The frequency of DRw9, a rare allele in the Caucasian population, is much higher in the Chinese. Moreover, the DQ beta chain linkage of DRw9 was different in IDDM patients compared with control subjects. In contrast with previous results, codon 57 of the DQ beta chain was aspartic acid in DRw9 Chinese IDDM patients. Furthermore, one particular DRw9-DQw9 haplotype may be associated with IDDM susceptibility in the Chinese population.     

HLA FIVE-LOCUS HAPLOTYPES IN FINNS

The extreme polymorphism of HLA genes makes them a powerful tool for distinguishing between different genetic populations. Five-locus HLA haplotypes of Finns (from Oulu, Northern Finland) are described here in order to characterize further the migration pathways of the population to Finland after the Ice Age. From random families, 364 haplotypes were obtained. The most frequent Finnish haplotype A3,Cw4,B35,DR1,DQ1 (7.7%) is a Caucasoid ancestral haplotype and is shared with Italians of Celtic and non-Celtic origin. The haplotype A1,Cw7,B8,DR3,DQ2, which occurs in 4.7% of Finns, is the most frequent haplotype in Caucasoids. The haplotypes A3,Cw7,B7,DR2,DQ1 (3.6%) and A2,Cw7,B7,DR2,DQ1 (2.5%) are shared with several Caucasoid populations and the latter also with Jamaican blacks. A2,Cw5,B44,DR5,DQ3 (0.8%) is shared with Italians of Celtic and non-Celtic origin, A2,Cw6,B13,DR7,DQ2 (1.1%) with Caucasoids in the USA and A9,Cw4,B35,DR1,DQ1 (0.8%) with Mongoloids. The haplotypes A2,CW3,B62,DR4,DQ3 (3.0%), A2,Cw2,B27,DR8,DQ4 (1.7%), A2,Cw3,B62,DR6,DQ1 (1.4%) and A2,Cw1,B27,DR4,DQ3 (1.4%) were also found to be among the most frequent in the Finnish population. The most frequent HLA haplotypes are consistent with the postulated ancient migration of populations from southern Scandinavia and Germany to Finland, the most frequent haplotype suggesting a common Celtic origin and one less frequent haplotype suggesting an influence from the east.     

A Tumour Necrosis Factor Beta Gene Polymorphism in Relation to Monokine Secretion and Insulin-Dependent Diabetes Mellitus

HLA-class III region genes may be associated with susceptibility to insulin-dependent diabetes mellitus (IDDM). In this study an NcoI polymorphism of the tumour necrosis factor beta (TNF-beta) gene, which is positioned next to the tumour necrosis factor alpha (TNF-alpha) gene in the HLA class III region, was detected by restriction fragment length polymorphism (RFLP). This polymorphism has previously been reported to be located in the TNF-alpha gene. Caucasian HLA-DR3,4 heterozygous IDDM patients (n = 26) and DR-matched healthy controls (n = 19), as well as randomly selected IDDM patients (n = 27) and controls (n = 25) were studied. In addition four multiplex families (49 individuals) and eight HLA-non-identical sibpairs concordant for IDDM were analysed. The TNF-beta gene RFLP analysis showed fragments of 5.5 kb and 10.5 kb, which behaved as alleles. In all groups there was a haplotype assignment of the TNF-beta 5.5-kb allele to B8,DR3 haplotypes, and of the TNF-beta 10.5-kb allele to B15,DR4-positive haplotypes. The allelic and genotypic frequencies differed between DR3,4 IDDM patients and DR3,4 controls, and the DR3,4 control group differed significantly from the randomly selected control group (P less than 0.0079). In HLA-DR3,4- and DQw8-positive persons, the DR3 haplotypes carried the 10.5-kb allele three times more frequently in IDDM patients than in controls, suggesting that the 10.5-kb allele when present on DR3 haplotypes may contribute to susceptibility to IDDM in DR3,4 heterozygous individuals. A contributory role of the 10.5-kb allele in genetic IDDM susceptibility was supported by the sibpair analysis, in which all were TNF-beta identical. Five were 10.5 kb homozygous, and the remaining three pairs were 5.5/10.5 kb heterozygous. Twenty-five healthy and eight newly diagnosed IDDM patients were randomly selected to study the Escherichia coli lipopolysaccharides (LPS)-purified protein derivate (tuberculin) (PPD)-, and phytohaemagglutinin (PHA)-stimulated monocyte (Mo) secretions of interleukin 1 beta (IL-1 beta) and TNF-alpha in relation to the NcoI TNF-beta gene polymorphism. The LPS- and PHA-stimulated Mo IL-1 beta and TNF-alpha secretions were significantly lower for the TNF-beta 5.5/10.5 kb heterozygous individuals than for TNF-beta 10.5 kb homozygous individuals. Furthermore, the Mo IL-1 beta and TNF-alpha secretions of IDDM patients were significantly higher than the Mo secretions of TNF-beta genotype-matched healthy controls. This study suggests an association between the 10.5 kb TNF-beta allele and IDDM, and demonstrates an association between monokine responses and TNF-beta genotypes.(ABSTRACT TRUNCATED AT 400 WORDS)     

Insulin-Dependent Diabetes Mellitus in Non-DR3/Non-DR4 Subjects

ABSTRACT: Five to 20% insulin-dependent diabetes mellitus (IDDM) patients do not bear the classical HLA class II DR3 or DR4 susceptibility haplotypes. We have studied the clinical characteristics, anti-islet cell antibodies (Ab) and HLA class II genotypes in 72 non-DR3/non-DR4 Caucasian patients, mainly adults, presenting with clinically typical IDDM. The DRB1*08-DQB1*0402-DQA1*0401 haplotype frequency was increased in the patients compared to 272 non-DR3/non-DR4 controls (OR = 5.9, Pc < 0.005). This association was even stronger in the Ab-positive patients (DRB1*08: OR = 7.2, Pc < 0.005; DQB1*0402: OR = 9.2, Pc < 0.005; DQA1*0401: OR = 9, Pc < 0.02). In those subjects the DRB1*15 allele was less frequent than in controls (OR = 0.1, Pc = 0.05). By contrast, IDDM patients with no Ab showed no particular association with HLA class II allele although they had clinical and metabolic characteristics similar to that of Ab-positive subjects. The genetic basis for IDDM predisposition in the Ab-positive subgroup remains elusive since the DRB1*08-DQB1*0402 haplotype encodes an Asp57-positive DQβ chain. However, all DR8 patients had a non-Asp57 encoding DQB1 allele on the second haplotype. Thus, trans-complementation leading to peculiar predisposing DQβ heterodimers may occur. Alternatively, a direct role of the DRB1*08 allele cannot be excluded. These results show that autoimmune type 1 diabetes occurs in non-DR3/non-DR4 subjects, mainly adults. They further support that IDDM, when defined on a clinical basis, encompass different pathogenetic entities.     

Unusual HLA-DR,DQ haplotypes found in South African families of black, Asian Indian, and mixed ancestral origin.

Four non-Caucasoid families with the unusual HLA-DR,DQ haplotypes DRw17,DQw7; DR9,DQw2; DR4,DQw2; and DR4,DQw5 were studied. All four haplotypes showed identical serological patterns to those seen with the equivalent Caucasoid antigens, but no HLA-Dw specificities could be assigned. TaqI restriction fragment length polymorphism (RFLP) patterns observed using DRB, DQB, and DQA probes showed that the DRw17,DQw7 haplotype may have originated from a homologous crossover between a DRw17,DQw2 haplotype and a haplotype with DQw7. The results obtained for the DR9,DQw2 and DR4,DQw2 haplotypes suggest that these could have resulted from recombination events with an ancestral "black" DQw2 haplotype. From the RFLP data, it is difficult to postulate the origin of the DR4,DQw5 haplotype being from a single recombination event.