HLA class II alleles associated with celiac disease susceptibility in a Southern European population

Susceptibility to celiac disease in Northern Europe is associated with the human leukocyte antigens (HLA) B8, DR3 and DQ2, which exist together on an extended haplotype. The strong predominance of this haplotype within the Northern European celiac populations, together with the linkage disequilibrium which occurs between these loci, does not allow identification of the gene(s) primarily associated with disease susceptibility. Studies from Southern Europe using both serology and examination of restriction fragment length polymorphisms (RFLP) have demonstrated associations with DR3, DR7 and DQ2, suggesting that the DQ locus is primarily involved. We investigated 43 celiac patients and 41 healthy controls from Rome, Italy, using sequence-specific oligonucleotide (SSO) probes, in conjunction with gene amplification by the polymerase chain reaction (PCR), to determine alleles at the DRB, DQA1, DQB1 and DPB1 loci: 19% of celiac patients possessed the alleles DRB1*0301 DRB3*0101, 33% DRB1*0301 DRB3*0201 and 33% of celiac patients were heterozygous for DRB1*1101-1201/DRB1*0701. The strongest association with celiac disease susceptibility was the combination of alleles DQA1*0501 DQB1*0201 (91% celiac patients vs. 12% controls; p = 0.000002). There was no additional susceptibility associated with alleles at the DPB locus. This study confirms the hypothesis that susceptibility is associated with a particular combination of DQ alleles and the ethnic variation in DR frequencies is secondary to linkage disequilibrium with these DQ alleles.     

One third of HLA DQ2 homozygous patients with type 1 diabetes express celiac disease-associated transglutaminase autoantibodies.

Type 1 diabetes and celiac disease are both immunologic disorders where specific HLA alleles are associated with disease risk. We have developed a radioassay for autoantibodies to tissue transglutaminase (tTG) following the report that this enzyme is 'the' endomysial autoantigen (EMA) of celiac disease. The radioassay for transglutaminase autoantibodies is similar to that utilized for detecting anti-islet autoantibodies. The 'cut-off' for the IgA autoantibody assay was established as 3 x 100th percentile of 184 healthy control subjects at an index of 0.05. Ninety-eight of 847 patients with type 1 diabetes (11.6%) had tissue transglutaminase autoantibodies (tTG). All EMA-positive patients were positive (49/49) for transglutaminase autoantibodies, as were 49/540 EMA-negative patients. Twenty transglutaminase-positive patients consented to intestinal biopsy and 15 biopsies were positive for celiac disease. All patients with a transglutaminase level greater than 0.70 (13/13) had a positive biopsy, while none (0/3) with a level <0.3 had a positive biopsy. The prevalence of transglutaminase autoantibodies was higher in diabetic patients with HLA DQ2 or DQ8. One third of DQ2 homozygous patients (22/68) expressed transglutaminase autoantibodies vs. less than 2% of patients lacking DQ2 or DQ8. A simple radioassay for IgA transglutaminase autoantibodies detects all endomysial antibody positive patients and detects transglutaminase autoantibodies in 5% of endomysial autoantibody negative patients. The prevalence of transglutaminase autoantibodies is associated with DQ2 and DQ8 and in particular DQ2 homozygosity. Autoimmunity to transglutaminase is remarkably prevalent amongst patients with type 1 diabetes expressing certain class II HLA alleles.     

The presence of gliadin specific, HLA DQ2 restricted T cells in the small intestinal mucosa is a common phenomenon of celiac disease.

The gastrointestinal disorder celiac disease is strongly associated with genes encoding the HLA-DQ2 heterodimer, DQ(1^*0501,β1^*02). We have isolated activated lamina propria derived lymphocytes from small intestinal biopsies of 20 DR3-DQ2+ celiac disease patients (17 treated and 3 untreated) by immunomagnetic positive selection of CD25+ cells after in vitro challenge of biopsies with wheat flour gliadin protein. Gliadin-specific, polyclonal T cell lines were established from all of the 20 patients. Inhibition studies of T cell lines with anti-HLA monoclonal antibodies indicated predominant antigen presentation by DQ2 in patients. Furthermore we generated 9 gliadin-specific T cell clones from 5 patients which all were DQ2 restricted. These data confirm our previous reports in a more limited material of preferential DQ2-restriction of gliadin-specific T cells from the small intestine. In conclusion, our findings strongly indicate that gliadin-specific T cells is a common phenomenon in the small intestinal mucosa of celiac disease patients and they support the notion that most of them recognize gliadin-peptide when presented by the disease associated HLA-DQ heterodimer (1^*0501,β1^*02).     

Gluten-dependent enteropathy and atypical human leukocyte antigen alleles

The risk for developing celiac disease is associated with the major histocompatibility complex class II human leukocyte antigen DQ2 and DQ8. We retrospectively reviewed the medical records of 127 consecutive cases of adult-onset celiac disease evaluated at a single United States center to determine the distribution of the associated human leukocyte antigen DQA1 and DQB1 alleles. The median patient age of diagnosis was 41 (range, 16-81) years. Ninety-five adults underwent human leukocyte antigen DQ typing. Eighty patients were DQ2 positive, 24 were DQ8 positive, and 11 were DQ2 and DQ8 positive. Four patients carried the uncommon, low-risk haplotype DQ2.2 (DQA1*02 and DQB1*02) without DQA1*05. Two patients did not carry human leukocyte antigen DQ2 or DQ8. All of the patients with atypical human leukocyte antigen DQ responded to a gluten-free diet. Although the majority of patients carry the human leukocyte antigen DQ2 or DQ8, gluten-dependent enteropathy periodically presents in adults with low-risk alleles.     

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.     

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.     

Celiac disease among Ashkenazi Jews from Israel: A study of the HLA class II alleles and their associations with disease susceptibility

The immunogenetics of celiac disease demonstrates a highly significant association with the HLA class II alleles DQA1*0501 DQB1*0201 encoded in either a cis- or trans-configuration. In Northern Europe, these alleles are found in linkage disequilibrium with DRB1*0301 while in Southern Europe an additional secondary association through linkage disequilibrium is seen with the combination DRB1*1101/0701. This study examines 34 Ashkenazi Jews with celiac disease and 36 ethnically matched controls to determine alleles at the DRB, DQA1, DQB1, and DPB1 loci using SSO probes in conjunction with gene amplification by the PCR. The results confirm a highly significant association with the DQA1*0501 DQB1*0201 allelic combination (71% celiac vs 8% control individuals; p = 0.00005; χ² = 21.4). Of celiac subjects, 29% were negative for the proposed DQ susceptibility alleles, the majority of whom were DRB1*0402 positive (20% overall celiac group). No additional susceptibility was associated at the DRB3 and DPB loci. This study confirms that the MHC-linked celiac disease susceptibility among Ashkenazi Jews is closely associated with the presence of the combination of alleles DQA1*0501 DQB1*0201. However, within this population of relatively high-prevalence celiac disease, 30% of celiac patients do not carry these alleles and are therefore not covered by a single “unifying” hypothesis.     

HLA DQA1*0501 and DQB1*02 in Cuban celiac patients

Celiac disease (CD) susceptibility has been strongly associated with HLA-DQ2 and HLA-DQ8. The main objective of this study was to assess the distribution of HLA DQA1*0501 and DQB1*02 alleles (DQ2) for the first time in a group of Cuban celiac patients. We evaluated 22 patients, 54 first-degree relatives, and 60 controls for detection of antitissue transglutaminase (tTG)-specific antibodies in serum. We found that 100% of the probands and 19% of the first-degree relatives were positive for the antibodies in serum. We did not detect any specific response for the healthy control individuals. We observed a significant over-representation of DQ2 heterodimer, both in patients and relatives. In the group of patients, 86.3% were positive for DQA1*0501, 90.2% were positive for DQB1*02, and 86.3% were positive for both alleles. The frequencies in relatives and controls were as follows: 70%, 90%, and 70%; and 56.6%, 45%, and 20%, respectively. In conclusion, we found that the proportion of our celiac patients carrying DQ2 was similar to the proportion of CD patients reported in populations with different genetic backgrounds. These results underline the primary importance of HLA-DQ alleles in susceptibility to celiac disease.     

MHC class I chain-related gene B promoter polymorphisms and celiac disease

The possibility that susceptibility to celiac disease (CD) might be influenced by the MHC class I chain-related gene family, MICA and MICB, has been previously reported. In this study, we analyzed the MICB promoter and examined the association of the polymorphisms found within such in a group of CD patients. To study the MICB promoter we sequenced the 5' flanking region of MICB gene in DNA from homozygous B-lymphoblastoid cell lines corresponding to the most frequent MICB alleles found in our population (MICB*00502, MICB*002, MICB*004, and MICB*008). DNA from a MICB*003 homozygous individual was also analyzed. Sequence analysis revealed six single nucleotide polymorphisms located at positions 45860 C/A, 45862 G/C, 45877 C/G, 46113 A/C, 46219 G/C, and 46286 G/C and an insertion of 2 bp --/AG at position 45944 according to the published genomic sequence. Those polymorphisms were found to be associated in four different haplotypes corresponding to different MICB alleles. Subsequently, 126 CD subjects and 117 healthy controls were typed by polymerase chain reaction using sequence-specific primers for these polymorphisms. MICB promoter polymorphism haplotypes were also found in our population and showed strong linkage disequilibrium with MICB alleles. MICB promoter polymorphism Haplotype 3, included in MICB*002 and MICB*008 alleles, was found to be overrepresented in CD patients (79.4% CD patients vs 45.3% healthy controls; p(c) < 0.0001; OR = 4.64; CI 95% = 2.64-8.16). Both MICB*008 and MICB*002 alleles were found as part of the CD susceptibility extended haplotypes B8/DR3/DQ2, B18/DR3/DQ2, and DR4/DQ8.     

HLA-G and susceptibility to develop celiac disease

The Human Leukocyte Antigen-G has immunomodulatory function and its expression has been associated with several diseases. In our study we analyzed HLA-G polymorphisms in order to evaluate their possible association with susceptibility to celiac disease development. A total of 420 celiac patients and 509 controls were genotyped for HLA-G polymorphisms. We sequenced 800 bp upstream the ATG codon (5′ upstream regulatory region) and the whole 3′ untranslated region of the HLA-G gene, whereas the ΔC deletion at exon 3 was detected by RFLP-PCR.Five polymorphisms (namely −477 C>G, −369 C>A, 14 bp del/ins, 3187 A>G, 3196 C>G) and one haplotype (TCGGTACGAAITCCCGAG) were significantly more frequent in celiac patients than controls and associated with increased disease susceptibility. The 14 bp I/I, 3187 G/G, 3196 G/G genotypes and TCGGTACGAAITCCCGAG haplotype, were still significantly associated with increased disease susceptibility (and in addition also the 3003 C/C genotype) when the analysis was restricted to patients and controls presenting the DQ2.5 or DQ8 HLA-DQ celiac disease risk haplotypes.Our findings indicate an association between HLA-G gene polymorphisms and susceptibility to celiac disease development, suggesting that HLA-G molecule is possibly involved in the pathogenesis of the disease.     

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.     

Reassessment of HLA association with celiac disease in special reference to the DP association

Patients with the late-onset form of celiac disease have been studied for HLA association by conventional serology (DR and DQ typing) and by oligonucleotide probing with gene amplification (DP typing). Patients and controls were sampled in the Bologna area of northern Italy. Almost all patients were positive for DQw2 (94%), being DR3 positive (72%) and/or DR7 positive (65%). The proportion of DR3/7 heterozygotes in the patients was significantly increased over that expected from the Hardy-Weinberg equilibrium. No positive association with DR5 and no significant increase of DR5/7 heterozygotes were observed. Among the DP alleles reported to exhibit an association with celiac disease in other populations, only DPB3 showed a moderate increase of a borderline significance, not attributable to a linkage disequilibrium with DQw2.     

Frequency distribution of HLA DQ2 and DQ8 in celiac patients and first-degree relatives in Recife, northeastern Brazil

AIMS:

The aim of this study was to evaluate the frequencies of the HLA genotypes DQ2 and DQ8 and the alleles A1*05, A1*0201, B1*0201 and B1*0302 in individuals with celiac disease in Recife, northeastern Brazil.

METHODS:

HLA DQ2 and DQ8 genotyping was performed for 73 individuals with celiac disease and 126 first-degree relatives with negative transglutaminase serology. The alleles DQA1*05, DQA1*0201, DQB1*02 and DQB1*0302 were identified by sequencing using specific primers and the EU-DQ kit from the Eurospital Laboratory, Trieste, Italy and double-checked by the All Set SPP kit (Dynal).

RESULTS:

Among the 73 cases, 50 (68.5%) had the genotype DQ2, 13 (17.8%) had DQ8, 5 (6.8%) had DQ2 and DQ8, and 5 did not have any of these genotypes. Among the 5 negative individuals, four had the B1*02 allele and one did not have any of the alleles studied. B1*02 was the most frequent allele in both groups (94% in the patients and 89% in the control relatives).

CONCLUSIONS:

In this study, celiac disease was associated with the genotypes DQ2 and DQ8. DQ2 predominated, but the distribution of the frequencies was different from what has been found in European populations and was closer to what has been found in the Americas. The high frequencies of the HLA genotypes DQ2 and DQ8 that were found in first-degree relatives would make it difficult to use these HLA genotypes for routine diagnosis of celiac disease in this group.     

TNF2, a polymorphism of the tumour necrosis-α gene promoter,is a component of the celiac disease major histocompatibility complex haplotype

Celiac disease (CD) is an immune disease triggered by the cereal antigen gliadin, resulting in villous atrophy in the small intestine. Susceptibility to the development of CD is strongly influenced by genes in the major histocompatibility complex, in particular alleles of the DQ genes in the class II region. However recent evidence has suggested that the major histocompatibility complex (MHC) class III region may be linked to celiac disease independently of the class II region. Among the genes located in this area is TNF-α, which encodes the cytokine tumor necrosis factor-α which has a broad range of pro-inflammatory, immunomodulatory and catabolic activities. Therefore, aberrant expression of TNF-α could be important in the pathogenesis of MHC-associated immune disorders. A TNF-α variant with a polymorphism in its promoter region has been described and designated TNF2. TNF2 has been associated with a variety of MHC-linked diseases, including systemic lupus erythematosus, dermatitis herpetiformis and insulin-dependent diabetes mellitus (IDDM), as well as parasitic infections. TNF2 has previously been shown to be associated with the MHC haplotype HLAA1-B8-DR3-DQ2, which confers susceptibility to CD. We have analyzed the distribution of TNF2 alleles in a group of celiac patients (n = 52) compared to controls (n = 52) in an effort to evaluate its role, if any, in susceptibility to the condition. TNF2 has a frequency of 0.5000 (SE ± 0.0490) in CD, compared to 0.1635 (± 0.0362) in a control sample (p < 10⁻⁶). Of 52 patients, 44 carried one or more TNF2 alleles. Analysis indicates that the distribution of TNF2 is best explained by assuming 100% allelic association between it and HLA-DQB1*0201 (frequency = 0.7791 ± 0.0447). However, the number of TNF2 heterozygotes significantly exceeds expectations and measurements of linkage disequilibrium confirm that allelic associations spanning the DQ and TNF regions are strongly maintained in CD. Taken together, these results indicate that TNF2 may have a role in the pathogenesis of CD; however, since it is not an independent association, the possibility that TNF2 constitutes a passive component of the CD haplotype cannot be excluded.     

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.     

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.     

Susceptibility to develop celiac disease is primarily associated with HLA-DQ alleles

We have recently reported that the susceptibility to develop celiac disease (CD) seems to be primarily associated to a particular combination of an HLA-DQA1 (DQA1*0501) and an HLA-DQB1 (DQB1*0201) allele: i.e., a particular DQ alpha/beta heterodimer. To investigate whether certain DP alleles might also contribute to the genetic susceptibility, DPA1 and DPB1 genes of 94 CD patients and 132 healthy controls were examined by probing in vitro amplified DNA with sequence-specific oligonucleotide probes corresponding to all hitherto known DPA1 and DPB1 alleles. The frequencies of the DPA1*0201 and of the DPB1*0101 alleles were increased in CD patients compared to healthy controls (0.31 versus 0.14 and 0.25 versus 0.08, respectively). However, these DP alleles were in linkage disequilibrium with CD-associated DQ alleles in the normal population, and the difference in frequency of these DP alleles was no longer significant when CD patients and healthy controls carrying the CD-associated DQA1*0501 and DQB1*0201 alleles were compared. DQB1*0201 homozygous individuals were overrepresented among DQB1*0201-positive patients compared to controls. When DQB1*0201 heterozygous patients and controls were compared, nearly identical frequencies of the DPA1*0201 and the DPB1*0101 alleles were found. Thus, the observed increase of the DPA1*0201 and DPB1*0101 alleles among CD patients seems mainly to be caused by linkage disequilibrium to the CD-associated DQ alleles.     

HLA types in celiac disease patients not carrying the DQA1*05-DQB1*02 (DQ2) heterodimer: results from the European Genetics Cluster on Celiac Disease

Genetic susceptibility to celiac disease is strongly associated with HLA-DQA1*05-DQB1*02 (DQ2) and HLA-DQA1*03-DQB1*0302 (DQ8). Study of the HLA associations in patients not carrying these heterodimers has been limited by the rarity of such patients. This European collaboration has provided a unique opportunity to study a large series of such patients. From 1008 European coeliacs, 61 were identified who neither carry the DQ2 nor DQ8 heterodimers. Fifty seven of these encoded half of the DQ2 heterodimer. The remaining 4 patients had a variety of clinical presentations. Three of them carried the DQA1*01-DQB*05 haplotype as did 20/61 of those carrying neither DQ2 nor DQ8. This may implicate a role of the DQA1*01-DQB*05 haplotype. None of these four patients carried the DQB1*06 allele that has previously been reported in this sub-group of patients. Of the 16 DQ2 heterodimer negative patients without DRB1*04 or DRB1*07 haplotypes, it was inferred that none encoded the previously implicated DRB4 gene as none had a DRB1*09 haplotype. These results underline the primary importance of HLA-DQ alleles in susceptibility to celiac disease, and the extreme rarity of celiac patients carrying neither the DQ2 or DQ8 heterodimers nor one half of the DQ2 heterodimer alone.     

Celiac disease is associated with an extended HLA-DR3 haplotype which includes HLA-DPw1

HLA-DP polymorphism was examined among celiac disease patients and controls. Restriction fragment length polymorphism (RFLP) genotyping showed a significant association of DPw1 in celiac disease (32/80) compared with controls (6/53, p = 0.0002). DPw1 typing by RFLP was verified using DPB1-amplified DNA and an oligonucleotide probe specific for the DPw1-associated DPB1 gene. The RFLP-assigned DPw1 genotype corresponded closely to the binding pattern of the sequence-specific oligonucleotide probe, although discrepancies did occur. The association between celiac disease and DPw1, however, remained. Oligonucleotide probe specificity was confirmed by sequencing DPB1-amplified DNA from four DPw1-genotyped celiacs. DPw1 is only present in celiacs who genotype DR3a-positive. Of DR3a controls 24% are DPw1-positive compared with 5% of non-DR3a controls (p = 0.03), suggesting that an extended DR3a, DPw1 haplotype occurs in the control population. This haplotype forms a large proportion of the DR3a haplotypes predisposing to celiac disease. Alternatively, DPw1 may represent an independent risk factor inherited in linkage with HLA-DR3 and -DQw2. Although predisposition to celiac disease is likely to be mediated by a specific DQ alpha/DQ beta heterodimer, a direct role for the DPw1 antigen cannot be discounted.     

Evidence of a correlation between mannose binding lectin and celiac disease: a model for other autoimmune diseases

Celiac disease is a multifactorial disorder caused, in genetically susceptible patients, by the ingestion of dietary gluten. Very little is known about the genetic factors, but there is a strong association of two HLA haplotypes (DQ2 or 1*05, 1*02 and DQ8 or 1*0301, 1*0302) with the disease. We investigated the relationship between polymorphisms in the first exon of the MBL2 gene, which encodes for mannose binding lectin (MBL) and celiac disease. Moreover we studied the MBL role by immunohistochemistry and TUNEL. Results were confirmed by clinical findings. We enrolled 149 Italian celiac patients; 116 were characterized by the presence of DQ2 or DQ8. The HLA haplotype was established by allelic specific PCR while the MBL2 genotype was resolved by melting temperature assay. Immunohistochemistry and TUNEL assays were performed on serial sections of biopsy specimens from celiac patients and healthy controls. MBL2 allele and genotype frequencies varied significantly between celiac patients and healthy controls. The frequencies of the 0 allele were 28% in DQ2 or DQ8 celiac patients, 36% in HLA atypical celiac patients, and 22% in healthy controls. Interestingly, the MBL2 0/0 genotype was present in 7 of 33 HLA atypical celiac patients (21%) and in 13 of 116 HLA typical celiac patients (13%) but in only 7 of 147 healthy controls (5%). Furthermore, we found that MBL2 genotype is strongly associated with the occurrence of secondary autoimmune diseases. Immunohistochemistry and TUNEL findings support a role of MBL2 in the clearance of apoptotic cells. In conclusion, MBL2 variants, responsible for lower MBL levels, are associated with celiac disease and higher risk of developing autoimmune diseases. Here we propose a role for MBL in the disease which could be easily applied to other autoimmune disorders.