Prevalence of coexisting autoimmune thyroidal diseases in coeliac disease is decreasing.

BACKGROUND: Coeliac disease (CD) is associated with an increased risk of other immune-mediated conditions. Aim: To investigate the prevalence of coexistent immune-mediated diseases in CD patients, and changes in the prevalence of autoimmune thyroidal diseases over the last 50 years. METHODS: Medical record data were collected retrospectively from 749 CD patients in Ireland. Prevalence of autoimmune diseases was compared with previously published results from general populations. Patients were divided into four groups based on the year of diagnosis to analyse changes in the prevalence of autoimmune thyroidal disease over time. RESULTS: Median age at the time of CD diagnosis was 56 years (range 18-91 years). A total of 233 (31.1%) patients had a coexistent immune-mediated condition (IMC). Autoimmune thyroidal diseases were seen in 149 (19.9%) patients, hypothyroidism in 110 (14.7%), type 1 diabetes in 27 (3.6%), psoriasis in 20 (2.7%), inflammatory bowel disease in 14 (1.9%) and rheumatoid arthritis in 12 (1.6%). All conditions were more common in CD patients than in the general population. Type 1 diabetes was diagnosed mainly before CD, whereas there was no such trend in other conditions. Autoimmune thyroidal diseases became less common in female CD patients over time. CONCLUSIONS: Prevalence of autoimmune diseases is increased in adult CD patients compared with the general population. However, concomitant autoimmune thyroidal diseases became less common over time in women.

Changes in Presentation of Celiac Disease in Ireland From the 1960s to 2015.

BACKGROUND & AIMS: Celiac disease is an immune-mediated enteropathy characterized with high heterogeneity in presentation among genetically predisposed individuals. In recent years, a change in the phenotypic presentation of celiac disease has been reported. We studied clinical presentation, from 1960 through 2015, in Ireland, which has a high incidence of celiac disease. METHODS: We performed a retrospective analysis of medical charts from patients diagnosed with celiac disease at 5 secondary referral centers in Ireland from 1960 through 2015 (n = 749; median age, 56 years; age range, 18-91 years). The cohort was divided into 5 groups based on year of diagnosis (≤1985, 1986-1995, 1996-2005, 2006-2010, or 2011 and later). We collected findings from clinical presentation at diagnosis; serology tests; small intestinal biopsy analyses; and patients' demographic, clinical, and family data. Presentations at diagnosis were classified according to the Oslo criteria as follows: classical (patients presenting with malabsorption), nonclassical (no signs or symptoms of malabsorption at presentation), or subclinical (below the threshold of clinical detection). The primary outcome was change in clinical presentation of celiac disease over time. RESULTS: Of the 749 patients studied, 512 were female and 237 were male (ratio of 2.2:1). Female patients were diagnosed at younger ages than male patients (42 vs 47 years, respectively; P = .004), and had more immune-mediated conditions than male patients (35.7% for female patients vs 21.5% for male patients; P < .001). For patients diagnosed as adults (after the age of 18 years), the median age of diagnosis increased from 34.0 years during the period ≤1985 to median ages of 44-46 years after 1985 (P < .002). A smaller proportion of patients presented with classical features of celiac disease after 2010 (48.4%) than ≤1985 (85.2%); the proportion of patients with nonclassical or subclinical celiac disease increased from 14.8% ≤1985 to 51.6% after 2010 (P = .006 for each). Biopsies categorized as Marsh 3c decreased, from 52.2% in the period 1996-2005 to 22.5% in the period after 2010 (P = .003). The prevalence of associated thyroid disease has decreased during the study period, from 36.6% ≤1985 to 17.1% after 2010 (P = .039), whereas body mass index at diagnosis increased from 21.5 kg/m2 ≤1985 to 24.8 kg/m2 after 2010 (P < .001). CONCLUSIONS: We found the clinical presentation of celiac disease changed significantly in Ireland from 1960 through 2015. The age of presentation in adulthood increased over this time period, as did the proportions of patients with nonclassical or subclinical disease.

Common polygenic variation in coeliac disease and confirmation of ZNF335 and NIFA as disease susceptibility loci.

Coeliac disease (CD) is a chronic immune-mediated disease triggered by the ingestion of gluten. It has an estimated prevalence of approximately 1% in European populations. Specific HLA-DQA1 and HLA-DQB1 alleles are established coeliac susceptibility genes and are required for the presentation of gliadin to the immune system resulting in damage to the intestinal mucosa. In the largest association analysis of CD to date, 39 non-HLA risk loci were identified, 13 of which were new, in a sample of 12,014 individuals with CD and 12 228 controls using the Immunochip genotyping platform. Including the HLA, this brings the total number of known CD loci to 40. We have replicated this study in an independent Irish CD case-control population of 425 CD and 453 controls using the Immunochip platform. Using a binomial sign test, we show that the direction of the effects of previously described risk alleles were highly correlated with those reported in the Irish population, (P=2.2 × 10(-16)). Using the Polygene Risk Score (PRS) approach, we estimated that up to 35% of the genetic variance could be explained by loci present on the Immunochip (P=9 × 10(-75)). When this is limited to non-HLA loci, we explain a maximum of 4.5% of the genetic variance (P=3.6 × 10(-18)). Finally, we performed a meta-analysis of our data with the previous reports, identifying two further loci harbouring the ZNF335 and NIFA genes which now exceed genome-wide significance, taking the total number of CD susceptibility loci to 42.

Transcriptome Analysis of CD4+ T Cells in Coeliac Disease Reveals Imprint of BACH2 and IFNγ Regulation.

Genetic studies have to date identified 43 genome wide significant coeliac disease susceptibility (CD) loci comprising over 70 candidate genes. However, how altered regulation of such disease associated genes contributes to CD pathogenesis remains to be elucidated. Recently there has been considerable emphasis on characterising cell type specific and stimulus dependent genetic variants. Therefore in this study we used RNA sequencing to profile over 70 transcriptomes of CD4+ T cells, a cell type crucial for CD pathogenesis, in both stimulated and resting samples from individuals with CD and unaffected controls. We identified extensive transcriptional changes across all conditions, with the previously established CD gene IFNy the most strongly up-regulated gene (log2 fold change 4.6; P(adjusted) = 2.40x10(-11)) in CD4+ T cells from CD patients compared to controls. We show a significant correlation of differentially expressed genes with genetic studies of the disease to date (P(adjusted) = 0.002), and 21 CD candidate susceptibility genes are differentially expressed under one or more of the conditions used in this study. Pathway analysis revealed significant enrichment of immune related processes. Co-expression network analysis identified several modules of coordinately expressed CD genes. Two modules were particularly highly enriched for differentially expressed genes (P<2.2x10(-16)) and highlighted IFNy and the genetically associated transcription factor BACH2 which showed significantly reduced expression in coeliac samples (log2FC -1.75; P(adjusted) = 3.6x10(-3)) as key regulatory genes in CD. Genes regulated by BACH2 were very significantly over-represented among our differentially expressed genes (P<2.2x10(-16)) indicating that reduced expression of this master regulator of T cell differentiation promotes a pro-inflammatory response and strongly corroborates genetic evidence that BACH2 plays an important role in CD pathogenesis.

Evaluation of 6 candidate genes on chromosome 11q23 for coeliac disease susceptibility: a case control study.

BACKGROUND: Recent whole genome analysis and follow-up studies have identified many new risk variants for coeliac disease (CD, gluten intolerance). The majority of newly associated regions encode candidate genes with a clear functional role in T-cell regulation. Furthermore, the newly discovered risk loci, together with the well established HLA locus, account for less than 50% of the heritability of CD, suggesting that numerous additional loci remain undiscovered. Linkage studies have identified some well-replicated risk regions, most notably chromosome 5q31 and 11q23. METHODS: We have evaluated six candidate genes in one of these regions (11q23), namely CD3E, CD3D, CD3G, IL10RA, THY1 and IL18, as risk factors for CD using a 2-phase candidate gene approach directed at chromosome 11q. 377 CD cases and 349 ethnically matched controls were used in the initial screening, followed by an extended sample of 171 additional coeliac cases and 536 additional controls. RESULTS: Promotor SNPs (-607, -137) in the IL18 gene, which has shown association with several autoimmune diseases, initially suggested association with CD (P < 0.05). Follow-up analyses of an extended sample supported the same, moderate effect (P < 0.05) for one of these. Haplotype analysis of IL18-137/-607 also supported this effect, primarily due to one relatively rare haplotype IL18-607C/-137C (P < 0.0001), which was independently associated in two case-control comparisons. This same haplotype has been noted in rheumatoid arthritis. CONCLUSION: Haplotypes of the IL18 promotor region may contribute to CD risk, consistent with this cytokine's role in maintaining inflammation in active CD.

Newly identified genetic risk variants for celiac disease related to the immune response.

Our genome-wide association study of celiac disease previously identified risk variants in the IL2-IL21 region. To identify additional risk variants, we genotyped 1,020 of the most strongly associated non-HLA markers in an additional 1,643 cases and 3,406 controls. Through joint analysis including the genome-wide association study data (767 cases, 1,422 controls), we identified seven previously unknown risk regions (P < 5 x 10(-7)). Six regions harbor genes controlling immune responses, including CCR3, IL12A, IL18RAP, RGS1, SH2B3 (nsSNP rs3184504) and TAGAP. Whole-blood IL18RAP mRNA expression correlated with IL18RAP genotype. Type 1 diabetes and celiac disease share HLA-DQ, IL2-IL21, CCR3 and SH2B3 risk regions. Thus, this extensive genome-wide association follow-up study has identified additional celiac disease risk variants in relevant biological pathways.

The pregnane X receptor locus is associated with susceptibility to inflammatory bowel disease.

BACKGROUND & AIMS: The pregnane X receptor (PXR) regulates an array of genes involved in the response to xenobiotics. Evidence from several studies suggests that xenobiotic metabolism may play a role in inflammatory bowel disease (IBD) and that low levels of PXR may be associated with disease expression. The aim of this study was to investigate the association of functional polymorphisms of the PXR encoding gene (NR1I2) with disease in IBD populations. METHODS: This was a case-control study examining 8 NR1I2 single nucleotide polymorphisms (SNPs) previously associated with altered activity of PXR-regulated genes in an Irish cohort including 422 patients with IBD and 350 ethnically matched controls. RESULTS: We showed significant associations of NR1I2 with IBD, Crohn's disease (CD), and ulcerative colitis (UC) groups compared with a control population for SNPs -23585 (IBD: P = .000008; odds ratio [OR], 1.62; 95% confidence interval [CI], 1.31-2.00) and -24381 (IBD: P = .0002; OR, 1.50; 95% CI, 1.21-1.84). SNPs 7635 (P = .0008) and 8055 (P = .007) were found to be associated with IBD and CD but not UC. Risk of IBD is strongly correlated to genotype at these sites, especially for the -25385CC genotype (P = .00001; OR, 2.92; 95% CI, 1.87-4.66). We also show specific correlations of IBD phenotype with genotypes and haplotypes in the patient group. CONCLUSIONS: These results show that genetic variation in the PXR encoding gene, which has been associated with altered activity of PXR, is strongly associated with susceptibility to IBD, CD, and UC.