The methylome of the celiac intestinal epithelium harbours genotype-independent alterations in the HLA region.

The Human Leucocyte Antigen (HLA) locus and other DNA sequence variants identified in Genome-Wide Association (GWA) studies explain around 50% of the heritability of celiac disease (CD). However, the pathogenesis of CD could be driven by other layers of genomic information independent from sequence variation, such as DNA methylation, and it is possible that allele-specific methylation explains part of the SNP associations. Since the DNA methylation landscape is expected to be different among cell types, we analyzed the methylome of the epithelial and immune cell populations of duodenal biopsies in CD patients and controls separately.

Transcription Factor Binding Site Enrichment Analysis in Co-Expression Modules in Celiac Disease.

The aim of this study was to construct celiac co-expression patterns at a whole genome level and to identify transcription factors (TFs) that could drive the gliadin-related changes in coordination of gene expression observed in celiac disease (CD). Differential co-expression modules were identified in the acute and chronic responses to gliadin using expression data from a previous microarray study in duodenal biopsies. Transcription factor binding site (TFBS) and Gene Ontology (GO) annotation enrichment analyses were performed in differentially co-expressed genes (DCGs) and selection of candidate regulators was performed.

Association of the IL-15 and IL-15Rα genes with celiac disease.

Celiac disease is a chronic autoimmune condition triggered by dietary gluten in genetically predisposed individuals and the treatment is a strict gluten-free diet. The major predisposing genes are HLA-DQA1 and HLA-DQB1, but these are not sufficient for disease development. One of the candidate genes worth studying is interleukin (IL)-15 gene, together with its specific receptor, IL-15Rα, as they participate in promoting lymphocyte signaling and survival, and the establishment of appropriate conditions for villous atrophy, then acting as key players in the immunopathogenesis of CD.

Ancestry-based stratified analysis of Immunochip data identifies novel associations with celiac disease.

To identify candidate genes in celiac disease (CD), we reanalyzed the whole Immunochip CD cohort using a different approach that clusters individuals based on immunoancestry prior to disease association analysis, rather than by geographical origin. We detected 636 new associated SNPs (P<7.02 × 10) and identified 5 novel genomic regions, extended 8 others previously identified and also detected 18 isolated signals defined by one or very few significant SNPs.

Expression analysis in intestinal mucosa reveals complex relations among genes under the association peaks in celiac disease.

Celiac disease is a chronic immune-mediated disorder with an important genetic component. To date, there are 57 independent association signals from 39 non-HLA loci, and a total of 66 candidate genes have been proposed. We aimed to scrutinize the functional implication of 45 of those genes by analyzing their expression in the disease tissue of celiac patients (at diagnosis/treatment) compared with non-celiac controls.

Alteration of tight junction gene expression in celiac disease.

Objective: The aim of the present study was to characterize the deregulation of epithelial tight junction genes and investigate its reversibility on removal of dietary gluten in small intestinal mucosa in celiac disease (CD).

Methods: The expression levels of 23 genes related to tight junctions were studied in biopsies from 16 patients with active CD and compared with biopsies from the same patients taken after 2 years on gluten-free diet (GFD) and with 16 non-CD controls.

Results: Nine genes showed altered expression levels in patients with active disease (CLDN2, PARD6A, ZAK, SYMPK, MYH14, and ACTB were upregulated, whereas MAGI1, TJP1, and PPP2R3A were downregulated).

Detection of atomic scale changes in the free volume void size of three-dimensional colorectal cancer cell culture using positron annihilation lifetime spectroscopy.

Positron annihilation lifetime spectroscopy (PALS) provides a direct measurement of the free volume void sizes in polymers and biological systems. This free volume is critical in explaining and understanding physical and mechanical properties of polymers. Moreover, PALS has been recently proposed as a potential tool in detecting cancer at early stages, probing the differences in the subnanometer scale free volume voids between cancerous/healthy skin samples of the same patient.

Coregulation and modulation of NFκB-related genes in celiac disease: uncovered aspects of gut mucosal inflammation.

It is known that the NFκB route is constitutively upregulated in celiac disease (CD), an immune-mediated disorder of the gut caused by intolerance to ingested gluten. Our aim was to scrutinize the expression patterns of several of the most biologically relevant components of the NFκB route in intestinal biopsies from active and treated patients and after in vitro gliadin challenge, and to assess normalization of the expression using an inhibitor of the MALT1 paracaspase. The expression of 93 NFκB genes was measured by RT-PCR in a set of uncultured active and treated CD and control biopsies, and in cultured biopsy series challenged with gliadin, the NFκB modulator, both compounds and none.

THEMIS and PTPRK in celiac intestinal mucosa: coexpression in disease and after in vitro gliadin challenge.

Celiac disease (CD) is an immune mediated, polygenic disorder, where HLA-DQ2/DQ8 alleles contribute around 35% to genetic risk, but several other genes are also involved. Genome-wide association studies (GWASs) and the more recent immunochip genotyping projects have fine-mapped 39 regions of genetic susceptibility to the disease, most of which harbor candidate genes that could participate in this disease process. We focused our attention to the GWAS peak on chr6: 127.

Cubic regression-based degree of correction predicts the performance of whole bisulfitome amplified DNA methylation analysis.

Epigenetic mechanisms, including DNA methylation, are important determinants in development and disease. There is a need for technologies capable of detecting small variations in methylation levels in an accurate and reproducible manner, even if only limited amounts of DNA are available (which is the case in many studies in humans). Quantitative methylation analysis of minute DNA amounts after whole bisulfitome amplification (qMAMBA) has been proposed as an alternative, but this technique has not been adequately standardized and no comparative study against conventional methods has been performed, that includes a wide range of methylation percentages and different target assays.

Accuracy in copy number calling by qPCR and PRT: a matter of DNA.

The possible implication of copy number variation (CNV) in the genetic susceptibility to human disease needs to be assessed using robust methods that can be applied at a population scale. In this report, we analyze the performance of the two major techniques, quantitative PCR (qPCR) and paralog ratio test (PRT), and investigate the influence of input DNA amount and template integrity on the reliability of both methods. Analysis of three genes (PRELID1, SYNPO and DEFB4) in a large sample set showed that both methods are prone to false copy number assignments if sufficient attention is not paid to DNA concentration and quality.

Angiogenesis-related gene expression analysis in celiac disease.

Celiac disease (CD) involves disturbance of the small-bowel mucosal vascular network, and transglutaminase autoantibodies (TGA) have been related to angiogenesis disturbance, a complex phenomenon probably also influenced by common genetic variants in angiogenesis-related genes. A set of genes with "angiogenesis" GO term identified in a previous expression microarray experiment (SCG2, STAB1, TGFA, ANG, ERBB2, GNA13, PML, CASP8, ECGF1, JAG1, HIF1A, TNFSF13 and TGM2) was selected for genetic and functional studies. SNPs that showed a trend for association with CD in the first GWAS were genotyped in 555 patients and 541 controls.

Dense genotyping identifies and localizes multiple common and rare variant association signals in celiac disease.

Using variants from the 1000 Genomes Project pilot European CEU dataset and data from additional resequencing studies, we densely genotyped 183 non-HLA risk loci previously associated with immune-mediated diseases in 12,041 individuals with celiac disease (cases) and 12,228 controls. We identified 13 new celiac disease risk loci reaching genome-wide significance, bringing the number of known loci (including the HLA locus) to 40. We found multiple independent association signals at over one-third of these loci, a finding that is attributable to a combination of common, low-frequency and rare genetic variants.

Upregulation of KIR3DL1 gene expression in intestinal mucosa in active celiac disease.

Killer cell immunoglobulin-like receptors (KIRs) modulate natural killer (NK) and T-cell function by human leukocyte antigen class I interaction and have been implicated in celiac disease (CD). Qualitative expression of 16 KIR genes was determined in biopsies from 22 CD patients at diagnosis and after >2 years on a gluten-free diet (GFD). Quantitative expression analysis of KIR2DL4, KIR3DL1, KIR3DL3, and KLRC2 (a marker of an NK-reprogrammed T-cell subpopulation augmented in CD) was performed in 35 additional CD biopsy pairs and 14 non-CD control biopsies.

Revisiting genome wide association studies (GWAS) in coeliac disease: replication study in Spanish population and expression analysis of candidate genes.

Introduction: Recent genome wide association studies (GWAS) on coeliac disease (CD) have identified risk loci harbouring genes that fit the accepted pathogenic model and are considered aetiological candidates.

Methods: Using Taqman single nucleotide polymorphism (SNP) and expression assays, the study genotyped 11 SNPs tagging eight GWAS regions (1q31, 2q11-2q12, 3p21, 3q25-3q26, 3q28, 4q27, 6q25 and 12q24) in a Spanish cohort of 1094 CD patients and 540 controls, and performed expression analyses of candidate genes (RGS1, IL18R1/IL18RAP, CCR3, IL12A/SCHIP1, LPP, IL2/IL21-KIAA1109, TAGAP, and SH2B3) in intestinal mucosa from 29 CD children and eight controls.

Results: Polymorphisms in 1q31, 2q11-2q12, and 3q25 showed association in our cohort, and also 3q28 and 4q27 when combined with a previous study.

Analysis of beta-defensin and Toll-like receptor gene copy number variation in celiac disease.

Celiac disease (CD) is an immune-mediated disorder of the gut in which innate and adaptive responses are involved. Toll-like receptor (TLR) 2 and TLR4 participate in host defense through antigen recognition, and show altered expression in CD gut mucosa. beta-defensins are inducible antimicrobial peptides, and DEFB gene copy number polymorphisms have been associated with autoimmune and inflammatory disorders.