Characterisation and study of unclassified bacteria cultured from inflammatory bowel disease tissues

Loughlin, Mark

January 1995

No description available.

579

Crohn's disease; Ulcerative colitis

The adherent colonic mucus layer in situ

Strugala, Vicki

January 2000

No description available.

612

Crohn's disease; Ulcerative colitis

Colonic mucus in inflammatory bowel disease

Rankin, B. J.

January 1996

No description available.

610

Crohn's disease; Ulcerative colitis

Adhesion molecules in the gastrointestinal tract : a search for cell surface molecules upregulated in inflammatory bowel disease

Bloom, Stuart

January 1993

No description available.

610

Crohn's disease; Ulcerative colitis

Paediatric inflammatory bowel disease : bench to bedside and nationwide : a detailed analysis of Scottish children with IBD

Henderson, Paul

January 2013

The inflammatory bowel diseases (IBDs) are a group of chronic conditions affecting the gastrointestinal tract, often presenting with non-specific clinical features such as abdominal pain, weight loss and diarrhoea. Approximately 25% of patients are diagnosed with IBD in childhood. For epidemiological studies, previously collected (1990-1995) and original (2003-2008) Scottish incidence data were used to determine national trends in newly diagnosed paediatric IBD (PIBD). A smaller, geographically defined, prospective 14-year cohort (1997- 2011) in South-East Scotland (SES) was used to assess regional trends in incidence, point prevalence, disease extent, medication use and PIBD surgery rates in 326 children. For the detailed analysis of the role of ICOSLG and CRP in Scottish children with PIBD, haplotype-tagging of both genes in 448 children (and their parents) registered on the Paediatric Inflammatory bowel disease Cohort and Treatment Study (PICTS) database was performed. Further clinical information from this database and previously gathered adult mRNA microarray data were also used to inform the analysis. For the faecal calprotectin (FC) case-control study, all PIBD patients diagnosed in SES between 01.01.05 and 31.12.10 (aged 1- 17yrs) with a FC performed during initial workup were identified; controls were matched non- IBD patients who had similarly undergone endoscopy with a referral FC level available. The systematic review and meta-analysis of FC case-control studies was performed with keywords relating to IBD and calprotectin in electronic resources from 1946 to May 2012. Inclusion criteria were studies that reported FC levels prior to the endoscopic investigation of IBD in children less than 18 years old. Laboratory work used newly derived HEK293 and HCT116 cell lines stably expressing wild-type NOD2 and the CD-associated NOD2 frameshift mutant, as well as utilising previously derived HEK293 and HCT116 cells stably expressing green fluorescent-labelled protein LC3 during the assessment of autophagy. Western blot, immunofluorescent microscopy and flow cytometry were used for analysis. There was a significant rise in PIBD incidence in Scotland since the early 1990s, with 260 new cases between 1990-1995 (4.45/100,000/year) and 436 in the 2003-2008 epoch (7.82/100,000/year) (p<0.001). A five-fold increase in Crohn's disease (CD) in the last 40 years was also demonstrated. SES was shown to have the highest recorded PIBD incidence rate in the UK for the six-year epoch from 2006-2011 (9.50/100,000/year) with a significant rise in ulcerative colitis (UC) to 2.67/100,000/year (p=0.010). Point prevalence rates for PIBD in SES had also risen significantly to 41.2/100,000 between the 2000-2005 and 2006-2011 epochs (p=0.016). With a follow up of 1577 patient years, the severe phenotype in children with PIBD was confirmed; 34% of children with CD presented with pan-enteric disease (44% at follow up), and 76% of children with UC had pancolonic disease at diagnosis (81% at follow up). 26% of patients required methotrexate and 18% were exposed to infliximab/adalimumab, with the time to first exposure of both significantly lower in children diagnosed between 2006-2011 (p=0.001 and p<0.001 respectively). A total of 70% of children were exposed to azathioprine and 20% underwent IBD-related surgery. Using a haplotype-tagging approach and transmission disequilibrium testing (TDT) in 230 PIBD case-parent trios there was significant overtransmission of the rs8126734-A single nucleotide polymorphism (SNP) in ICOSLG following correction (p=0.0467). In the CD TDT analysis the same SNP was overtransmitted (p=0.0084). The strongest susceptibility signal was evident across the two marker haplotype rs762421-A / rs8126734-G (p=0.0072), suggesting that the 3-prime untranslated region in ICOSLG may be targeted for deep sequencing. mRNA microarray data from adult patients showed downregulation of ICOSLG expression in the ascending colon (p=0.023) and upregulation in the descending colon (p=0.0351) in uninflamed biopsies from CD patients and non-IBD controls; no difference in gene expression was shown in UC patients. Using a similar approach, the A allele of two SNPs tagging CRP showed significant over-transmission to affected IBD patients after correction (rs1417938, p=0.006; rs1130864, p=0.015). The six-marker haplotype (ACACAC) showed significant distortion of transmission to affected individuals (p=8x10-4). CD and UC patients demonstrated differences in rs1205 genotype (p=0.0085) and CRP haplotype (p=0.0024), with the influence of the rs1205 SNP on response to anti-tumour necrosis factor-alpha therapy also shown (p=0.021). During the FC case-control study significantly elevated FC levels at diagnosis were demonstrated compared to controls (1265 μg/g vs 65 μg/g; p<0.001). FC also outperformed commonly used blood parameters (e.g. CRP, ESR, platelets), with an area under the curve of 0.93 (95% CI 0.89-0.97) and good sensitivity (0.93 [95% CI 0.86-0.98]) and specificity (0.74 [95% CI 0.64-0.82]) when values above 200μg/g were used. FC levels were not influenced by disease location in CD or UC. The systematic review and meta-analysis highlighted the often poor methodological quality of previous studies and concluded that across all studies FC had a pooled sensitivity of 0.98 (95% CI 0.95-1.00) and pooled specificity of 0.68 (95% CI 0.50-0.86) for PIBD at diagnosis. Characterisation of cells stably-expressing wild-type NOD2 or the CD-associated NOD2 frameshift mutation demonstrated increased cell proliferation compared to empty vector, and an accentuated apoptotic response to serum starvation. The NOD2 frameshift protein had a shorter half-life (at 11 hours) than the wild-type protein, with degradation of the NOD2 protein shown to be mediated through a proteasome-dependent pathway, possibly through lysine residues on the CARD domain. Following the establishment of a robust method of assessing autophagy in a cell culture system, experimental work showed that muramyl dipeptide-induced autophagy is unlikely to signal through the mammalian target of rapamycin, with the intermediate filament vimentin shown to be intimately involved in this pathway; the vimentin gene (Vim) was also shown to be a candidate susceptibility gene for CD. Using a panel of PIBD drugs azathioprine was shown to induce autophagy in a dose-dependent manner through an mTOR-dependent, ERK-independent pathway. It can be seen that with the increasing incidence and prevalence of PIBD in Scotland that a greater understanding of epidemiological trends, the role of genetic susceptibility, the optimal use of biomarkers and translational functional biology are all needed to understand further the aetiopathogenesis of PIBD. This future work will undoubtedly help to inform service design and the clinical care pathways utilised to provide the best care for children in addition to targeting pathways for potential drug development, with these measures helping to prepare for the increasing disease burden generated by PIBD.

618.92

Epithelial cells: an immune modulator in the context of inflammatory bowel diseases

Backer, Jody Lynn

Unknown Date

No description available.

Epithelial cells: an immune modulator in the context of inflammatory bowel diseases

Backer, Jody Lynn

11 1900

Inflammatory Bowel Diseases (IBD) result from the nexus of a genetic predisposition, dysregulated immunologic insult against commensal microflora, and an environmental trigger. The intestinal epithelium is a single cell layer that separates a highly active mucosal immune system from a large antigenic load in the intestinal lumen. Innate immune recognition combined with a highly regulated adaptive immune response maintains this tolerance. The intestinal epithelium in collusion with antigen presenting cells primarily modulates this activity. In this thesis, we show that, in response to DNA isolated from bacteria, innate toll like receptor 9 (TLR9) activation in intestinal epithelial cells modulates both arms of the immune system, to regulate intestinal homeostasis, and through this mechanism, Bifidobacteria breve DNA exerts its anti-inflammatory function. / Experimental Medicine

Understanding inflammatory bowel disease using high-throughput sequencing

de Lange, Katrina Melanie

January 2017

For over two decades, the study of genetics has been making significant progress towards understanding the causes of common disease. Across a wide range of complex disorders there have been hundreds of associated loci identified, largely driven by common genetic variation. Now, with the advent of next-generation sequencing technology, we are able to interrogate rare and low frequency variation in a high throughput manner for the first time. This provides an exciting opportunity to investigate the role of rarer variation in complex disease risk on a genome-wide scale, potentially o↵ering novel insights into the biological mechanisms underlying disease pathogenesis. In this thesis I will assess the potential of this technology to further our understanding of the genetics of complex disease, using inflammatory bowel disease (IBD) as an example. After first reviewing the history of genetic studies into IBD, I will describe the analytical challenges that can occur when using sequencing to perform case-control association testing at scale, and the methods that can be used to overcome these. I then test for novel IBD associations in a low coverage whole genome sequencing dataset, and uncover a significant burden of rare, damaging missense variation in the gene NOD2, as well as a more general burden of such variation amongst known inflammatory bowel disease risk genes. Through imputation into both new and existing genotyped cohorts, I also describe the discovery of 26 novel IBD-associated loci, including a low frequency missense variant in ADCY7 that approximately doubles the risk of ulcerative colitis. I resolve biological associations underlying several of these novel associations, including a number of signals associated with monocyte-specific changes in integrin gene expression following immune stimulation. These results reveal important insights into the genetic architecture of inflammatory bowel disease, and suggest that a combination of continued array-based genome- wide association studies, imputed using substantial new reference panels, and large scale deep sequencing projects will be required in order to fully understand the genetic basis of complex diseases like IBD.

616.3

Psychological stress and its therapeutical implications in inflammatory bowel disease

Wahed, Mahmood

January 2013

There is increasing evidence that psychological stress and associated mood disorders are linked with, and can adversely affect the course of inflammatory bowel disease (IBD). Stress is perceived to be relieved by smokers, and this, like a lack of knowledge about its adverse effects, and nicotine dependence, could contribute to continued smoking by patients with Crohn’s disease (CD). Stress has previously been shown to influence disease course in patients with inactive ulcerative colitis (UC) but its influence in acute severe UC is not known. Emerging trial evidence supports the suggestion that psychologically-orientated therapy may ameliorate IBD-associated mood disorders, but there is no strong data yet to indicate that stress management has a beneficial effect on the activity or course of IBD. In addition gut-focussed hypnotherapy has been successfully used in the setting of functional bowel disorders. The 4 main hypotheses tested in thesis are: 1. In patients with IBD: (1) poor knowledge of the effects of smoking on their disease and/or (2) high nicotine dependence explain the higher prevalence of smoking in CD than UC 2. Anxiety, depression and stress are more common and worsen outcome in patients with acute severe UC. 3. Stress management in the form of psychotherapy given by a counsellor has a beneficial effect on the activity and course of IBD. 4. Gut-focussed hypnotherapy reduces the relapse rate in patients with UC. The major findings are as follows: 1. Despite more patients with CD being smokers, they were better informed about the effects of smoking on their own disease than UC patients. Nicotine dependence was no higher in patients with CD than UC. In IBD patients as a whole, nicotine dependence was lower than in smokers’ clinic clients and comparable to that of the general population, suggesting that most IBD patients could be weaned off smoking successfully in the IBD clinic.

616.3

Serine hydrolase activity and roles for monoacylglycerol lipase in innate immunity and intestinal inflammation

Ambrose, Timothy James William

January 2018

Detection of evolutionarily conserved pathogen motifs by pattern recognition receptors (PRRs), particularly on dendritic cells (DCs), is crucial for adequate immune responses. Defects in DC function are known to be associated with inflammatory bowel disease (IBD). The endocannabinoid system (ECS) is the system through which exocannabinoids such as Δ⁹-tetrahydrocannabinol and cannabidiol signal. Regarding inflammation, cannabinoids generally exert anti-inflammatory effects, including on experimental colitis. However, most work has been performed in animal models and less is known about the function of this system in human immune cells, particularly DCs. Monoacylglycerol lipase (MGLL) is the key enzyme for hydrolysis of the endocannabinoid 2-arachidonoylglycerol, and a member of the serine hydrolase enzyme superfamily. This thesis defines the activity of serine hydrolase enzymes for the first time in human DCs upon stimulation by NOD2/TLR2 ligands using activity-based protein profiling (ABPP). MGLL is shown to be ubiquitously upregulated upon stimulation of DCs and in monocyte-derived macrophages. Through pharmacological inhibition studies, MGLL is demonstrated to regulate cellular and secreted lipids, not limited to endocannabinoids. However, overall DC function is independent of this enzyme suggesting that the effects of lipid modulation may be on bystander cells. Challenging the current literature, MGLL inhibition with a novel inhibitor worsens murine Citrobacter rodentium colitis. Finally, ABPP demonstrates a rich serine hydrolome in colonic tissue from human IBD with many enzymes previously undefined in this disease. Gene expression of ECS components suggests the enzymes ABHD12 and DAGLα/β may be potential markers of field change in IBD.