Michael Gersemann

Differences in goblet cell differentiation between Crohn's disease and ulcerative colitis.

Goblet cells are mucin-secreting intestinal cells forming the mucus layer that protects the mucosal surface. Ulcerative colitis (UC) has been associated with a defective colonic mucus layer and a reduced number of goblet cells. In experimental animals, colonic goblet cell differentiation is regulated by interacting transcription factors Hath1, KLF4 and the Notch, as well as Wnt pathways, whereas data in humans are limited. We investigated goblet cell differentiation factors and mucins in controls and in inflammatory bowel diseases (IBDs). We performed real-time PCR for Hath1, KLF4, several ligands, receptors and target genes of the Notch and Wnt pathways, as well as several mucins in biopsies from the sigmoid colon of controls (n=21), Crohns disease (CD, n=48) and UC (n=40). In addition, Hath1 protein was quantitated with Western blot and localized with immunohistochemistry. Notably, the degree of inflammation as measured by IL-8 and histology was similar in both disease entities. The proportion of goblet cells was lowered in both IBDs, but specifically diminished in the upper third of the crypt in UC. Comparable levels of inflammation induced both Hath1 (2.0-fold, p<0.001) and KLF4 (1.8-fold for KLF4, p=0.031) mRNA expression in CD but not in UC (0.8-0.9-fold, ns). The differential induction was confirmed for Hath1 protein using Western blot. Hath1 immunostaining was found mostly in the lower half of the colonic crypts. Hath1, KLF4 and the Notch target gene Hes1 were significantly (p<0.001) and positively correlated. Moreover, both Hath1 and KLF4 were correlated (p<0.001) with MUC1, MUC2 as well as MUC4 in all control and IBD cohorts. The results indicate that both transcription factors are key regulators of goblet cell differentiation and mucin formation in the human colon. Conspicuously, inflammation is associated with an enhanced goblet cell differentiation in CD but not in UC, a defect possibly of pathogenic importance.

From intestinal stem cells to inflammatory bowel diseases

The pathogenesis of both entities of inflammatory bowel disease (IBD), namely Crohns disease (CD) and ulcerative colitis (UC), is still complex and under investigation. The importance of the microbial flora in developing IBD is beyond debate. In the last few years, the focus has changed from adaptive towards innate immunity. Crohns ileitis is associated with a deficiency of the antimicrobial shield, as shown by a reduced expression and secretion of the Paneth cell defensin HD5 and HD6, which is related to a Paneth cell differentiation defect mediated by a diminished expression of the Wnt transcription factor TCF4. In UC, the protective mucus layer, acting as a physical and chemical barrier between the gut epithelium and the luminal microbes, is thinner and in part denuded as compared to controls. This could be caused by a missing induction of the goblet cell differentiation factors Hath1 and KLF4 leading to immature goblet cells. This defective Paneth and goblet cell differentiation in Crohns ileitis and UC may enable the luminal microbes to invade the mucosa and trigger the inflammation. The exact molecular mechanisms behind ileal CD and also UC must be further clarified, but these observations could give rise to new therapeutic strategies based on a stimulation of the protective innate immune system.

Association of a functional variant in the Wnt co-receptor LRP6 with early onset ileal Crohn's disease.

Ileal Crohns Disease (CD), a chronic small intestinal inflammatory disorder, is characterized by reduced levels of the antimicrobial peptides DEFA5 (HD-5) and DEFA6 (HD-6). Both of these α-defensins are exclusively produced in Paneth cells (PCs) at small intestinal crypt bases. Different ileal CD–associated genes including NOD2, ATG16L1, and recently the β-catenin–dependant Wnt transcription factor TCF7L2 have been linked to impaired PC antimicrobial function. The Wnt pathway influences gut mucosal homeostasis and PC maturation, besides directly controlling HD-5/6 gene expression. The herein reported candidate gene study focuses on another crucial Wnt factor, the co-receptor low density lipoprotein receptor-related protein 6 (LRP6). We analysed exonic single nucleotide polymorphisms (SNPs) in a large cohort (Oxford: n = 1,893) and prospectively tested 2 additional European sample sets (Leuven: n = 688, Vienna: n = 1,628). We revealed an association of a non-synonymous SNP (rs2302685; Ile1062Val) with early onset ileal CD (OR 1.8; p = 0.00034; for homozygous carriers: OR 4.1; p = 0.00004) and additionally with penetrating ileal CD behaviour (OR 1.3; p = 0.00917). In contrast, it was not linked to adult onset ileal CD, colonic CD, or ulcerative colitis. Since the rare variant is known to impair LRP6 activity, we investigated its role in patient mucosa. Overall, LRP6 mRNA was diminished in patients independently from the genotype. Analysing the mRNA levels of PC product in biopsies from genotyped individuals (15 controls, 32 ileal, and 12 exclusively colonic CD), we found particularly low defensin levels in ileal CD patients who were carrying the variant. In addition, we confirmed a direct relationship between LRP6 activity and the transcriptional expression of HD-5 using transient transfection. Taken together, we identified LRP6 as a new candidate gene in ileal CD. Impairments in Wnt signalling and Paneth cell biology seem to represent pathophysiological hallmarks in small intestinal inflammation and should therefore be considered as interesting targets for new therapeutic approaches.

Olfactomedin-4 is a glycoprotein secreted into mucus in active IBD.

BACKGROUND Olfactomedin-4 (OLFM4) is a glycoprotein characteristic of intestinal stem cells and apparently involved in mucosal defense of the stomach and colon. Here we studied its expression, regulation and function in IBD. METHODS The expression of OLFM4, mucins Muc1 and Muc2, the goblet cell differentiation factor Hath1 and the proinflammatory cytokine IL-8 was measured in inflamed or noninflamed colon in IBD patients and controls. OLFM4 protein was located by immunohistochemistry, quantified by Dot Blot and its binding capacity to defensins HBD1-3 was investigated. The influence of bacteria with or without the Notch blocker dibenzazepine (DBZ) and of several cytokines on OLFM4 expression was determined in LS174T cells. RESULTS OLFM4 mRNA and protein were significantly upregulated in inflamed CD (4.3 and 1.7-fold) and even more pronounced in UC (24.8 and 3.7-fold). OLFM4 expression was correlated to IL-8 but not to Hath1. In controls immunostaining was restricted to the lower crypts but in inflamed IBD it expanded up to the epithelial surface including the mucus. OLFM4 bound to HBD1-3 without profoundly inactivating these defensins. In LS174T-cells OLFM4 mRNA was significantly augmented after incubation with Escherichia coli K12, Escherichia coli Nissle and Bacteroides vulgatus. DBZ downregulated OLFM4 expression and blocked bacterial induction whereas IL-22 but not TNF-α was stimulatory. CONCLUSIONS OLFM4 is overexpressed in active IBD and secreted into mucus. The induction is triggered by bacteria through the Notch pathway and also by the cytokine IL-22. OLFM4 seems to be of functional relevance in IBD as a mucus component, possibly by binding defensins.