Slug and Snail have differential effects in directing colonic epithelial wound healing and partially mediate the restitutive effects of butyrate.

Restitution of wounds in colonic epithelium is essential in the maintenance of health. Microbial products, such as the short-chain fatty acid butyrate, can have positive effects on wound healing. We used an in vitro model of T84 colonic epithelial cells to determine if the Snail genes Slug (SNAI2) and Snail (SNAI1), implemented in keratinocyte monolayer healing, are involved in butyrate-enhanced colonic epithelial wound healing. Using shRNA-mediated Slug/Snail knockdown, we found that knockdown of Slug (Slug-KD), but not Snail (Snail-KD), impairs wound healing in scratch assays with and without butyrate. Slug and Snail had differential effects on T84 monolayer barrier integrity, measured by transepithelial resistance, as Snail-KD impaired the barrier (with or without butyrate), whereas Slug-KD enhanced the barrier, again with or without butyrate. Targeted transcriptional analysis demonstrated differential expression of several tight junction genes, as well as focal adhesion genes. This included altered regulation of Annexin A2 and ITGB1 in Slug-KD, which was reflected in confocal microscopy, showing increased accumulation of B1-integrin protein in Slug-KD cells, which was previously shown to impair wound healing. Transcriptional analysis also indicated altered expression of genes associated with epithelial terminal differentiation, such that Slug-KD cells skewed toward overexpression of secretory cell pathway-associated genes. This included trefoil factors TFF1 and TFF3, which were expressed at lower than control levels in Snail-KD cells. Since TFFs can enhance the barrier in epithelial cells, this points to a potential mechanism of differential modulation by Snail genes. Although Snail genes are crucial in epithelial wound restitution, butyrate responses are mediated by other pathways as well.NEW & NOTEWORTHY Although butyrate can promote colonic mucosal healing, not all of its downstream pathways are understood. We show that the Snail genes Snail and Slug are mediators of butyrate responses. Furthermore, these genes, and Slug in particular, are necessary for efficient restitution of wounds and barriers in T84 epithelial cells even in the absence of butyrate. These effects are achieved in part through effects on regulation of ß1 integrin and cellular differentiation state.

Altered goblet cell function in Hirschsprung's disease.

AIMS AND OBJECTIVES: Hirschsprung's disease-associated enterocolitis (HAEC) is the most serious complication of Hirschsprung's disease (HSCR). HAEC occurs in 17-50% of patients with HSCR and may occur before or after a properly performed pull-through operation. The pathogenesis of HAEC is poorly understood. It is well recognized that a complex mucosal barrier protects, as the first line of defense, the surface of healthy intestinal tract from adhesion and invasion by luminal micro-organisms. Within the intestinal epithelium, goblet cells secrete gel-forming mucins, the major component of mucus, which block the direct attachment of commensal bacteria to the epithelial layer. Mucin 2 (MUC2) is the predominant mucin expressed in humans. Trefoil factor 3 (TFF3) synergizes with mucin and enhances the protective barrier properties of the mucus layer. SAM pointed domain-containing ETS transcription factor (SPDEF) drives terminal differentiation and maturation of secretory progenitors into goblet cells. Krueppel-like factor 4 (KLF4) is a goblet cell-specific differentiation factor in the colon and controls goblet cell differentiation and activates mucin synthesis. We hypothesized that the goblet cell function in the ganglionic pulled-through bowel in HSCR is abnormal and, therefore, we investigated the changes in goblet cell differentiation and functional expression of mucin in the bowel specimens from patients with HSCR. MATERIAL AND METHODS: We investigated MUC2, TFF3, SPDEF and KLF4 expression, and the goblet cell population in the ganglionic and aganglionic bowel of HSCR patients (n = 10) and controls (n = 10) by qPCR, Western blotting, confocal immunofluorescence, and alcian blue staining. RESULTS: The qPCR and Western blotting analysis revealed that TFF3, SPDEF and KLF4 expressions were significantly downregulated in the aganglionic and ganglionic colon of patients with HSCR as compared to controls (p < 0.05). Alcian blue staining revealed that the goblet cell population was significantly decreased in aganglionic and ganglionic colon as compared to controls (p < 0.05). Confocal microscopy revealed a markedly decreased expression of TFF3, SPDEF and KLF4 in colonic epithelium of patients with HSCR as compared to controls. CONCLUSION: This is, to our knowledge, the first report of decreased expression of TFF3, SPDEF, KLF4, and goblet cell population in the colon of patients with HSCR. Altered goblet cell function may result in intestinal barrier dysfunction contributing to the development of HAEC.

TFF3 Expression as Stratification Marker in Borderline Epithelial Tumors of the Ovary.

Borderline tumors (BOT) of the ovary account for 10% to 20% of ovarian neoplasms. Like ovarian cancer, BOT encompass several different histological subtypes (serous, mucinous, endometrioid, clear cell, transitional cell and mixed) with serous (SBOT) and mucinous (MBOT) the most common. Current hypotheses suggest low-grade serous carcinoma may develop in a stepwise fashion from SBOT whereas the majority of high grade serous carcinomas develop rapidly presumably from inclusion cysts or ovarian surface epithelium. The pathogenesis of mucinous ovarian tumors is still puzzling. Molecular markers could help to better define relationships between such entities. Trefoil factor-3 (TFF3) is an estrogen-regulated gene associated with prognosis in different types of cancer. It has also been included in a recent marker panel predicting subtypes of ovarian carcinoma. We analyzed the expression of TFF3 by immunohistochemistry in a cohort of 137 BOT and its association with histopathological features. Overall expression rate of TFF3 was 21.9%. None of the BOT with serous and endometrioid histology displayed strong TFF3 expression. On the other hand, TFF3 was highly expressed in 61.4% of MBOT cases and 33.3% of BOT with mixed histology (P < 0.001) suggesting a potential function of the protein in that subtypes. Associations of TFF3 expression with FIGO stage and micropapillary pattern were significant in the overall cohort but confounded by their correlation with histological subtypes. The highly specific expression of TFF3 in MBOT may help to further clarify potential relationships of tumors with mucinous histology and warrants further studies.

Differences between gastric signet-ring cell carcinoma and poorly differentiated adenocarcinoma: A comparison of histopathologic features determined by mucin core protein and trefoil factor family peptide immunohistochemistry.

We investigated differences between the pathological features of gastric signet-ring cell carcinoma (sig) and poorly differentiated adenocarcinoma (por) by examining the expressions of the trefoil factor family peptides (TFFs) and mucin core proteins (MUCs). Ninety-seven tissues of 97 gastric cancer patients were selected for this study. After gastrectomy, the major histopathologic types were determined to be sig, solid-type poorly differentiated adenocarcinoma (por1), non-solid type poorly differentiated adenocarcinoma (por2), and well-differentiated tubular adenocarcinoma (tub1). We evaluated the prevalence of positive staining for MUCs (MUC5AC and MUC2) and TFFs (TFF1 and TFF3) and assessed the correlation between MUCs and TFFs in each histopathological type. The rate of MUC2 expression significantly differed between sig and por2 (50.0% vs 11.7%, P = 0.011). TFF3 expression in sig significantly differed from TFF3 expression in both por2 (100% vs 17.6%, P < 0.0001) and por1 (100% vs 33.3%, P = 0.0004). MUC5AC and TFF1 expressions were significantly correlated in por1 (r = 0.705, P = 0.002), por2 (r = 0.535, P = 0.0009), and tub1 (r = 0.470, P = 0.0034), while MUC2 and TFF3 expressions were significantly correlated only in sig (r = 0.593, P = 0.040). The expression and correlation patterns of the TFFs and MUCs suggest that the histopathologic features of gastric sig differ from those of por.

Inducible gene modification in the gastric epithelium of Tff1-CreERT2, Tff2-rtTA, Tff3-luc mice.

Temporal and spatial regulation of genes mediated by tissue-specific promoters and conditional gene expression systems provide a powerful tool to study gene function in health, disease, and during development. Although transgenic mice expressing the Cre recombinase in the gastric epithelium have been reported, there is a lack of models that allow inducible and reversible gene modification in the stomach. Here, we exploited the gastrointestinal epithelium-specific expression pattern of the three trefoil factor (Tff) genes and bacterial artificial chromosome transgenesis to generate a novel mouse strain that expresses the CreERT2 recombinase and the reverse tetracycline transactivator (rtTA). The Tg(Tff1-CreERT2;Tff2-rtTA;Tff3-Luc) strain confers tamoxifen-inducible irreversible somatic recombination and allows simultaneous doxycycline-dependent reversible gene activation in the gastric epithelium of developing and adult mice. This strain also confers luciferase activity to the intestinal epithelium to enable in vivo bioluminescence imaging. Using fluorescent reporters as conditional alleles, we show Tff1-CreERT2 and Tff2-rtTA transgene activity in a partially overlapping subset of long-term regenerating gastric stem/progenitor cells. Therefore, the Tg(Tff1-CreERT2;Tff2-rtTA;Tff3-Luc) strain can confer intermittent transgene expression to gastric epithelial cells that have undergone previous gene modification, and may be suitable to genetically model therapeutic intervention during development, tumorigenesis, and other genetically tractable diseases. Birth Defects Research (Part A) 106:626-635, 2016. © 2016 Wiley Periodicals, Inc.