Differential glucocorticoid effects on repair mechanisms and NF-kappaB activity in the intestinal epithelium

Glucocorticoids are effective agents in the management of inflammatory bowel diseases. However, information about their effects on repair mechanisms of the intestinal epithelium is incomplete.Therefore, the aim was to analyse in vitro effects of glucocorticoids on proliferation, restitution, and apoptosis as well as their effects on activity and expression of nuclear factor (NF)-kappaB, a known regulator of apoptosis and inflammation, in intestinal epithelial cells.Non-transformed rat jejunum epithelial cells (IEC-6) were cultured in the presence and absence of various concentrations of prednisolone and budesonide. IEC-6 cell proliferation was assessed by [3H]-thymidine incorporation. Restitution was analysed by an IEC-6 in vitro assay. Apoptosis was evaluated by ELISA and fluorescence microscopy. DNA binding activity and nuclear expression of NF-kappaB was determined by electrophoretic mobility shift assays and Western blotting, respectively.Prednisolone and budesonide stimulated IEC-6 cell proliferation at low to medium pharmacologic concentrations (prednisolone: 10(-9) to 10(-6) M; budesonide: 10(-11) to 10(-8) M). In contrast, high concentrations (>5 x 10(-5) M) had inhibitory effects on proliferation. 10(-7) M prednisolone and 10(-8) M budesonide increased restitution of IEC-6 cells, whereas high concentrations (10(-4) M) of prednisolone and budesonide decreased restitution. Apoptosis of IEC-6 cells was substantially enhanced by 10(-4) M budesonide; apoptosis was slightly increased by the highest prednisolone concentration used (5 x 10(-4) M). Furthermore, both glucocorticoids inhibited DNA binding activity and nuclear NF-kappaB expression in IEC-6 cells in a dose- and time-dependent fashion.In conclusion, prednisolone and budesonide modulate repair mechanisms of intestinal epithelial cells in vitro in a dose-dependent manner and profoundly modulate the inflammatory regulator NF-kappaB.     

Permeability of milk protein antigens across the intestinal epithelium in vitro

Degradations by proteolytic enzymes and intestinal epithelial permeability represent two major drawbacks to the transfer of food protein antigens to blood. These steps were studied in vitro for the milk protein antigens beta-lactoglobulin (beta-Lg), alpha-Lactalbumin (alpha-La) and beta-casein (beta-cas). Pepsin-trypsin hydrolysis and permeability in isolated rabbit ileum in Ussing chamber were suited by ELISA and radiolabelled-protein measurement. Pepsin-trypsin hydrolysis showed an increasing resistance in the order beta-cas less than alpha-La less than beta-Lg. The rate of absorption of the antigenic proteins by isolated rabbit ileum was in the same order, and the rate of absorption of the whole proteins (degraded and antigenic forms) was significantly higher for beta-Lg than for alpha-La and beta-cas. These results suggest a selective intestinal permeability for milk protein antigens. This selectivity is probably important in the mechanism of food protein sensitization via the oral route.     

Effects of amino acid-derived luminal metabolites on the colonic epithelium and physiopathological consequences

Summary. Depending on the amount of alimentary proteins, between 6 and 18 g nitrogenous material per day enter the large intestine lumen through the ileocaecal junction. This material is used as substrates by the flora resulting eventually in the presence of a complex mixture of metabolites including ammonia, hydrogen sulfide, short and branched-chain fatty acids, amines; phenolic, indolic and N-nitroso compounds. The beneficial versus deleterious effects of these compounds on the colonic epithelium depend on parameters such as their luminal concentrations, the duration of the colonic stasis, the detoxication capacity of epithelial cells in response to increase of metabolite concentrations, the cellular metabolic utilization of these metabolites as well as their effects on colonocyte intermediary and oxidative metabolism. Furthermore, the effects of metabolites on electrolyte movements through the colonic epithelium must as well be taken into consideration for such an evaluation. The situation is further complicated by the fact that other non-nitrogenous compounds are believed to interfere with these various phenomenons. Finally, the pathological consequences of the presence of excessive concentrations of these compounds are related to the short- and, most important, long-term effects of these compounds on the rapid colonic epithelium renewing and homeostasis.     

Effects of TGF-beta on retinal pigmented epithelium in vitro

Embryonic chick retinal pigmented epithelium (RPE) has been grown on glass derivatized with covalently bound proteins of basement membrane and treated with transforming growth factor-beta (TGF-beta). In the present paper we show that over the concentration range tested (0.1-10 ng/ml) TGF-beta has no effect on RPE cell proliferation either in the presence or the absence of serum, cell motility and the organization of cytoskeleton-extracellular matrix linkage complexes with respect to their structure and presence of actin, vinculin, talin, integrin and fibronectin. The protein profiles of total cell/ECM extracts of cells grown in the presence or the absence of TGF-beta are similar although some stimulation of protein synthesis and of production of fibronectin-containing extracellular matrix has been detected.     

溃疡性结肠炎肠道菌群及其代谢产物的研究进展

溃疡性结肠炎(UC)是一种病因尚未阐明的慢性非特异性肠道炎症疾病,多认为由易感人群免疫反应紊乱所致,疾病负担重,严重影响生活质量。近年随着人们生活方式的改变与诊断水平的提升,UC发病率和患病率逐年增加。研究显示肠道菌群及其代谢产物在UC的发生发展过程中起着关键作用,包括调节免疫、参与信号转导、保护肠黏膜屏障和营养代谢等,肠道菌群代谢产物的紊乱及微生态的失衡在炎症的形成及发展、免疫应激及稳态等方面产生重要影响。该文对近年来肠道菌群及其代谢产物与UC关系的相关研究作一综述,并探讨基于肠道菌群以及其代谢产物的UC防治策略。     

肠道菌群及其代谢产物与高血压的相关性研究进展

高血压是一种常见的慢性疾病, 是世界上最严重的公共卫生问题之一, 其发病机制尚未完全阐明。人体肠道菌群与疾病的发生相关, 高血压患者或高血压动物模型肠道中均存在菌群失调, 肠道菌群及其代谢产物被证明与高血压的发生密切相关。本文综述了国内外的相关研究进展, 从与高血压相关的肠道菌群种类、代谢产物及作用机制等多方面讨论了肠道菌群及其代谢产物与高血压的相关性, 以期从肠道菌群及其代谢产物的角度对高血压的防治提供思路和方法。

     

肠上皮与肠道微生物相互作用研究进展

肠道不仅是消化和吸收的主要场所,也是机体重要的免疫器官。人类肠道中存在着超过百万亿的微生物,其在漫长的自然选择及共同进化中与宿主形成了紧密的共生关系。肠上皮是先天免疫的一个组成部分,通过各种黏膜保护屏障将肠腔内容物与机体内环境分隔开。各种肠上皮细胞相互协调维持肠道内稳态,并与肠道微生物、肠黏膜免疫系统共同形成抵御肠腔内有害抗原的第一道防线。肠上皮作为肠道微生物和肠黏膜免疫系统相互作用的枢纽,在黏膜免疫防御体系中具有重要作用,本文就肠上皮与肠道微生物之间的相互作用进行综述,旨在深入理解肠上皮,为探索肠道相关疾病的治疗提供新思路。     

Comparison of in vitro models to study bacterial adhesion to the intestinal epithelium

Aims:  To evaluate the adhesion ability of intestinal bacteria to different in vitro models of intestinal epithelia, and to estimate the suitability of these models and the type of interactions involved.
Methods and results:  The adhesion of probiotic ( Lactobacillus rhamnosus GG and Bifidobacterium animalis subsp . lactis Bb12), commensal ( B. animalis IATA-A2 and B. bifidum IATA-ES2) and potentially pathogenic bacteria ( E. coli and L. monocytogenes ) was determined. The adhesion models used were polycarbonate-well plates, with or without mucin, and different configurations of Caco-2 and/or HT29-MTX cell cultures. All bacteria adhered to wells without mucin (2·6–27·3%), the values being highly variable depending on the bacterial strain. Adhesion percentages of potentially probiotic bacteria to Caco-2 cultures were remarkably lower ( P  <   0·05) than those to mucin, and more similar to those of pathogenic strains. The lowest adhesion of different bacterial strains was detected on HT29-MTX (0·5–2·3%) cultures and Caco-2/HT29-MTX (0·6–3·2%) cocultures, while these values were increased in Caco-2 cultures plus mucin.
Conclusions:  The results suggested that bacterial strains exhibit different capacities to adhere to cellular components and several types of mucin present in different models, showing preferences for intestinal MUC2.
Significance and impact of the study:  The use of Caco-2 cells monolayer plus mucin (type II) better approaches the physiological characteristics of in vivo situation, providing a reliable and suitable in vitro model to evaluate bacterial adhesion.     

Stem cells of intestinal epithelium. The mechanisms of survival and the role of microbiota

The thanatogenetic mechanisms of stem cells (sc) of rapidly renewing system of intestinal epithelium still remain unclear. on the one hand they are definitely involved into basic mechanisms of carcinogenesis in the gastrointestinal tract, because dysregulation of programs responsible for elimination of “unwanted” mutant cells (which are normally under immune and own intrinsic control) is one of the reasons of neoplastic expansion. on the other hand elucidation and characterization of the regulatory machinery controlling sc survival are interrelated with problems of clinical medicine, including the increase of therapeutic efficiency of treatment of inflammatory and ulcer lesions of the gut, traumatic and surgical wounds, as well as restriction of side effects in normal tissues induced by application of intensive methods chemo- and radiotherapy of cancer. the latter is especially important for treatment of blood diseases and tumors of peritoneal cavity organs mainly due to bone marrow and intestinal epithelium damage. (These tissues are the most sensitive to these treatments.) The review considers data on exogenous and genetic modifiers of sc survival, and also the basic principles of mechanisms involved into renewal and regeneration of sc and the effects of microbiota on these processes.     

Serosal zinc attenuate serotonin and vasoactive intestinal peptide induced secretion in piglet small intestinal epithelium in vitro

This study addressed the mechanisms by which dietary zinc affects diarrhoea and aimed to study possible interactions between zinc status and the presence of zinc in vitro on secretagogue-induced secretion from piglet intestinal epithelium in Ussing chambers. In addition, it was studied from which side of the epithelium zinc would perform an effect and if copper caused similar effects. Twenty-four piglets (28 days of age) were weaned and fed diets containing 100 or 2500 mg zinc/kg (as ZnO) for 5 or 6 days (12 piglets per group). Intestinal epithelium underwent the following 5 treatments: zinc at the mucosal side (M(Zn)), zinc at the serosal side (S(Zn)), zinc at both sides (MS(Zn)), copper at both sides (MS(Cu)) or water at both sides (control). Provoked secretion in terms of short circuit responses to serotonin (5-HT) and vasoactive intestinal peptide (VIP) were measured. Zinc at the serosal or both sides of the epithelium reduced the 5-HT induced secretion (P<0.001); however, due to interactions (P=0.05) the effect of zinc in vitro was only present in the ZnO(100) group. The secretion caused by VIP was not affected by the diet (P=0.33), but zinc at the serosal side or both sides reduced the response to VIP (P<0.001). Copper reduced the 5-HT and VIP induced secretion to a larger extent than zinc. However, copper also disturbed intestinal barrier function as demonstrated by increased transepithelial conductance and increased short circuit current, which was unaffected by zinc. In conclusion, zinc at the serosal side of piglet small intestinal epithelium attenuated 5-HT and VIP induced secretion in vitro. These in vitro studies indicate that in vivo there will be no positive acute effect of increasing luminal Zn concentration on secretagogue-induced chloride secretion and that zinc status at the serosal side of the epithelium has to be increased to reduce secretagogue-induced chloride secretion and thereby diarrhoea.     

Gelatinase B is involved in the in vitro wound repair of human respiratory epithelium

Following epithelial injury, extracellular matrix undergoes imposing remodelings. We examined the contribution of matrix metalloproteinases, gelatinases A and B, in an in vitro wound repair model of human respiratory epithelium. Confluent human surface respiratory epithelial (HSRE) cells cultured from dissociated surface cells of human nasal polyps were chemically injured. Over the next 3 to 5 days, cells migrated onto the injured area to repair the circular wound. Repair kinetics of these wounds was monitored until wound closure occurred. Gelatinolytic activities were analysed in culture supernates and in cell protein extracts derived from repairing migratory and non repairing stationary cells. Small amounts of gelatinase A were expressed by HSRE cells, and variations of this gelatinase remained very weak for the time of the wound repair. In contrast, gelatinase B was upregulated during the wound repair process, with a maximum peak observed at wound closure. A marked gelatinase B activation occurred only in cells involved in the repair process. Gelatinase B was localized in some migratory basal cells, recognized by an anti-cytokeratin 14 antibody and located around the wound. We could not detect any gelatinase A in repairing or in stationary HSRE cells. Addition of the 6-6B monoclonal antibody, known to inhibit gelatinase B activation, to the culture medium during the repair process resulted in a dose-dependent decrease of the wound repair speed. These results suggest that gelatinase B, produced by epithelial cells, actively contributes to the wound repair process of the respiratory epithelium. © 1996 Wiley-Liss, Inc.     

Effects of irradiation on intestinal cells in vivo and in vitro

The effects of irradiation on intestinal epithelial cells were analyzed in vivo and in vitro. The in vivo study was carried out on the rat small intestine and for the in vitro study the intestinal crypt cell-line IEC-6 was used. Rat intestine and IEC-6 cells were irradiated with X-ray doses ranging between 1-16 Gy. Energy-dispersive X-ray microanalysis was used for detection of the elemental changes in the cells. Cell morphology was investigated in the scanning electron microscope, DNA-synthesis by autoradiography of 3H-thymidine incorporating nuclei and proliferation by cell counting. Our results indicate that in vivo, in the crypt cells, the increasing doses of irradiation led to increased sodium and lowered potassium and phosphorus concentrations. Corresponding ion shifts were found in the irradiated IEC-6 cells. Cells continued to proliferate up to the dose of 8 Gy, although the proliferation rate became lower with increasing dose of irradiation. The increasing dose of irradiation significantly reduced DNA-synthesis (16 Gy decreased DNA-synthesis by 50%) which resulted in a complete inhibition of cell proliferation. Analysis of goblet cells also showed characteristic radiation-dependent elemental changes. Scanning electron microscopical investigation of cells in culture revealed that most of the control cells were flat and had rather smooth cell membranes. Irradiation led to the appearance of numerous different membrane manifestations (microvilli of varying length and distribution, and blebs). Frequency of differences in the topology of the cells was related to the dose of irradiation. Our study clearly demonstrates that even low doses of irradiation cause changes in the ionic composition of the cells and inhibit DNA-synthesis and cell proliferation. The effects observed in the crypt cells in vivo were the same as in the intestinal cell line in vitro, which indicates that IEC-6 cells can be used for investigation of side effects of radiation to the abdomen.     

An in vitro approach to the evaluation of the cross talk between intestinal epithelium and macrophages

The intestinal epithelium acts as a mucosal barrier by varying their signals to immune cells within the intestine. To observe the cross talk between intestinal epithelium and macrophages, we establish a Caco-2-THP-1 co-culture system. Using this co-culture system, we suggested that paracrine factors of intestinal epithelium increased the phagocytic capacity of intestinal monocytes/macrophages to be ready for immune and inflammatory responses.     

The influence of fructose and its metabolites on ethanol metabolism in vitro

1. Fructose caused an increase in the rate of ethanol oxidation by rat-liver slices, and d-glyceraldehyde was found to have a similar effect. 2. Addition of glycerol lowered the rate of ethanol oxidation if the incubation medium contained fructose and ethanol, but no such effect was found if it contained glucose and ethanol. 3. The formation of glycerol by the slices during incubation and the concentration of alpha-glycerophosphate in the slices were highest in medium containing fructose and ethanol. 4. In experiments without ethanol in the incubation medium, fructose strongly increased the pyruvate concentration, which resulted in a decrease of the lactate/pyruvate concentration ratio. Addition of ethanol to the medium resulted in a marked decrease in pyruvate concentration. 5. Oxygen consumption is greater in slices incubated in medium containing fructose and ethanol than in slices incubated in medium containing glucose and ethanol.     

Effects of quercetin and menadione on intestinal calcium absorption and the underlying mechanisms

Quercetin (QT) could be considered as a potential therapeutic agent for different diseases due to its antioxidant, anti-inflammatory, antiviral and anticancer properties. This study was designed to investigate the ability of QT to protect the chick intestine against menadione (MEN) induced injury in vivo and in vitro. Four-week old chicks (Gallus gallus) were treated i.p. with 2.5 μmol of MEN/kg b.w. or with i.l. 50 μM QT or both. QT protected the intestinal Ca²⁺ absorption against the inhibition caused by MEN, but QT alone did not modify. Glutathione (GSH) depletion provoked by MEN in chick enterocytes was abolished by QT treatment, whereas QT alone did not modify the intestinal GSH content. The enhancement of GSH peroxidase activity produced by MEN was blocked by QT treatment. In contrast, superoxide dismutase activity remained high after simultaneous treatment of enterocytes with MEN and QT. The flavonol also avoided changes in the mitochondrial membrane permeability (swelling) produced by MEN. The FasL/Fas/caspase-3 pathway was activated by MEN, effect that was abrogated by QT. In conclusion, QT may be useful in preventing inhibition of chick intestinal Ca²⁺ absorption caused by MEN or other substances that deplete GSH, by blocking the oxidative stress and the FasL/Fas/caspase-3 pathway activation.