骶神经电刺激对脊髓损伤大鼠肠黏膜机械屏障的保护作用

目的：观察骶神经电刺激对脊髓损伤大鼠肠黏膜机械屏障的保护作用。方法：56只Wistar大鼠分7组（n=8）：正常组、急性完全性脊髓损伤（SCI）组和骶神经电刺激组（按24、48、72h各8只）。进行内毒素测定;肠系膜淋巴结、肝脏、脾脏菌培养;肠道形态学观察;紧密连接蛋白zo-1的蛋白表达测定。结果：对照组肠黏膜不同程度损伤;肠道上皮细胞及细胞间连接破坏;内毒素血症和细菌移位明显。实验组肠黏膜得到改善,内毒素水平下降且细菌移位减少。ZO-1蛋白表达无统计学差异。对照组ZO-1的分布出现不同程度的散乱、排列不规则,实验组分布得到改善。结论：骶神经电刺激可促肠蠕动、排肠内容物、减少肠道菌群数量,保护肠黏膜上皮细胞及紧密连接的机械屏障,减少细菌移位和内毒素血症。     

A potential role of GW4064 to inhibit gut bacterial overgrowth by activating FXR in suppression of ethanol-induced liver injury

Hepatic parenchymal and nonparenchymal cells are highly susceptible to ethanol and its metabolites, and excessive alcohol consumption results in damage to the liver. Ethanol induces an increased prevalence for bacterial overgrowth in the small intestine and translocation of endotoxin into the portal blood. Some studies have pointed to a role for activation of Kupffer cells by gut bacteria-derived endotoxin as a primary event in mechanisms of alcoholic liver injury (ALD). GW4064, a potent farnesoid X receptor (FXR) agonist, has been developed as a hepatoprotective agent, and has been used in animal models of a variety of liver diseases. At the same time, previous experimental results showed that BAs and GW4064 inhibit bacterial overgrowth in the small intestine. It is logical to postulate that GW4064 may control or alleviate the ethanol-induced liver injury through inhibiting gut bacterial overgrowth. GW4064 activates FXR, which induces the expression of several genes with potential functions in mucosal defense to prevent intestinal bacteria overgrowth and translocation into the circulation induced by ethanol, and then will alleviate ethanol-induced liver injury. The hypothesis will provide the brand-new direction that we may prevent and treat ALD by using GW4064 through activating FXR to control gut bacteria overgrowth.     

Ultrastructure of surface epithelial cells of the normal human rectum

Luminal surface epithelial cells, excluding a few endocrine cells of the normal human rectum, were studied electron microscopically and 5 types of cells were recognized with special reference to some structure containing mucous substances. Principal-1 cells showing few tiny vesicles and Principal-2 cells containing some tiny vesicles seemed to belong to the absorptive cell group. Vesicle cells having numerous tiny vesicles, and Columnar mucous cells accompanied by numerous tiny vesicles and some round or oval mucous vacuoles, seemed to be labelled as of the secretory cell group. The common features of the epithelial columnar cells, except for the Goblet cell, were columnar shape, microvilli whose length and density had considerable variation, glycocalyceal bodies around the microvilli, and thick surface coat. Goblet cells were characterized by a goblet shape which was expanded by numerous mucous droplets. It is of special interest that 4 different types of columnar epithelial cells are recognized on the luminal surface of the normal human rectum, and that Vesicle cells and Columnar mucous cells are first observed on the luminal surface of the large intestine. Similar epithelial cells have only been reported in the crypt of the large intestine and not on the luminal surface.     

Ultrastructure adaptations of symbiotic bacteria associated with freshwater fish and their cestode parasites

The ultrastructure of symbiotic bacteria colonizing the mucous membrane of the gut of freshwater fish and the tegument surface of their cestodes was studied. A comparative analysis of published and original data made it possible to define the ultrastructure peculiarities promoting the adaptation of bacteria to the digestive transport surfaces of fish and their intestinal parasites. The studied peculiarities may be split into three groups: (1) the structure and composition of the bacterial cell surface, which allows the colonization of gut epithelia and cestode tegument; (2) the intracellular ultrastructure of the bacteria; and (3) the reorganization of cell types, i.e., the formation of the dormant cells and nanobacteria.     

Intestinal colonization with bifidobacteria affects the expression of galectins in extraintestinal organs

This study aimed at determining the contribution of intestinal bifidobacteria to the immune system activation using widely distributed galectins as markers of immune cell homoeostasis. In human flora-associated mice, bacteria were enumerated in the gut, blood, spleen, liver and lungs, while the expression of galectin-1 (Gal-1) and galectin-3 (Gal-3) was estimated by PCR in the intestine and real-time quantitative PCR in the other organs. Gal-1 and -3 were rarely expressed in the intestine. In blood, only Gal-1 was expressed while both galectins were expressed in all other organs. A high prevalence of colonic bifidobacteria was associated with a lower expression of both pulmonary galectins, whose levels negatively correlated with bifidobacterial counts. Caecal bifidobacterial counts also negatively correlated with pulmonary Gal-3 mRNA levels. The spleen was the only organ showing an upregulation of Gal-1 expression related to its bacterial contamination. However, this upregulation was only observed when bifidobacteria were not detected in the colon. A putative mechanism explaining the reduced expression of galectins when bifidobacteria highly colonize the mouse intestine could be that, by reducing the bacterial translocation, bifidobacteria also lead to a decreased blood concentration of substances produced by intestinal bacteria.     

Depletion of gut commensal bacteria attenuates intestinal ischemia/reperfusion injury

Gut commensal bacteria play important roles in the development and homeostasis of intestinal immunity. However, the role of gut commensals in intestinal ischemia/reperfusion (I/R) injury is unclear. To determine the roles of gut commensal bacteria in intestinal IR injury, we depleted gut microbiota with a broad-spectrum antibiotic cocktail and performed mesenteric I/R (M I/R). First, we confirmed that antibiotic treatment completely depleted gut commensal bacteria and diminished the size of secondary lymphoid tissues such as the Peyer's patches. We next found that antibiotic treatment attenuated intestinal injury following M I/R. Depletion of gut commensal bacteria reduced the expression of Toll-like receptor (TLR)2 and TLR4 in the intestine. Both are well-known receptors for gram-positive and -negative bacteria. Decreased expression of TLR2 and TLR4 led to the reduction of inflammatory mediators, such as TNF, IL-6, and cyclooxygenase-2. Intestinal I/R injury is initiated when natural antibodies recognize neo-antigens that are revealed on ischemic cells and activate the complement pathway. Thus we evaluated complement and immunoglobulin (Ig) deposition in the damaged intestine and found that antibiotic treatment decreased the deposition of both C3 and IgM. Interestingly, we also found that the deposition of IgA also increased in the intestine following M I/R compared with control mice and that antibiotic treatment decreased the deposition of IgA in the damaged intestine. These results suggest that depletion of gut commensal bacteria decreases B cells, Igs, and TLR expression in the intestine, inhibits complement activation, and attenuates intestinal inflammation and injury following M I/R.     

Epithelium-associated bacteria in the gastrointestinal tract of Arctic charr (Salvelinus alpinus L.). An electron microscopical study

AIMS: The primary aim was to use transmission electron microscopy (TEM) and scanning electron microscopy (SEM) to define the location of epithelium-associated bacteria in the digestive tract of the salmonid fish, Arctic charr (Salvelinus alpinus). METHODS AND RESULTS: TEM and SEM examination of the gastrointestinal tract demonstrated substantial numbers of ovoid and rod-shaped bacterial cells associated with the microvillous brush borders of enterocytes. Bacteria were found at the tips of microvilli as well as between adjacent microvilli. Endocytosis of bacteria by epithelial cells was observed in two regions (pyloric caeca and midgut). CONCLUSION: Electron microscope examination of the gut is an important tool for evaluating the microbial ecology of the fish digestive tract ecosystem. SIGNIFICANCE AND IMPACT OF THE STUDY: The results of the current study clearly demonstrate that the intestine is involved in bacterial endocytosis.     

Immunohistochemical Localization of Six Galectin Subtypes in the Mouse Digestive Tract

Galectin, an animal lectin that recognizes β-galactoside of glycoconjugates, is abundant in the gut. This IHC study showed the subtype-specific localization of galectin in the mouse digestive tract. Mucosal epithelium showed region/cell-specific localization of each galectin subtype. Gastric mucous cells exhibited intense immunoreactions for galectin-2 and galectin-4/6 with a limited localization of galectin-3 at the surface of the gastric mucosa. Electron microscopically, galectin-3 immunoreactivity coated indigenous bacteria on the gastric surface mucous cells. Epithelial cells in the small intestine showed characteristic localizations of galectin-2 and galectin-4/6 in the cytoplasm of goblet cells and the baso-lateral membrane of enterocytes in association with maturation, respectively. Galectin-3 expressed only at the villus tips was concentrated at the myosin-rich terminal web of fully matured enterocytes. Epithelial cells of the large intestine contained intense immunoreactions for galectin-3 and galectin-4/6 but not for galectin-2. The stratified squamous epithelium of the forestomach was immunoreactive for galectin-3 and galectin-7, but the basal layer lacked galectin-3 immunoreactivity. Outside the epithelium, only galectin-1 was localized in the connective tissue, smooth muscles, and neuronal cell bodies. The subtype-specific localization of galectin suggests its important roles in host-pathogen interaction and epithelial homeostasis such as membrane polarization and trafficking in the gut. (J Histochem Cytochem 57:41–50, 2009)     

Role of intestinal bacteria in gliadin-induced changes in intestinal mucosa: study in germ-free rats

Background and Aims

Celiac disease (CD) is a chronic inflammatory disorder of the small intestine that is induced by dietary wheat gluten proteins (gliadins) in genetically predisposed individuals. The overgrowth of potentially pathogenic bacteria and infections has been suggested to contribute to CD pathogenesis. We aimed to study the effects of gliadin and various intestinal bacterial strains on mucosal barrier integrity, gliadin translocation, and cytokine production.

Methodology/Principal Findings

Changes in gut mucosa were assessed in the intestinal loops of inbred Wistar-AVN rats that were reared under germ-free conditions in the presence of various intestinal bacteria (enterobacteria and bifidobacteria isolated from CD patients and healthy children, respectively) and CD-triggering agents (gliadin and IFN-γ) by histology, scanning electron microscopy, immunofluorescence, and a rat cytokine antibody array. Adhesion of the bacterial strains to the IEC-6 rat cell line was evaluated in vitro.Gliadin fragments alone or together with the proinflammatory cytokine interferon (IFN)-γ significantly decreased the number of goblet cells in the small intestine; this effect was more pronounced in the presence of Escherichia coli CBL2 and Shigella CBD8. Shigella CBD8 and IFN-γ induced the highest mucin secretion and greatest impairment in tight junctions and, consequently, translocation of gliadin fragments into the lamina propria. Shigella CBD8 and E. coli CBL2 strongly adhered to IEC-6 epithelial cells. The number of goblet cells in small intestine increased by the simultaneous incubation of Bifidobacterium bifidum IATA-ES2 with gliadin, IFN-γ and enterobacteria. B. bifidum IATA-ES2 also enhanced the production of chemotactic factors and inhibitors of metalloproteinases, which can contribute to gut mucosal protection.

Conclusions

Our results suggest that the composition of the intestinal microbiota affects the permeability of the intestinal mucosa and, consequently, could be involved in the early stages of CD pathogenesis.     

肝硬化大鼠细菌易位以及甜菜碱的干预作用

【目的】研究肝硬化大鼠的细菌易位情况,并探讨甜菜碱对其的干预作用。【方法】随机将48只健康雄性SD(Sprague dawley,SD)大鼠分为四组:正常对照组(N),甜菜碱干预的正常对照组(NB),肝硬化模型组(M),甜菜碱干预的肝硬化模型组(MB)。采用复合致病因素法诱导大鼠肝硬化,NB组和MB组使用1 000 mg/(kg w·d)的甜菜碱水溶液灌胃,N组和M组使用等体积饮用水灌胃;HE染色观察肝脏与小肠损伤情况,并检测各组动物脏器指数与细菌易位情况。【结果】M组大鼠体重增长缓慢(与N组比较,4周和6周时间点均P=0,P0.01);与M组相比,MB组大鼠体重增长较快,至6周时间点体重差异显著(P=0.023,P0.05)。与N组相比,M组动物4周时间点肝脏指数显著升高(P=0,P0.01);6周时间点肝脏(P=0,P0.01)、脾脏指数(P=0.038,P0.05)均显著升高,肾脏指数显著降低(P=0.019,P0.05);与M组相比,6周时间点MB组动物肝脏指数(P=0.038,P0.05)明显降低,肾脏指数(P=0.011,P0.05)明显升高。M组动物肝、肠组织发生明显病理学改变;MB组动物病理学改变减轻。M组发生细菌易位的大鼠数量升高,4周时主要易位于MLN,6周时主要易位于MLN和肾脏;MB组发生细菌易位的大鼠数量有所减少,其中6周时易位至MLN的大鼠数量明显减少(P=0.046,P0.05)。【结论】复合致病因素诱导的肝硬化大鼠,发生细菌易位的器官主要是MLN和肾脏,易位的细菌可通过淋巴管道转位,并随肝硬化病程进展趋于严重。甜菜碱除了其转甲基的保护作用以外,很可能还通过对肠道的保护作用,在一定程度上阻止了肝硬化动物细菌易位的发生,从而发挥了对肝脏的保护作用     

菲牛蛭消化系统的组织学和组织化学研究

利用解剖、HE和AB-PAS染色技术研究了菲牛蛭消化系统的形态结构及组织化学特征。结果表明, 菲牛蛭消化系统由消化管和单细胞唾液腺组成。消化管包括口、咽、食道、嗉囊、肠、直肠和肛门。口开孔于前吸盘腹中部, 口腔内有3片呈三角形排列的颚片, 颚片由辐射肌和横纹肌构成, 其脊上具单列细齿, 可切开寄主皮肤。单细胞唾液腺开口于颚片两侧的乳突上, 可分泌蛭素; 咽呈短球形, 由黏膜层、肌层和外膜构成,肌层发达; 食道短而窄, 黏膜层见少量杯状细胞和大量嗜酸性颗粒; 嗉囊两侧有10对侧盲囊, 最后一对侧盲囊最长且延伸至肛门两侧; 肠部尚无明显分化, 可细分为肠和直肠。肠前段腔内有多个盲囊状的细管, 形成 肠内盲囊, 黏膜层具较多腺细胞, 黏膜下层发达, 具丰富的血管和淋巴细胞; 直肠肠腔明显大于肠的肠腔, 褶皱高度明显比肠的低, 上皮细胞间可见少量杯状细胞。AB-PAS染色结果显示菲牛蛭消化管黏液细胞有4种类型: Ⅰ型被染成红色, Ⅱ型被染成蓝色, Ⅲ型染成紫红色, Ⅳ型染成蓝紫色。口腔部黏液细胞分布以Ⅳ型和Ⅲ型为主, 少量Ⅱ型与Ⅰ型黏液细胞, 咽部以Ⅲ型为主, 食道、嗉囊、肠前部以及直肠壁均无酸性和中性黏液细胞存在, 肠中后部以Ⅰ型为主, 肛门壁存在大量的Ⅱ型黏液细胞。讨论了菲牛蛭消化管结构特点与食性的关系等问题, 发现肠是菲牛蛭整个消化管最主要的消化和吸收场所, 且消化管特殊的结构特征决定了菲牛蛭主要以血液作为食物来源。     

光唇鱼消化道的形态结构特征

采用解剖及石蜡切片显微技术,观察研究了光唇鱼消化道的形态结构特征。消化道由口咽腔、食道、肠构成。口下位、马蹄形,无颌齿,具咽齿,齿式为4/4。舌较小,前端游离,舌粘膜表层为复层鳞状上皮,有较多的杯状细胞和味蕾。食道及肠均由粘膜层、粘膜下层、肌层及外膜构成。食道内皱襞发达,粘膜层有大量杯状细胞。肠道盘曲,由前、中、后肠组成,肠长/体长为1.84±0.24;前肠管腔较大,中、后肠管腔渐变小;前、中肠皱襞及纹状缘比后肠发达;前肠及后肠杯状细胞较少,中肠杯状细胞较多。光唇鱼消化道的形态结构特征与其食性相适应。     

Proteomic Profiling of Enteroid Cultures Skewed toward Development of Specific Epithelial Lineages

Recently, 3D small intestinal organoids (enteroids) have been developed from cultures of intestinal stem cells which differentiate in vitro to generate all the differentiated epithelial cell types associated with the intestine and mimic the structural properties of the intestine observed in vivo. Small‐molecule drug treatment can skew organoid epithelial cell differentiation toward particular lineages, and these skewed enteroids may provide useful tools to study specific epithelial cell populations, such as goblet and Paneth cells. However, the extent to which differentiated epithelial cell populations in these skewed enteroids represent their in vivo counterparts is not fully understood. This study utilises label‐free quantitative proteomics to determine whether skewing murine enteroid cultures toward the goblet or Paneth cell lineages results in changes in abundance of proteins associated with these cell lineages in vivo. Here, proteomics data confirms that skewed enteroids recapitulate important features of the in vivo gut environment, demonstrating that they can serve as useful models for the investigation of normal and disease processes in the intestine. Furthermore, comparison of mass spectrometry data with histology data contained within the Human Protein Atlas identifies putative novel markers for goblet and Paneth cells.     

Cytochemical features of the digestive tract mucosa of Hemisorubim platyrhynchos (Siluriformes: Pimelodidae)

Membranous organelles, acid glycoconjugates and lipids were characterized in the digestive tract mucosa of Hemisorubim platyrhynchos by cytochemistry techniques. Two types of mucous‐secreting cells were observed in the digestive tract epithelium: goblet cells in the oesophagus and intestine and epithelial cells in the stomach. These cells had a Golgi apparatus more developed than the other cell types. The cytochemical analysis revealed that secretory granules are reactive to acid glycoconjugates, varying in reaction intensity according to the region of the digestive tract. Acid glycoconjugate reactions were also observed in oesophageal epithelial cell microridges and in enterocyte microvilli. In the digestive tract, acid glycoconjugates act to protect the epithelial surface, increasing mucous viscosity, which facilitates the passage of food, prevents the binding of parasites and facilitates their removal. Through lipid staining, a coated membrane was observed around each secretory granule of the oesophageal and intestinal goblet cells, while gastric epithelial cells granules were fully reactive. Oxynticopeptic cells of the gastric glands showed lipid droplets in the cytoplasm and also in the mitochondrial matrix, which act as an energy reserve for these cells that have a high energy demand. Enterocytes showed a well‐developed smooth endoplasmic reticulum, especially in the apical region of the cell, being related to absorption and resynthesis of lipids.     

Ultrastructural features of the gut in the white sturgeon, Acipenser transmontanus

Electron-microscopic examinations of the sturgeon gut were performed. Oesophageal goblet cells were abundant in the stratified epithelium. The ultrastructural features of the secretory granules of the oesophageal and intestinal goblet cells were quite similar to those of other vertebrates. Lobules of multilocular adipose tissue were observed in the deep tunica propriasubmucosa of the oesophagus, in close association with vasculature and large fibre bundles of myelinated and unmyelinated axons. Similarly composed nerve fibre bundles were observed in the cardiac stomach, too. The presence of myelinated axons is an unusual feature in the vertebrate enteric nervous system. Cardiac and fundic zones of the stomach showed an epithelium with columnar ciliated and non-ciliated cells, the latter equipped with fuzzy microvilli. Cells lining the tubular gastric proper glands were markedly granulated. Intestinal superficial epithelium was columnar and contained ciliated, as well as non-ciliated and goblet cells. In the tunica propria all over the intestine, the presence and ultrastructure of granulated cells was in addition described. Intraepithelial granulated leukocytes were seen throughout the alimentary canal. Various types of endocrine cells were seen both in the stomach and in the intestine, the size of their granules was measured and their ultrastructure described and compared to that of mammalian cell types.     

Immunocytochemical and enzyme histochemical localization of kallikrein-like enzymes in colon, intestine, and stomach of rat and cat

Kallikrein was localized in goblet (or mucous) cells of rat colon and in rat and cat small intestine and stomach by two immunocytochemical techniques. A kallikrein-like enzyme was also localized by enzyme histochemistry in mast cells of colon, intestine, and stomach of the cat, where they appeared to be associated with blood vessels in the lamina propria. The mast cell enzyme, however, was not detected by immunocytochemistry using antibodies to kallikrein. Modification in the enzyme histochemical procedure (pH, fixation) yielded positive results for a kallikrein-like protease in goblet cells of the intestine and colon. The possible physiological and pathological significance of kallikrein-like enzyme in the gastrointestinal tract and elsewhere is discussed.     

Interaction of Listeria monocytogenes with the intestinal epithelium

Listeria monocytogenes is a food-borne pathogen that must cross the intestinal epithelial barrier to reach its target organs. We have investigated the importance of M cells in translocation using an experimental mouse model and a novel, recently described in vitro coculture system that mimics the follicle-associated epithelium (FAE). Our data demonstrate that L. monocytogenes does not require, nor specifically use, M cells of the FAE to cross the gut. We also show that bacterial translocation is rapid and L. monocytogenes can attach very efficiently to exposed basal lamina of the small intestine indicating an important role for extracellular matrix proteins.     

CINC blockade prevents neutrophil Ca(2+) signaling upregulation and gut bacterial translocation in thermal injury

In this study, we have evaluated the role of cytokine-induced neutrophil chemoattractant (CINC), in the upregulation of neutrophil Ca(2+) signaling in neutrophils from thermally injured rats treated with anti-CINC antibody. Additionally, we have determined the effect of the treatment with CINC antibody on the accumulation of activated neutrophils in the intestinal wall, and the effect of such accumulation on gut bacterial translocation. Measurements of myeloperoxidase (MPO) activity and immunohistochemical localization of neutrophils determined neutrophil sequestration in the rat intestine. Agar culture analyses and a specific Escherichia coli beta-galactosidase gene polymerase chain reaction was carried out to detect gut indigenous bacterial invasion into intestinal wall and extraintestinal mesenteric lymph nodes (MLN). The results showed that pretreatment of rats with anti-CINC antibody attenuated the thermal injury-induced enhancement in [Ca(2+)](i) responses in neutrophils both in the basal and Formyl-Met-Leu-Phe stimulated conditions. Moreover, treatment with the CINC antibody decreased neutrophil infiltration into the gut and attenuated thermal injury-caused translocation of bacteria into the MLN.     

Vimentin-positive cells in the villus epithelium of the rabbit small intestine

In rabbit intestinal epithelium, vimentin intermediate filaments are selectively expressed in the M cells of follicle-associated epithelium (FAE). To find intestinal epithelial cells belonging to the M cell lineage, vimentin was detected immunohistochemically in the rabbit small and large intestines. Vimentin-positive columnar cells were scattered throughout the villus epithelium of the small intestine. In their cytoplasm, vimentin was located from the perinuclear region to the cell membrane touching intraepithelial lymphocytes. These cells had microvilli shorter than those of absorptive cells, and the alkaline phosphatase activity of the microvilli was markedly weaker than that of absorptive cell microvilli. Glycoconjugates on the surface of the microvilli were alcian blue positive and periodic acid-Schiff negative. The morphological and histochemical features of these vimentin-positive villus epithelial cells differed from those of adjacent absorptive cells and closely resembled those of the M cells in FAE covering Peyer's patches and solitary lymphatic nodules. These results suggest that the vimentin-positive cells in the villus epithelium belong to the M cell lineage.