Adherence of Helicobacter pylori to cultured human gastric epithelial cells.

Experiments were performed to demonstrate that adherence of Helicobacter pylori to gastric epithelial cells causes alterations in the cell cytoskeleton. H. pylori intimately attached to cultured human gastric epithelial cells on small cellular projections, while there was no intimate association of H. pylori with cultured human esophageal epithelial cells. Fluorescein-conjugated phalloidin staining of gastric epithelial cells showed that H. pylori adherence stimulated actin polymerization; this stimulation was not observed with esophageal cells. Also, this organism's selectivity for gastric mucosa was supported by rare binding of bacteria to esophageal epithelial cells and gastric fibroblasts.     

Adherence of isogenic flagellum-negative mutants of Helicobacter pylori and Helicobacter mustelae to human and ferret gastric epithelial cells

Isogenic flagellum-negative mutants of Helicobacter pylori and Helicobacter mustelae were screened for their ability to adhere to primary human and ferret gastric epithelial cells, respectively. We also evaluated the adherence of an H. pylori strain with a mutation in the flbA gene, a homologue of the flbF/lcrD family of genes known to be involved in the regulation of H. pylori flagellar biosynthesis. H. pylori and H. mustelae mutants deficient in production of FlaA or FlaB and mutants deficient in the production of both FlaA and FlaB showed no reduction in adherence to primary human or ferret gastric epithelial cells compared with the wild-type parental strains. However, adherence of the H. pylori flbA mutant to human gastric cells was significantly reduced compared to the adherence of the wild-type strain. These results show that flagella do not play a direct role in promoting adherence of H. pylori or H. mustelae to gastric epithelial cells. However, genes involved in the regulation of H. pylori flagellar biosynthesis may also regulate the production of an adhesin.     

Helicobacter pylori urease activity is toxic to human gastric epithelial cells.

A human gastric adenocarcinoma cell line was used to evaluate the contribution of urease from Helicobacter (formerly Campylobacter) pylori to its cytotoxicity. Gastric cells cultured in medium supplemented with 20 mM urea were exposed to 5 x 10(6) CFU of H. pylori per ml with or without the addition of a urease inhibitor, acetohydroxamic acid. Viabilities of cells exposed to H. pylori for 2, 24, and 48 h, assessed by incorporation of neutral red dye, were 60, 27, and 16%, respectively; however, the viabilities of cells exposed to both H. pylori and acetohydroxamic acid were 92, 46, and 20% after 2, 24, and 48 h, respectively, (P less than 0.001). Therefore, the urease activity of H. pylori may play an important role in its pathogenicity, and inhibition of this enzyme activity may have therapeutic potential.     

Adherence of Helicobacter pylori to primary human gastrointestinal cells.

Helicobacter pylori adheres only to gastric cells in vivo. However, the organism adheres to a wide variety of nongastric cells in vitro. In this study, we have used flow cytometry to assess the adherence of H. pylori to primary epithelial cells isolated from gastric, duodenal, and colonic biopsy specimens by collagenase digestion. After incubation of bacteria and cells together and subsequent staining with a two-stage fluorescein isothiocyanate-labelled H. pylori antibody method, cells with adherent bacteria could be easily distinguished from cells without bacteria. Binding to Kato III cells (a gastric adenocarcinoma cell line) was saturable when bacteria and cells were mixed at a ratio of 250:1. Adherence to cells isolated from gastric biopsy specimens was significantly better than adherence to cells isolated from duodenal or colonic biopsy specimens. Almost 70% of gastric cells had bacteria bound, in contrast to 30% of duodenal cells and 32% of colonic cells (P < 0.0001). There was no correlation between expression of hemagglutinins by the bacteria and ability to bind to either Kato III cells or primary epithelial cells isolated from gastric biopsy specimens. In view of the strict tropism that the organism exhibits in vivo for gastric cells, the results of this study indicate that primary cells are ideal for assessing the factors that might play a role in the pathogenesis of disease caused by the organism.     

Helicobacter pylori regulates iNOS promoter by histone modifications in human gastric epithelial cells

Inducible nitric oxide synthase (iNOS) expression is altered in gastrointestinal diseases. Helicobacter pylori (Hp) infection may have a critical role in iNOS disregulation. We undertook this study to investigate possible chromatin changes occurring early during iNOS gene activation as a direct consequence of Hp-gastric cells interaction. We show that Hp infection is followed by different expression and chromatin modifications in gastric cells including (1) activation of iNOS gene expression, (2) chromatin changes at iNOS promoter including decreased H3K9 methylation and increased H3 acetylation and H3K4 methylation levels, (3) selective release of methyl-CpG-binding protein 2 from the iNOS promoter. Moreover, we show that Hp-induced activation of iNOS is delayed, but not eliminated, by the treatment with LSD1 inhibitors. Our data suggest a role for specific chromatin-based mechanisms in the control of human iNOS gene expression upon Hp exposure.     

Anti-Lewis X antibody promotes Helicobacter pylori adhesion to gastric epithelial cells

Lewis X (Le(x)) antigen is expressed on the human gastric mucosa and the O-specific chain of lipopolysaccharides of Helicobacter pylori. This antigen can induce autoantibodies, which may be involved in bacterial colonization and thus deserve further investigation. Flow cytometry was used to examine the effects of anti-Le monoclonal antibodies (MAbs) on H. pylori adhesion. A babA2 mutant was also constructed to evaluate the effect of an anti-Le(x) MAb on adhesion. The bacterial agglutination and in situ adhesion assays were used to confirm the anti-Le(x) MAb effect on H. pylori adhesion. This study revealed that an anti-Le(x) MAb, but not an anti-Le(b) MAb or an anti-Le(y) MAb, could enhance the adhesion of H. pylori strains that expressed high levels of Le(x) antigen to AGS cells. The enhancement was not found on an H. pylori strain with a low level of Le(x) antigen. Anti-Le(x) MAb could increase the adhesion of both the wild-type strain and its isogenic babA2 mutant to AGS cells. When AGS cells were pretreated with anti-Le(x) MAb, the adhesion of the babA2 mutant also increased. Only anti-Le(x) MAb could promote bacterial agglutination, and the in situ adhesion assay further confirmed that adding anti-Le(x) MAb resulted in denser bacterial adhesion on the gastric epithelia collected from clinical patients. These results suggest anti-Le(x) MAb could specifically enhance the adhesion abilities of H. pylori strains through a mechanism by which anti-Le(x) MAb promotes bacterial aggregation and mediates bivalent interaction (antigen-antibody-antigen) between bacteria and host cells.     

幽门螺杆菌对大鼠胃上皮细胞环氧合酶-2表达的影响

目的： 探讨幽门螺杆菌（Hp）水提取物对大鼠胃上皮细胞环氧合酶-2（COX-2）表达及前列腺素E₂（PGE₂）合成的影响。方法：大鼠胃上皮细胞株RGM1体外常规培养，Hp组细胞培养液内Hp水提取物终浓度为2.5 mg/L、5 mg/L、10 mg/L，大肠埃希菌组大肠埃希菌水提取物终浓度10 mg/L。培养 24 h 后收集细胞和上清液分别用于Western blotting分析COX-1、COX-2表达和酶免疫方法测定前列腺素E₂（PGE₂）含量。结果：Hp水提取物剂量依赖地增加RGM1细胞COX-2表达但不影响COX-1表达，而大肠埃希菌水提取物对COX-1和COX-2表达均无明显影响。RGM1细胞培养上清液中PGE₂水平在Hp组（2.5、5、10 mg/L）和大肠埃希菌组分别为（230.70±48.55）ng/g protein、（291.82±33.49）ng/g protein、（342.94±28.70）ng/g protein和（130.54±42.81）ng/g protein。结论：Hp体外诱导大鼠胃上皮细胞COX-2表达而增加PGE₂合成，Hp感染的致癌机制可能与其诱导的COX-2表达有关。     

Helicobacter pylori VacA induces programmed necrosis in gastric epithelial cells

Helicobacter pylori is a Gram-negative bacterium that colonizes the human stomach and contributes to the development of peptic ulcer disease and gastric cancer. The secreted pore-forming toxin VacA is one of the major virulence factors of H. pylori. In the current study, we show that AZ-521 human gastric epithelial cells are highly susceptible to VacA-induced cell death. Wild-type VacA causes death of these cells, whereas mutant VacA proteins defective in membrane channel formation do not. Incubation of AZ-521 cells with wild-type VacA results in cell swelling, poly(ADP-ribose) polymerase (PARP) activation, decreased intracellular ATP concentration, and lactate dehydrogenase (LDH) release. VacA-induced death of these cells is a caspase-independent process that results in cellular release of histone-binding protein high mobility group box 1 (HMGB1), a proinflammatory protein. These features are consistent with the occurrence of cell death through a programmed necrosis pathway and suggest that VacA can be included among the growing number of bacterial pore-forming toxins that induce cell death through programmed necrosis. We propose that VacA augments H. pylori-induced mucosal inflammation in the human stomach by causing programmed necrosis of gastric epithelial cells and subsequent release of proinflammatory proteins and may thereby contribute to the pathogenesis of gastric cancer and peptic ulceration.     

Increased programmed death-ligand-1 expression in human gastric epithelial cells in Helicobacter pylori infection

B7‐H1 [programmed death‐ligand‐1 (PD‐L1)] is a B7‐family member that binds to programmed death‐1 (PD‐1). Recently, deficiency of PD‐L1 has been demonstrated to result in accelerated gastric epithelial cell damage in gastritis, and PD‐L1 is suggested to play a critical role in regulating T cell homeostasis. Here, we aimed to gain more insight into gastric PD‐L1 expression, regulation and function during Helicobacter pylori infection. PD‐L1 expression in human gastric epithelial cells was analysed using Western blotting, quantitative polymerase chain reaction and fluorescence activated cell sorter analysis. Furthermore, co‐culture experiments of human gastric epithelial cells with primary human T cells or Jurkat T cells were conducted. PD‐L1 expression in primary human gastric epithelial cells was strongly enhanced by H. pylori infection and activated T cells, and augmented markedly by further stimulation with interferon‐γ or tumour necrosis factor‐α. Moreover, PD‐L1 expression in gastric epithelial cells significantly induced apoptosis of T cells. Our results indicate that a novel bidirectional interaction between human gastric epithelial cells and lymphocytes modulates PD‐L1 expression in human gastric epithelial cells, contributing to the unique immunological properties of the stomach.     

In vitro binding of Helicobacter pylori to human gastric mucin.

The in vitro binding of four Helicobacter pylori strains to human gastric mucin was studied with an enzyme-linked immunosorbent assay. All four strains were found to bind to purified mucin. Neuraminidase treatment and nonspecific oxidation of mucin decreased bacterial adherence to the macromolecule. Mucin preparations were also found to inhibit attachment of H. pylori to HEp-2 monolayers.     

固有免疫分子DC-SIGN在幽门螺杆菌感染胃黏膜上皮细胞表达意义

探讨固有免疫分子DC-SIGN在幽门螺杆菌(H.pylori)感染的胃上皮细胞表达,及其与胃黏膜损伤的关系.选取经胃镜及组织病理检查确诊的72例慢性胃炎患儿胃黏膜活检标本,采用免疫组化检测胃黏膜上皮细胞DC-SIGN表达.体外建立幽门螺杆菌感染胃上皮细胞模型,采用流式细胞术检测幽门螺杆菌刺激的胃上皮细胞DC-SIGN以...     

Helicobacter pylori activates calpain via toll-like receptor 2 to disrupt adherens junctions in human gastric epithelial cells

Helicobacter pylori is a risk factor for the development of gastritis, gastroduodenal ulcers, and gastric adenocarcinoma. H. pylori-induced disruption of epithelial adherens junctions (AJs) is thought to promote the development of severe disease; however, the mechanisms whereby H. pylori alters AJ structure remain incompletely understood. The present study demonstrates that H. pylori infection in human patients is associated with elevated serum levels of an 80-kDa E-cadherin ectodomain, whose presence is independent of the presence of serum antibodies against CagA. In vitro, a heat-labile H. pylori surface component activates the host protease calpain in human gastric MKN45 cells independently of the virulence factors CagA and VacA. H. pylori-induced calpain activation results in cleavage of E-cadherin to produce a 100-kDa truncated form and induce relocalization of E-cadherin and β-catenin. Stimulation of MKN45 cells with the toll-like receptor 2 (TLR2) ligand P3C activated calpain and disrupted E-cadherin and β-catenin in a pattern similar to that induced by H. pylori. Inhibition of TLR2 prevented H. pylori-induced calpain activation and AJ disassembly. Together, these findings identify a novel pathway whereby H. pylori activates calpain via TLR2 to disrupt gastric epithelial AJ structure.     

Helicobacter pylori infection induces oxidative stress and programmed cell death in human gastric epithelial cells

Helicobacter pylori infection is associated with altered gastric epithelial cell turnover. To evaluate the role of oxidative stress in cell death, gastric epithelial cells were exposed to various strains of H. pylori, inflammatory cytokines, and hydrogen peroxide in the absence or presence of antioxidant agents. Increased intracellular reactive oxygen species (ROS) were detected using a redox-sensitive fluorescent dye, a cytochrome c reduction assay, and measurements of glutathione. Apoptosis was evaluated by detecting DNA fragmentation and caspase activation. Infection with H. pylori or exposure of epithelial cells to hydrogen peroxide resulted in apoptosis and a dose-dependent increase in ROS generation that was enhanced by pretreatment with inflammatory cytokines. Basal levels of ROS were greater in epithelial cells isolated from gastric mucosal biopsy specimens from H. pylori-infected subjects than in cells from uninfected individuals. H. pylori strains bearing the cag pathogenicity island (PAI) induced higher levels of intracellular oxygen metabolites than isogenic cag PAI-deficient mutants. H. pylori infection and hydrogen peroxide exposure resulted in similar patterns of caspase 3 and 8 activation. Antioxidants inhibited both ROS generation and DNA fragmentation by H. pylori. These results indicate that bacterial factors and the host inflammatory response confer oxidative stress to the gastric epithelium during H. pylori infection that may lead to apoptosis.     

幽门螺杆菌对体外培养的胃上皮细胞增殖与凋亡的影响

目的　研究H .pylori对体外培养的胃上皮细胞增殖与凋亡的影响。方法　以SGC 790 1细胞作为H .pylori感染的体外细胞模型 ,用Ki 6 7抗原的免疫组化分析检测了H .pylori标准菌株NCTC 116 37活菌对胃上皮细胞增殖的影响 ,同时用流式细胞术、荧光染色技术检测了细胞凋亡率。结果　H .pylori在较低浓度 (≤ 1.6× 10 5CFU/ml)时对细胞增殖有促进作用 ,而在较高浓度 (≥ 8× 10 5CFU/ml)时抑制细胞增殖。H .pylori以浓度依赖方式诱导胃上皮细胞凋亡 ,Hoechst 332 5 8荧光染色和流式细胞术两种方法所得结果一致。结论　细胞凋亡与增殖间的不平衡亦可部分解释人体感染H .pylori后所表现的多样化结局     

cagA基因阳性幽门螺杆菌培养滤液对人胃粘膜上皮细胞系GES-1生长的影响

目的：研究cagA^ 幽门螺杆菌（Hp）培养滤液对人胃粘膜上皮细胞（GES－1）的作用及机制。方法：制备Hp培养滤液，PCR鉴定cagA基因。采用倒置显微镜、电镜、细胞生长曲线、克隆形成实验、单细胞微凝胶电泳及流式细胞仪等，观察Hp (cagA^ ）培养滤液对GES－1细胞的作用。结果：经Hp(cagA^ )培养滤液处理GES－1细胞，细胞核增大、畸形、核染色质变粗、核仁肥大、核分裂。生长曲线可见细胞增生活跃，增殖率195％。克隆形成试验显示细胞克隆形成能力增强，增殖率达到337．5％。流式细胞仪S期细胞比率显著高于对照组。Hp(cagA^ ）培养滤液可使GES－1细胞形成彗星现象。结论：Hp(cagA^ )培养滤液可以导致GES－1细胞的生长特性改变，呈现肿瘤细胞的形态学及生长特征。DNA损伤可能是cagA诱导GES－1细胞生长特性改变的机制之一。     

Helicobacter pylori VacA toxin promotes bacterial intracellular survival in gastric epithelial cells

Helicobacter pylori colonizes the gastric epithelium of at least 50% of the world's human population, playing a causative role in the development of chronic gastritis, peptic ulcers, and gastric adenocarcinoma. Current evidence indicates that H. pylori can invade epithelial cells in the gastric mucosa. However, relatively little is known about the biology of H. pylori invasion and survival in host cells. Here, we analyze both the nature of and the mechanisms responsible for the formation of H. pylori's intracellular niche. We show that in AGS cells infected with H. pylori, bacterium-containing vacuoles originate through the fusion of late endocytic organelles. This process is mediated by the VacA-dependent retention of the small GTPase Rab7. In addition, functional interactions between Rab7 and its downstream effector, Rab-interacting lysosomal protein (RILP), are necessary for the formation of the bacterial compartment since expression of mutant forms of RILP or Rab7 that fail to bind each other impaired the formation of this unique bacterial niche. Moreover, the VacA-mediated sequestration of active Rab7 disrupts the full maturation of vacuoles as assessed by the lack of both colocalization with cathepsin D and degradation of internalized cargo in the H. pylori-containing vacuole. Based on these findings, we propose that the VacA-dependent isolation of the H. pylori-containing vacuole from bactericidal components of the lysosomal pathway promotes bacterial survival and contributes to the persistence of infection.     

Impairment of glutathione metabolism in human gastric epithelial cells treated with vacuolating cytotoxin from Helicobacter pylori.

Helicobacter pylori vacuolating cytotoxin (VacA) is believed to be one of the factors that induces gastric disease. Our previous study indicated that VacA causes a decrease in the intracellular ATP level in human gastric epithelial cells, suggesting to impair mitochondrial membrane potential followed by a decrease in energy metabolism (Kimura et al., Microb. Pathog., 1999, 26: 45--52). In the present study, we investigated whether the decrease in ATP level affects glutathione metabolism, in which its synthesis and efflux are ATP-dependent. Treatment of AZ-521 human gastric epithelial cells with 120 nM VacA for 6 h suppressed the efflux of oxidized glutathione (GSSG) in a dose- and time-dependent manner. The efflux of GSSG from the cells and glutathione (GSH) synthesis of cells treated with VacA were approximately 50 and 70% of those of the control, respectively. The turnover rate of intracellular GSH was also suppressed by VacA. Viability of the cells pretreated with VacA, then further incubated with H(2)O(2), was decreased by 50% at 6 h and 70% at 12 h. These results suggested that VacA impairs GSH metabolism in the gastric epithelial cells, which weakens the resistance of the cells against oxidative stress or cellular redox regulation by GSH.