人胃粘膜乳酸杆菌与幽门螺杆菌感染的相关性

目的:探讨胃内正常菌群乳酸杆菌对幽门螺杆菌(Helicobacter pylori,HP)的影响。方法:51例胃粘膜活检标本均取自于行胃镜检查的胃炎患者,分离培养乳酸杆菌,通过扩增其16S rRNA基因并测序来鉴定乳酸杆菌的种类;胃炎程度及活动度的分类依据悉尼分类系统,运用改良Gimesa染色鉴定HP感染。结果:胃粘膜中共分离出9种乳酸杆菌,分离阳性率为49.0%;乳酸杆菌阳性病人与阴性病人的HP感染率、胃炎程度的差异及胃炎活动度的差异均无统计学意义(P>0.05);HP阳性病人的胃炎程度较HP阴性病人更严重(P<0.05);有益生菌作用的乳酸杆菌与非益生菌类乳酸杆菌的HP感染率差异无统计学意义(P>0.05)。结论:胃内乳酸杆菌的存在对HP感染无影响。     

Helicobacter pylori AddAB helicase-nuclease and RecA promote recombination-related DNA repair and survival during stomach colonization

Helicobacter pylori colonization of the human stomach is characterized by profound disease-causing inflammation. Bacterial proteins that detoxify reactive oxygen species or recognize damaged DNA adducts promote infection, suggesting that H. pylori requires DNA damage repair for successful in vivo colonization. The molecular mechanisms of repair remain unknown. We identified homologues of the AddAB class of helicase-nuclease enzymes, related to the Escherichia coli RecBCD enzyme, which, with RecA, is required for repair of DNA breaks and homologous recombination. H. pylori mutants lacking addA or addB genes lack detectable ATP-dependent nuclease activity, and the cloned H. pylori addAB genes restore both nuclease and helicase activities to an E. coli recBCD deletion mutant. H. pylori addAB and recA mutants have a reduced capacity for stomach colonization. These mutants are sensitive to DNA damaging agents and have reduced frequencies of apparent gene conversion between homologous genes encoding outer membrane proteins. Our results reveal requirements for double-strand break repair and recombination during both acute and chronic phases of H. pylori stomach infection.     

Role of tumor necrosis factor-alpha and interferon-gamma in Helicobacter pylori infection

Immune responses to Helicobacter pylori infection play important roles in gastroduodenal diseases. The contributions of tumor necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) to the induction of gastric inflammation and to the protection from H. pylori infection were investigated using TNF-alpha geneknockout (TNF-alpha(-/-)) mice and IFN-gamma gene-knockout (IFN-gamma(-/-)) mice. We first examined the colonizing ability of H. pylori strain CPY2052 in the stomach of C57BL/6 wild-type and knockout mice. The number of H. pylori colonized in the stomach of IFN-gamma(-/-) and TNF-alpha(-/-) mice was higher than that of wild-type mice. These findings suggest that TNF-alpha and IFN-gamma may play a protective role in H. pylori infection. Furthermore, we examined the contribution of TNF-alpha and IFN-gamma to gastric inflammation. The CPY2052-infected TNF-alpha(-/-) mice showed a moderate infiltration of mononuclear cells in the lamina propria and erosions in the gastric epithelium as did wild-type mice, whereas the CPY2052-infected IFN-gamma(-/-) mice showed no inflammatory findings even 6 months after infection. These results demonstrate that IFN-gamma may play an important role in gastric inflammation induced by H. pylori infection, whereas TNF-alpha may not participate in the development of inflammatory response.     

Effects of dexamethasone and FK506 on Helicobacter pylori-induced gastritis and bacterial viability in Mongolian gerbils.

FK506 and dexamethasone were used to investigate whether or not immunosuppression affects H. pylori colonization and gastric mucosal damage induced by Helicobacter pylori in Mongolian gerbils. Two weeks after H. pylori infection, FK506 and dexamethasone or vehicle alone were subcutaneously administered once daily for the following 2 weeks. FK506 or vehicle alone was administered subcutaneously once daily for 5 weeks (1 week before and 4 weeks after infection). In H. pylori-infected animals for 4 weeks, hemorrhagic erosions and inflammatory responses (neutrophil infiltration and lymphoid follicle formation) were induced in gastric mucosa at an incidence of 100%. Both FK506 and dexamethasone administered for 2 weeks markedly reduced such mucosal changes. In these animals, H. pylori viability in the stomach was significantly elevated. FK506 administered for 5 weeks also significantly inhibited the hemorrhagic erosions, edema and neutrophil infiltration in the stomach. H. pylori viability was slightly elevated as compared with the control. It was concluded that the host immune responses might play dual roles both by deteriorating gastritis induced by H. pylori and by protecting against H. pylori infection in its early stage.     

Deficiency in OGG1 protects against inflammation and mutagenic effects associated with H. pylori infection in mouse

BACKGROUND: Helicobacter pylori infection is associated with gastric cancer. Study with the Big Blue mouse model has reported a mutagenic effect associated with the H. pylori infection, as a result in part of oxidative DNA damage. The present work investigates the consequences of a deficiency in the OGG1 DNA glycosylase, responsible for the excision of 8-oxo guanine, on the inflammatory and genotoxic host response to the infection. MATERIALS AND METHODS: Big Blue Ogg1-/- C57BL/6 mice were orally inoculated with H. pylori strain SS1 or vehicle only, and sacrificed after 1, 3, or 6 months. The serologic response, histologic lesions, mutant frequency, and spectra of mutations were assessed in the stomach and compared to what observed in the wild-type (Wt) context. RESULTS: Inflammatory lesions induced in the gastric mucosa of H. pylori-infected mice, corresponding to a moderate gastritis, were less severe in Ogg1-/- than in Wt Big Blue mice. Analysis of antimicrobial humoral immunity exhibited a lower IgG2a serum level (Th1 response) after 6 months of infection in Ogg1-/- than in the Wt mice. In these conditions, the H. pylori-SS1 infection in the Ogg1-/- mice did not induce a mutagenic effect at the gastric epithelial cells level, either after 3 or 6 months. CONCLUSIONS: The inactivation of the OGG1 DNA glycosylase in mouse leads to less severe inflammatory lesions and abolished the mutagenic effect at the gastric epithelial cells level, induced by the H. pylori infection. These data suggest for the OGG1deficiency a protective role against inflammation and genotoxicity associated to the H. pylori infection.     

抗重组VacA IgY体内抗幽门螺杆菌感染的实验研究

目的在构建H.pylori的基因工程菌pQE30-v-DH5a的基础上,诱导表达VacA重组蛋白,以此为抗原,制备抗VacA的蛋黄抗体（VacA IgY）。通过小鼠口服试验,证实VacA IgY治疗H.pylori感染的作用,为进一步制备抗H．pylori感染的IgY制剂提供实验依据。方法用重组H.pylori VacA蛋白免疫母鸡,水稀释结合氯仿有机沉淀法提取IgY,ELISA法测定其针对VacA的效价。建立H.pylori感染的Balb／c小鼠动物模型,治疗组在小鼠灌喂菌液后灌喂不同剂量的VacA IgY。以H.pylori培养和病理切片观察胃黏膜H.pylori定植和炎症反应程度。结果制备了高效价的IgY（1：12800）。动物实验阳性对照组H.pylori的总感染率为70．4％,12周后的感染率为88．9％。治疗组的感染率与同期阳性对照组相似,胃黏膜的炎症反应程度比阳性对照组弱,随IgY剂量的增加,炎症减弱明显,IgY剂量为4mg／ml时,能达到较理想的治疗效果。结论成功制备了高效价的特异性VacA IgV,小鼠体内实验证实了口服VacA IgY具有治疗H.pylori感染的作用,可用于制备口服制剂。     

Helicobacter pylori defense against oxidative attack

Helicobacter pylori is a microaerophilic, gram-negative pathogen of the human stomach. Despite the chronic active gastritis that develops following colonization, H. pylori is able to persist unharmed in the stomach for decades. Much of the damage caused by gastric inflammation results from the accumulation of reactive oxygen/nitrogen species within the stomach environment, which can induce oxidative damage in a wide range of biological molecules. Without appropriate defenses, this oxidative damage would be able to rapidly kill nearby H. pylori, but the organism employs a range of measures, including antioxidant enzymes, biological repair systems, and inhibitors of oxidant generation, to counter the attack. Despite the variety of measures employed to defend against oxidative injury, these processes are intimately interdependent, and any deficiency within the antioxidant system is generally sufficient to cause substantial impairment of H. pylori viability and persistence. This review provides an overview of the development of oxidative stress during H. pylori gastritis and examines the methods the organism uses to survive the resultant damage.     

H.pylori抗体鸡蛋制品对H.pylori感染BALB/c小鼠的实验研究

目的通过幽门螺杆菌(Helicobacter pylori,H.pylori)标准株的接种,建立BALB/c小鼠感染H.pylori胃炎动物模型,评价H.pylori抗体鸡蛋制品对小鼠感染性胃炎的预防效果。方法将灭活的H.pylori国际标准菌株(NCTC 11637)作为抗原,对产蛋鸡进行免疫。免疫后收集鸡蛋,对达到效价的鸡蛋,无菌采集卵黄。BALB/c小鼠60只,适应性喂养1周后,随机分为5组,Ⅰ组为胃炎模型组,Ⅱ组为生理盐水组,Ⅲ、IV、V组分别为低剂量、中剂量和高剂量卵黄抗体组,每组12只。Ⅰ组予H.pylori菌液灌胃造模,Ⅱ组先予生理盐水灌胃后再予H.pylori菌液灌胃对照,Ⅲ、IV、V组分别用不同剂量抗H.pylori卵黄抗体灌胃后再予H.pylori菌液灌胃造模。小鼠均于距最后一次灌胃后8周全部处死,用微需氧细菌培养检测H.pylori定植;HE染色观察小鼠胃黏膜病理组织学改变。结果在接种H.pylori后第8周,Ⅰ组和Ⅱ组小鼠胃内均有大量H.pylori定植,感染率为91.7%,Ⅲ组的感染率是58.3%,IV和V组的感染率均小于30%。结论 H.pylori抗体鸡蛋制品可以抑制BALB/c小鼠感染H.pylori,抗体的保护作用与抗体的剂量呈正相关。     

Imunosuppression by a corticosteroid fails to exacerbate Helicobacter pylori infection in a mouse model of gastric colonization

Helicobacter pylori can colonize the human stomach for prolonged periods of time, and this colonization uniformly leads to the development of chronic active gastritis. In a small percentage of individuals, gastric pathology progresses to peptic ulceration or more rarely certain gastric cancers. In addition to non-specific inflammation, specific systemic and local immunity develops in response to gastric colonization by this pathogen. However, these responses combined appear inadequate for eliminating H. pylori from the gastric mucosa. This is also the case in a mouse model of gastric colonization by H. pylori. In the present study, we attempted to determine whether the mammalian host response to infection with H. pylori exerts any overt antibacterial effects. To this end we examined H. pylori colonization in normal mice, and mice immunosuppressed by treatment with a corticosteroid. Despite obvious suppression of the immune response in the latter mice, H. pylori burdens remained similar in both groups after three months of colonization. This suggests that the murine host response, at least, exerts little obvious protection against H. pylori colonization.     

The results of Helicobacter pylori eradication on repeated bleeding in patients with stomach ulcer

The triple therapy of Helicobacter pylori eradication prevents repeated bleeding from stomach ulcer. The aim of this one-way blind prospective study was to evaluate the efficiency of the two-week triple therapy for Helicobacter pylori eradication in preventing renewed bleeding in patients with stomach ulcer within one year. This research included 60 hospitalized patients with bleeding stomach ulcer and positive Helicobacter pylori infection, 34 men and 26 women (average age 59.7 years). The patients were given therapeutic scheme of omeprazol--amoxicilin--metrodinazol (OAM) eradication for 14 days. Eradication of H. pylori infection was defined as lack of proof of the infection one month or several months after therapy suspension. By applying triple OAM therapy within two weeks the eradication was successful in 72%. In the group of 17 H. pylori positive patients there were 8 patients (47.6%) with repeated stomach ulcer and 3 patients (18%) with bleeding. Within the group of 43 H. pylori negative patients there were only 2 patients (4.65%) with repeated stomach ulcer and 1 patient (2%) with bleeding, during the observed period of 12 months. This research confirms the hypothesis about the necessity of eradication of Helicobacter pylori infection in patients with bleeding stomach ulcer as prevention of repeated bleeding.     

Priming and expression of immune responses in the gastric mucosa

This review deals with the induction and expression of immune responses in the human stomach following mucosal immunisation. As prerequisites for developing a Helicobacter pylori vaccine, the role of gastric inflammation, in particular inflammation induced by H. pylori infection, as well as lymphocyte homing within the common mucosal immune system, and the importance of immunisation route are discussed.     

Reactive Nitrogen Species Mediate DNA Damage in Helicobacter pylori-Infected Gastric Mucosa

Background:  Reactive oxygen species (ROS) and reactive nitrogen species (RNS) can play an important role in cellular injury and carcinogenesis of gastric epithelial cells infected with Helicobacter pylori . 8-OH-deoxy guanosine (8-OHdG) and 8-nitroguanine (8-NG) are markers for ROS- and RNS-mediated DNA oxidation, respectively. In this study, RNS-mediated DNA damage in gastric mucosa was observed directly using a newly developed antibody to 8-NG to clarify how H. pylori infection causes nitrative DNA damage to gastric epithelial cells.
Methods:  Immunohistochemistry with anti-8-OHdG and anti-8-NG antibodies was performed on gastric tissue samples from 45 patients (25 men and 20 women) with H. pylori -positive gastritis and 19 patients (11 men and 8 women) exhibiting successful H. pylori eradication. Histologic factors for gastric mucosal inflammation were graded according to the guidelines of the Updated Sydney system.
Results:  In corpus mucosa, 8-OHdG and 8-NG production were significantly associated with the degree of glandular atrophy, infiltration of chronic inflammatory cells and intestinal metaplasia in the glandular epithelial cells. Successful H. pylori eradication resulted in a significant reduction of chronic inflammatory cell infiltration and neutrophilic activity. Mean 8-OHdG production was lower after H. pylori eradication in both corpus and antral mucosa ( p  = .022 and .049, respectively). However, the reduction in 8-NG exhibited was more pronounced than the reduction of 8-OhdG ( p  = .004 and .007, respectively).
Conclusions:  Helicobacter pylori infection can induce inflammatory cells infiltration, which evokes DNA damage of gastric epithelial cells through ROS and RNS production. 8-NG might be a more sensitive biomarker than 8-OHdG for H. pylori -induced DNA damage in gastric mucosa.     

Helicobacter pylori-induced epithelial cell signalling in gastric carcinogenesis

Helicobacter pylori represents a highly successful human microbial pathogen that infects the stomach of more than half of the world's population. H. pylori induces gastric inflammation, and the diseases that can follow such infection include chronic gastritis, peptic ulcers and, more rarely, gastric cancer. The reasons why a minority of patients with H. pylori develops gastric cancer could be related to differences in host susceptibility, environmental factors and the genetic diversity of the organism. This review examines the features of H. pylori-induced epithelial cell signalling in gastric diseases. Clinical studies and animal models, and also evidence for H. pylori strain-related differences in gastric epithelial cell proliferation in vivo are discussed. In addition, the mechanisms by which H. pylori triggers hyperproliferative processes and takes direct command of epithelial cell signalling, including activation of tyrosine kinase receptors, cell-cell interactions and cell motility are reviewed.     

Accumulation of 8-nitroguanine in human gastric epithelium induced by Helicobacter pylori infection

Helicobacter pylori infection causes chronic inflammation, which can lead to gastric carcinoma. A double immunofluorescence labeling study demonstrated that the level of 8-nitroguanine and 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG) apparent in gastric gland epithelium was significantly higher in gastritis patients with H. pylori infection than in those without infection. A significant accumulation of proliferating cell nuclear antigen, a prognostic factor for gastric cancer, was observed in gastric gland epithelial cells in patients with H. pylori infection as compared to those without infection, and its accumulation was closely correlated with the formation of 8-nitroguanine and 8-oxodG. These results suggest that nitrosative and oxidative DNA damage in gastric epithelial cells and their proliferation by H. pylori infection may lead to gastric carcinoma. 8-Nitroguanine could be not only a promising biomarker for inflammation but also a useful indicator of the risk of gastric cancer development in response to chronic H. pylori infection.     

Characteristics of a clinical isolate of urease-negative Helicobacter pylori and its ability to induce gastric ulcers in Mongolian gerbils

BACKGROUND: We clinically obtained urease-negative mutant strains of Helicobacter pylori. The goal of this study was to investigate the ability of the urease-negative strain to colonize and subsequently damage the gastric mucosa in Mongolian gerbils. In addition, the genes encoding the urease production in the test strain were analyzed, and other genes encoding the virulence factors, cytotoxin-associated protein and vacuolating-cytotoxin were evaluated. MATERIALS AND METHODS: The character of urease-negative isolates of H. pylori was defined. The identification of H. pylori was confirmed by polymerase chain reaction (PCR). The H. pylori isolate was transfected into Mongolian gerbils as previously described, which were followed up to 42 weeks, and the changes in their gastric mucosa were examined histologically. RESULTS AND CONCLUSION: Fifteen Mongolian gerbils orally infected with 10(7) colony forming units of urease-negative H. pylori were killed at 4, 12, 24, 36 and 42 weeks (n = 3) after infection. Culture medium without urease-negative H. pylori was given to the Mongolian gerbils as control. H. pylori continued to exist in the subject's stomach and gastric ulceration was observed and compared with the control. Clinically obtained urease-negative H. pylori continued to exist for at least 42 weeks in the subject's stomach and it induced gastric ulcers. These data demonstrated that the urease in H. pylori was not a necessary factor in the formation of gastric ulcers in the Mongolian gerbil model.     

Evaluation of therapeutic efficacy of adjuvant Helicobacter pylori whole cell sonicate in mice with chronic H. pylori infection

Successful prophylactic administration of Helicobacter pylori whole cell sonicate (WCS) plus complete Freund's adjuvant (CFA) or aluminum hydroxide (ALM) against subsequent H. pylori infection was reported recently. Here we tested the effect of WCS plus TiterMax Gold (TMX) or ALM in mice with chronic H. pylori infection. Mice with chronic (18 weeks) H. pylori infection were injected intraperitoneally with H. pylori (Sydney strain) WCS plus ALM or TMX once weekly for three times. The number of colonizing H. pylori in the stomach, IgG1 and IgG2a levels, and local inflammatory status were determined after therapeutic immunization. H. pylori specific IgG1, but not IgG2a, was significantly induced in mice immunized with H. pylori WCS plus TMX or ALM. Immunization did not result in reduction of bacterial count or recruiting inflammatory cells to the stomach. Adjuvant H. pylori WCS resulted in induction of CD4+ Th2 cell-mediated immunity although it did not reduce bacterial density in mice with chronic H. pylori infection. Our results implied that CD4+ Th1 cell-mediated immunity, rather than Th2 cell dominant immunity, might play a role in reducing the number of bacteria in chronic H. pylori infection.     

Role of Helicobacter pylori in gastric carcinogenesis: the origin of gastric cancers and heterotopic proliferative glands in Mongolian gerbils

Helicobacter pylori infection is well accepted to be a very important factor for the development of gastric carcinogenesis in the human stomach. In Mongolian gerbils treated with chemical carcinogens, H. pylori infection enhances glandular stomach carcinogenesis, and eradication of infection and results in curtailment of enhancing effects, particularly at early stages of associated inflammation. A high-salt diet exacerbates the effects of H. pylori infection on gastric carcinogenesis, and these two factors act synergistically to promote the development of gastric cancers in this animal model. However, the bacterium exerts the greater effects. Early acquisition significantly increases gastric chemical carcinogenesis in Mongolian gerbils, as compared to later infection. While heterotopic proliferative glands, hyperplastic and dilated glands localized beneath the muscularis mucosae, frequently develop with H. pylori infection alone in this animal model, they obviously regress on eradication, suggesting a relation to severe gastritis, rather than a malignant character. Furthermore, endocrine cells, positive for chromogranin A, are observed in the heterotopic proliferative glands, in contrast to cancerous lesions which lack endocrine elements. In conclusion, H. pylori is not an initiator, but rather a strong promoter of gastric carcinogenesis, whose eradication, together with reduction in salt intake, might effectively prevent gastric cancer development.     

Immunoproteomics of Helicobacter pylori--strategy for improvement of diagnostic tests and vaccine development

Helicobacter pylori, Gram-negative spiral-shaped bacteria, member of epsilon-Proteobacteria, colonizes the gastric mucosa of humans. H. pylori has been identified as the causative agent of chronic inflammation, chronic gastritis and peptic ulceration and is considered a risk factor for the development of mucosa-associated lymphoid tissue lymphoma and adenocarcinoma of the stomach. Although more than 50% of human population is infected with H. pylori only a subset develops disease. The completion of two H. pylori genome sequences revealed the enormous strain heterogeneity and permitted comparative proteome analysis. Immunoproteomics, a novel strategy combining standard proteomics with immunological screening, is currently method of choice for identification of new antigens of diagnostic and protective values. Highly specific antigens will be used as biomarkers of different pathology induced by H. pylori infection whereas novel highly immunogenic, conserved, abundant and surface-located proteins will facilitate efficient anti-Helicobacter vaccine construction.