Effects of aspirin on the development of Helicobacter pylori-induced gastric inflammation and heterotopic proliferative glands in Mongolian gerbils

Background: Helicobacter pylori infection is a major cause of gastritis and gastric carcinoma. Aspirin has anti‐inflammatory and antineoplastic activity. The aim of the present study was to determine the effects of aspirin on H. pylori‐induced gastritis and the development of heterotopic proliferative glands. Methods: H. pylori strain SS1 was inoculated into the stomachs of Mongolian gerbils. Two weeks after inoculation, the animals were fed with the powder diets containing 0 p.p.m. (n = 10), 150 p.p.m. (n = 10), or 500 p.p.m. (n = 10) aspirin. Mongolian gerbils were killed after 36 weeks of infection. Uninfected Mongolian gerbils (n = 10) were used as controls. Histologic changes, epithelial cell proliferation and apoptosis, and prostaglandin E₂ (PGE₂) levels of gastric tissue were determined. Results: H. pylori infection induced gastric inflammation. Administration of aspirin did not change H. pylori‐induced gastritis, but alleviated H. pylori‐induced hyperplasia and the development of heterotopic proliferative glands. Administration of aspirin accelerated H. pylori‐associated apoptosis but decreased H. pylori‐associated cell proliferation. In addition, the increased gastric PGE₂ levels due to H. pylori infection were suppressed by treatment with aspirin, especially at the dose of 500 p.p.m. Conclusions: Aspirin alleviates H. pylori‐induced hyperplasia and the development of heterotopic proliferative glands. Moreover, aspirin increases H. pylori‐induced apoptosis. We demonstrated the antineoplastic activities of aspirin in H. pylori‐related gastric carcinogenesis.     

Short-term therapy with celecoxib and lansoprazole modulates Th1/ Th2 immune response in human gastric mucosa

Background: Selective cyclooxygenase‐2 (COX‐2) inhibitors and proton pump inhibitors may exert immune‐mediated effects in human gastric mucosa. T‐cell immune response plays a role in Helicobacter pylori‐induced pathogenesis. This study evaluated effects of celecoxib and lansoprazole on T‐helper (Th) 1 and Th2 immune response in human gastric mucosa. Methods: Dyspeptic patients with or without osteoarticular pain were given one of the following 4‐week therapies: celecoxib 200 mg, celecoxib 200 mg plus lansoprazole 30 mg, and lansoprazole 30 mg daily. Expression of COX‐2, T‐bet, and pSTAT6 and production of prostaglandin E₂ (PGE₂), interferon (IFN)‐γ, and interleukin (IL)‐4 were determined in gastric biopsies before and after therapy. Histology was evaluated. Results: Cyclooxygenase‐2 expression and PGE₂ production was higher, and Th1 signaling pathway was predominant in H. pylori‐infected vs. uninfected patients. T‐bet expression and IFN‐γ production increased, while STAT6 activation and IL‐4 production decreased following therapy with celecoxib and celecoxib plus lansoprazole, respectively. Th1 and Th2 signaling pathways down‐regulated after therapy with lansoprazole, and this was associated with an improvement of gastritis. Effect of therapy was not affected by H. pylori status. Conclusion: Celecoxib and lansoprazole modulate Th1/Th2 immune response in human gastric mucosa. The use of these drugs may interfere with long‐term course of gastritis.     

Effect of Helicobacter pylori infection on Barrett's esophagus and esophageal adenocarcinoma formation in a rat model of chronic gastroesophageal reflux

Objectives: To investigate the relationship between Helicobacter pylori infection and Barrett’s esophagus (BE), a rat model of chronic gastroesophageal reflux with H. pylori infection was established and the degree of inflammation, incidence of BE and esophageal adenocarcinoma (EA) were evaluated. Methods: Eight‐week‐old male specific‐pathogen‐free SD rats were divided into five groups randomly: pseudo‐operation group; esophagojejunum anastomosis (EJA) group; EJA with H. pylori infection group; EJA with H. pylori infection and celecoxib‐treated group; EJA with celecoxib‐treated group. Rats were kept for 30 weeks after surgery. Esophageal lesion was evaluated grossly and microscopically. The expression of COX‐2 and CDX2 was determined by RT‐PCR and immunohistochemistry staining. The level of PGE₂ was assessed by enzyme‐linked immunosorbent assay. Results: Esophageal mucosal injury in the group of EJA with H. pylori infection was decreased than that in EJA group (p < .05). The incidence of BE and EA in rats undergoing EJA with H. pylori infection was increased than in rats undergoing EJA with no statistical difference. Celecoxib treatment decreased the incidence of EA in rats undergoing EJA with H. pylori infection (p < .05). The expression of CDX2 mRNA was decreased in rats with H. pylori infection or treated with celecoxib than in the rats of pseudo‐operation group (p < .05). When compared with those in rats of pseudo‐operation group, the expression of COX‐2 mRNA and the level of PGE₂ were upregulated in rats undergoing EJA irrespective of H. pylori infection (p < .05) and downregulated in rats treated with celecoxib (p < .05). When H. pylori colonized in esophagus, the severity of inflammation and the incidence of BE and EA were increased significantly. Higher levels of COX‐2 expression and PGE₂ were detected in rats with esophageal H. pylori colonization. Conclusions: When H. pylori infect in stomach, it may reduce the severity of inflammation. However, when colonizes in esophagus, H. pylori increases the severity of esophageal inflammation and the incidence of BE and EA. Celecoxib administration attenuates the incidence of EA by inhibiting COX‐2 expression.     

Gastric mucosal blood flow changes in Helicobacter pylori infection and NSAID-induced gastric injury

Background. The impact of H. pylori infection on gastric mucosal blood flow and NSAID‐induced gastric damage is unclear. Aim. To study the effects of H. pylori infection on gastric mucosal blood flow, both at basal conditions and after NSAID exposure, and its relation with mucosal damage and nitric oxide production. Methods. Gastric mucosal blood flow, nitric oxide production and gastric damage were assessed in time after H. pylori SS1 or E. coli inoculation in mice. Experiments were conducted in basal conditions or after oral exposure to indomethacin (20 mg/kg). Results. H. pylori infected mice exhibited a significant increase in gastric blood flow and gastric nitric oxide production 1 week after infection, but those parameters returned to basal levels by 4 weeks. NSAID challenge elicited a similar reduction in gastric blood flow [25–35%] in H. pylori‐infected and control animals. However, only 1 week H. pylori‐infected mice, which exhibited a significant baseline hyperemia, were able to maintain gastric blood flow values within the normal range after NSAID exposure. NSAID‐induced gastric damage was increased in H. pylori‐infected mice by 4 weeks, but not 1 week after infection. Conclusions. Underlying H. pylori infection aggravates acute NSAID‐induced gastric damage. However, at early phases, gastric hyperemia associated with increased nitric oxide production may exert some protective role.     

Helicobacter pylori infection up-regulates gland mucous cell-type mucins in gastric pyloric mucosa

Background. Two types of mucous cell are present in gastric mucosa: surface mucous cells (SMCs) and gland mucous cells (GMCs), which consist of cardiac gland cells, mucous neck cells, and pyloric gland cells. We have previously reported that the patterns of glycosylation of SMC mucins are reversibly altered by Helicobacter pylori infection. In this study, we evaluated the effects of H. pylori infection on the expression of GMC mucins in pyloric gland cells. Methods. Gastric biopsy specimens from the antrums of 30 H. pylori‐infected patients before and after eradication of H. pylori and 10 normal uninfected volunteers were examined by immunostaining for MUC6 (a core protein of GMC mucins), α1,4‐N‐acetyl‐glucosaminyl transferase (α4GnT) (the glycosyltransferase which forms GlcNAcα1‐4Galβ‐R), and GlcNAcα1‐4Galβ‐R (a GMC mucin‐specific glycan). Results. MUC6, α4GnT, and HIK1083‐reactive glycan were expressed in the cytoplasm, supranuclear region, and secretory granules in pyloric gland cells, respectively. The immunoreactivity of MUC6 and α4GnT, but not of GlcNAcα1‐4Galβ‐R, in the pyloric gland increased in H. pylori‐associated gastritis, and after the eradication of H. pylori, the increased expression of MUC6 and α4GnT in the gastric mucosa of H. pylori‐infected patients decreased to almost normal levels. This up‐regulation was correlated with the degree of inflammation. Conclusions. In addition to the synthesis of GMC mucins increasing reversibly, their metabolism or release may also increase reversibly in H. pylori‐associated gastritis. The up‐regulation of the expression of gastric GMC mucins may be involved in defense against H. pylori infection in the gastric surface mucous gel layer and on the gastric mucosa.     

The Interaction Between Helicobacter pylori and Atopy: Does Inverse Association Really Exist?

Aim: To date, cross‐sectional and case–control studies suggest an inverse association between Helicobacter pylori infection and atopic diseases, whereas the immunologic basis has not been studied yet. In this study we investigated T helper (Th) cell function in H. pylori‐infected children and compared cytokine responses in atopic and non‐atopic groups. Methods: The study groups was recruited from a cohort of 327 healthy children evaluated and followed‐up for 6 years to assess the natural history of H. pylori infection. Seventy‐four of 136 healthy children who underwent ¹³C urea breath test were eligible and accepted to participate. All participants were evaluated by a questionnaire, and skin‐prick testing. According to the results, children were divided into four groups with respect to the presence or absence of H. pylori and atopy. Peripheral blood mononuclear cells isolated from 34 of 74 children were cultured with H. pylori, Der p 1, and phytohemagglutinin (PHA). Interferon‐gamma (IFN‐γ), interleukin (IL)‐4 and IL‐10, transforming growth factor‐beta (TGF‐β) levels were measured in supernatants. Results: The frequency of atopy was lower in H. pylori‐infected group (31.9% vs. 48.1, p = .22), while atopic symptoms were similar between infected and non‐infected children. While PHA and H. pylori induced IFN‐γ levels were significantly higher in H. pylori‐infected children, concomitant presence of both atopy and H. pylori decreased the level of PHA and H. pylori induced IFN‐γ production. PHA and Der p 1‐induced IL‐4 levels were higher in atopic children, and IL‐4 production was suppressed when they were concomitantly infected with H. pylori. The production of TGF‐β was found to be suppressed in atopic children irrespective of the presence of H. pylori infection. Conclusion: The results of the current study demonstrated a counteractive Th1 and Th2 cytokine interaction between H. pylori infection and atopy. However, this counteractive immunologic balance did not protect against atopy.     

Helicobacter-induced gastritis in mice not expressing metallothionein-I and II

Background. Helicobacter pylori a primary cause of gastritis and peptic ulcer disease, is associated with increased production of reactive oxygen species within the gastric mucosa. Metallothionein (MT), a low‐molecular‐weight, cysteine‐rich, metal‐binding ligand, has been shown to sequester reactive oxygen species and reduce tissue damage. This study investigates the role of MT in H. pylori‐induced gastritis in mice. Materials and Methods. Control (MT+/+) and MT‐null (MT–/–) mice were inoculated with either 1 × 10⁸H. pylori or H. felis, and were infected for 4, 8 and 16 weeks or 8 weeks, respectively. H. pylori load was determined by culture. Myloperoxidase activity and MT levels were also determined. Results. The stomachs of H. felis‐infected mice were more severely inflamed than those of H. pylori‐infected mice. H. felis‐induced gastritis was more severe (p = .003) in MT–/– than in MT+/+ mice. MT–/– mice also had higher (60%; p < .05) H. pylori loads than MT+/+ mice 4 weeks after infection but not 8 or 16 weeks after infection. Myloperoxidase activity with H. pylori was similar between MT+/+ and MT–/– mice. Thirty‐three per cent greater (p < .05) myloperoxidase activity was observed in MT–/– than in MT+/+ mice infected with H. felis. In MT+/+ mice infected with H. pylori, liver MT was increased by 33 and 39% (p < .05) at 8 and 16 weeks, respectively, whereas gastric MT increased by 46% (p < .05) at 4 weeks and declined to baseline levels at 8 and 16 weeks. Conclusions. Mice lacking MT are more susceptible to H. pylori colonization and gastric inflammation, indicating that MT may be protective against H. pylori‐induced gastritis.     

Oxidative damage of the gastric mucosa in Helicobacter pylori positive chronic atrophic and nonatrophic gastritis, before and after eradication

Background. Helicobacter pylori is the main cause of gastritis and a primary carcinogen. The aim of this study was to assess oxidative damage in mucosal compartments of gastric mucosa in H. pylori positive and negative atrophic and nonatrophic gastritis. Materials and methods. Five groups of 10 patients each were identified according to H. pylori positive or negative chronic atrophic (Hp‐CAG and CAG, respectively) and nonatrophic gastritis (Hp‐CG and CG, respectively), and H. pylori negative normal mucosa (controls). Oxidative damage was evaluated by nitrotyrosine immunohistochemistry in the whole mucosa and in each compartment at baseline and at 2 and 12 months after eradication. Types of intestinal metaplasia were classified by histochemistry. Results. Total nitrotyrosine levels appeared significantly higher in H. pylori positive than in negative patients, and in Hp‐CAG than in Hp‐CG (p < .001); no differences were found between H. pylori negative gastritis and normal mucosa. Nitrotyrosine were found in foveolae and intestinal metaplasia only in Hp‐CAG. At 12 months after H. pylori eradication, total nitrotyrosine levels showed a trend toward a decrease in Hp‐CG and decreased significantly in Hp‐CAG (p = .002), disappearing from the foveolae (p = .002), but remaining unchanged in intestinal metaplasia. Type I and II of intestinal metaplasia were present with the same prevalence in Hp‐CAG and CAG, and did not change after H. pylori eradication. Conclusions. Oxidative damage of the gastric mucosa increases from Hp‐CG to Hp‐CAG, involving the foveolae and intestinal metaplasia. H. pylori eradication induces a complete healing of foveolae but not of intestinal metaplasia, reducing the overall oxidative damage in the mucosa.     

Mechanism of action of low recurrence of gastritis caused by Helicobacter pylori with the type II urease B gene

Background. Low recurrence of gastritis is seen in patients infected with Helicobacter pylori carrying the type II urease B gene, compared with H. pylori carrying types I and III. The underlying mechanism has been studied in terms of the urease activity and interleukin (IL)‐8 production capacity of different strains of H. pylori. Materials and Methods. Forty‐five patients infected with different strains of H. pylori (type I; 15, type II; 15 and type III; 15) were enrolled in the study. H. pylori was isolated from gastric mucosa and cultured in the presence of urea at pH 5.5 to evaluate urease activity. The capacity of different strains of H. pylori to induce IL‐8 mRNA and IL‐8 from a human gastric cancer cell line and human peripheral blood mononuclear cells was evaluated. Results. The urease activity of type II H. pylori[523 ± 228 µg of ammonia/dl/10⁸ colony‐forming units (CFU)/ml] was significantly lower than that of type I (1355 ± 1369 µg of ammonia/dl/10⁸ CFU/ml) and type III (1442 ± 2229 µg of ammonia/dl/10⁸ CFU/ml) (p < .05). Gastric cancer cells cocultured with type II H. pylori produced lower levels of IL‐8 mRNA compared with type I and type III H. pylori. The levels of IL‐8 were also significantly lower in cultures induced by type II H. pylori compared with those induced by type I and type III H. pylori. Peripheral blood mononuclear cells also produced lower levels of IL‐8 when cocultured with type II compared with type I H. pylori. Conclusions. These results indicate that both the lower level of urease activity and the low IL‐8‐inducing capacity of type II H. pylori might underlie the lower recurrence rate of gastritis caused by type II H. pylori.     

Enterocromaffin-like cell tumor induced by Helicobacter pylori infection in Mongolian gerbils

Background. Gastric carcinoids are strongly associated with chronic atrophic gastritis A, and it is suggested that hypergastrinemia plays a critical role in development of gastric carcinoids. Since Helicobacter pylori infection causes hypergastrinemia, it is held that H. pylori infection produces gastric carcinoids. We followed the histological changes of H. pylori‐infected stomachs of Mongolian gerbils for a long time. Materials and Methods. Five‐week‐old‐male Mongolian gerbils were infected with H. pylori ATCC 43504 with cagA gene, expressing vacuolating cytotoxin. Determination of the serum gastrin and histopathological examination of the stomach at 6, 12, 18, and 24 months after H. pylori inoculation was studied and compared with uninfected animals . Results In infected animals, the gastric carcinomas appeared 18 and 24 months after infection. Endocrine cell dysplasias and carcinoids with marked atrophic gastritis of the oxyntic mucosa were observed in the infected animals 24 months after H. pylori inoculation. The serum gastrin level in the infected group increased from an average of 86.2 pg/ml at the beginning of the study to an average of 498 pg/ml and 989 pg/ml at 18 and 24 months after infection, respectively. These changes in the serum gastrin levels were significant compared with uninfected controls that showed no changes. Conclusions. H. pylori infection caused not only gastric carcinomas but also enterochromaffin‐like cell tumors in Mongolian gerbils, due to hypergastrinemia. This model is thought to be useful to study the relationship between hypergastrinemia and gastric carcinoids.     

Preventive effects of Cladosiphon fucoidan against Helicobacter pylori infection in Mongolian gerbils

Background. Recently, the acquisition by Helicobacter pylori of resistance to antibiotics has become a serious problem. Therefore, nonantibiotic substances are required to diminish H. pylori‐induced gastric lesions. In the present study, the effects of Cladosiphon fucoidan were examined in terms of H. pylori attachment to porcine gastric mucin in vitro and Helicobacter pylori‐induced gastritis in vivo. Methods. The inhibitory effect of Cladosiphon fucoidan and other polysaccharides on H. pylori attachment to porcine gastric mucin was assayed in vitro with mucin‐coated microtiter plates. The effect of Cladosiphon fucoidan on H. pylori‐induced gastritis was examined in vivo using Mongolian gerbils. H. pylori‐inoculated gerbils were given fucoidan in drinking water. Six weeks after H. pylori‐inoculation, gerbils were sacrificed for macroscopic and microscopic examination of gastric lesions and counting of viable H. pylori in the gastric mucosa. Results. Cladosiphon fucoidan inhibited the H. pylori attachment to porcine gastric mucin at pH 2.0 and 4.0. Two other sulfated polysaccharides, Fucus fucoidan and dextran sulfate sodium, also inhibited the attachment but only at pH 2.0. Inhibitory effects of these three sulfated polysaccharides were not observed at pH 7.2 and nonsulfated polysaccharides, such as mannan and dextran, exerted no influence at any pH. In the in vivo experiment, the H. pylori‐induced gastritis and the prevalence of H. pylori infected animals were markedly reduced by fucoidan in a dose‐dependent manner, at doses of 0.05 and 0.5% in the drinking water. Conclusion. Cladosiphon fucoidan may deserve particular attention as a safe agent that can prevent H. pylori infection and reduce the risk of associated gastric cancer.     

Teprenone, but not H2-receptor blocker or sucralfate, suppresses corpus Helicobacter pylori colonization and gastritis in humans: teprenone inhibition of H. pylori-induced interleukin-8 in MKN28 gastric epithelial cell lines

Background. The role of teprenone in Helicobacter pylori‐associated gastritis has yet to be determined. To investigate the effect of teprenone on inflammatory cell infiltration, and on H. pylori colonization of the gastric mucosa in H. pylori‐infected patients, we first compared the effect of teprenone with that of both histamine H2 receptor antagonists (H2‐RA) and sucralfate on the histological scores of H. pylori gastritis. We then examined its in vitro effect on H. pylori‐induced interleukin (IL)‐8 production in MKN28 gastric epithelial cells. Materials and Methods. A total of 68 patients were divided into three groups, each group undergoing a 3‐month treatment with either teprenone (150 mg/day), H2‐RA (nizatidine, 300 mg/day), or sucralfate (3 g/day). All subjects underwent endoscopic examination of the stomach before and after treatment. IL‐8 production in MKN28 gastric epithelial cells was measured by enzyme‐linked immunosorbent assay (ELISA). Results. Following treatment, the teprenone group showed a significant decrease in both neutrophil infiltration and H. pylori density of the corpus (before vs. after: 2.49 ± 0.22 vs. 2.15 ± 0.23, p = .009; 2.36 ± 0.25 vs. 2.00 ± 0.24, p = .035, respectively), with no significant differences seen in either the sucralfate or H2‐RA groups. Teprenone inhibited H. pylori‐enhanced IL‐8 production in MKN28 gastric epithelial cells in vitro, in a dose‐dependent manner. Conclusions. Teprenone may modify corpus H. pylori‐associated gastritis through its effect on neutrophil infiltration and H. pylori density, in part by its inhibition of IL‐8 production in the gastric mucosa.     

Polaprezinc attenuates Helicobacter pylori-associated gastritis in Mongolian gerbils

Background. The ammonia‐monochloramine system plays an important role in Helicobacter pylori‐associated gastric mucosal injury. Polaprezinc, a new antiulcer agent, has a scavenging action against monochloramine. The aim of the experiment was to investigate the inhibitory effects of polaprezinc on the H. pylori‐induced gastritis in Mongolian gerbils. Materials and Methods. Mongolian gerbils fasting for 24 hours were orally given culture broth containing 2–4 × 10⁸ colony‐forming units of H. pylori ATCC 43054 per milliliter. From 4 hours after inoculation until the end of the experiment, gerbils were given chow pellets with or without 0.02% polaprezinc. All gerbils were killed 12 weeks later. The grades of H. pylori density and histologic features of gastritis were evaluated in accordance with the Updated Sydney System. The scavenging effect of polaprezinc on monochloramine was investigated spectrophotometrically. Results. Polaprezinc had little or no influence on the H. pylori density in both pyloric and fundic mucosae. However, it significantly attenuated the development of polymorphonuclear neutrophil activity, mononuclear infiltration, and surface epithelial erosion in both pyloric and fundic mucosae compared with those of the control group. H. pylori inoculation significantly increased the heights of both pyloric and fundic mucosae (mainly due to the increased height of foveolar hyperplasia), but polaprezinc inhibited the increase of mucosal thickness in both pyloric and fundic mucasae. No intestinal metaplasia was detected in this study. Spectrophotometric examination revealed that polaprezinc scavenged monochloramine. Conclusions. Polaprezinc inhibited the development of H. pylori‐induced gastritis through its scavenging action against monochloramine.     

Induction of cyclooxygenase 2 by Escherichia coli but not Helicobacter pylori lipopolysaccharide in gastric epithelial cells in vitro

Background. Cyclooxygenase 2 (COX‐2) is an inducible enzyme that plays a key role in the synthesis of prostaglandins in response to inflammatory stimuli. It is expressed in the gastric mucosa as part of the response to infection with Helicobacter pylori. The specific interaction between H. pylori and the gastric epithelium that results in COX‐2 expression has not been identified. Methods. In order to investigate the hypothesis that lipopolysaccharide (LPS) from H. pylori plays a role in the induction of cyclooxygenase 2 in the stomach, gastric cell lines MKN‐7 and MKN‐45 were incubated with LPS from either H. pylori NCTC 11637 or Escherichia coli 055:B5. Incubation of cells with live H. pylori NCTC 11637 was also carried out as a positive control. Cells were then analysed for COX‐2 protein and mRNA and prostaglandin E2 synthesis. Results. Cyclooxygenase 2 protein and mRNA expression was induced by E. coli LPS and live H. pylori, but not by H. pylori LPS. Prostaglandin E₂ synthesis increased in a dose‐dependent manner in both cell lines with E. coli but not H. pylori LPS. Conclusions. H. pylori LPS is of low biological activity when compared with E. coli LPS in its ability to induce the expression of cyclooxygenase 2 and synthesis of prostaglandin E₂. This may provide one mechanism by which H. pylori minimizes the inflammatory response in the gastric mucosa, allowing chronic infection.     

Correlation Between Helicobacter pylori Infection, Gastric Inflammation and Serum Homocysteine Concentration

Background. Epidemiological studies have suggested a link between chronic Helicobacter pylori infection and ischemic heart disease but the underlying mechanism remains elusive. We hypothesized that H. pylori‐associated chronic gastritis causes impairment of absorption of vitamin cofactors that are essential in the metabolism of homocysteine and results in hyperhomocysteinemia. Materials and Methods. Forty‐nine dyspeptic patients were studied. H. pylori infection was defined by rapid urease test and histology. Fasting serum homocysteine level, which was measured by a validated commercial fluorescence polarization immunoassay, was correlated with H. pylori infection statuses and gastric histology. H. pylori‐infected patients were followed up for 24 weeks post eradication for changes in serum homocysteine concentration. Results. Univariate analyses showed that serum homocysteine level correlated with increasing age (p < .001), male sex (p = .003) and smoking habit (p = .025). There was no significant difference in serum homocysteine levels between H. pylori infected and uninfected subjects (median 10.5 vs. 10.2 µmol/l). After successful eradication of the bacterium, there was no significant reduction in homocysteine level. Moreover, there was no correlation between homocysteine level and gastric histology including H. pylori density, activity and inflammation scores, presence of atrophy or intestinal metaplasia. Conclusions. The postulated link between H. pylori infection and ischemic heart disease, if it actually exists, is unlikely to be mediated through hyper‐homocysteinemia.     

Helicobacter pylori CagA Status,Mucosal Oxidative Damage and Gastritis Phenotype: A Potential Pathway to Cancer?

Background. Oxidative DNA damage is associated with Helicobacter pylori infection, atrophy and intestinal metaplasia. H. pylori‐cagA‐positive strains are associated with the highest risk of gastric cancer. Aims. To ascertain whether cagA‐positive H. pylori infection correlates with higher concentrations of 8OHdG and the presence of precancerous changes. Patients and Methods. 118 patients were studied (65M/53F, age 61 ± 14 years). Twelve were H. pylori‐negative. Among the H. pylori‐positive patients, 34 were cagA‐positive and 40 were cagA negative. In 32 patients H. pylori had been eradicated at least 6 months before endoscopic sampling. The phenotype of the gastritis (atrophic compared with nonatrophic, with and without intestinal metaplasia) was scored in biopsy samples obtained from the antrum, corpus, and angularis incisura. In antral biopsy samples, 8‐hydroxydeoxyguanosine was assessed by HPLC (electrochemical detector). CagA status was determined by PCR. Results. The highest scores for both mononuclear inflammation and activity of gastritis were significantly associated with cagA status (p = 0.036 antrum and p = 0.02 corpus). cagA‐positive infection significantly correlated with a higher prevalence of atrophic‐metaplastic lesions (p = 0.04). cagA‐positive patients had higher 8‐hydroxydeoxyguanosine levels than both cagA‐negative and H. pylori‐negative cases (p = 0.01). The 8‐hydroxydeoxyguanosine levels were significantly higher in multifocal atrophic gastritis (p = 0.04). The odds ratio for cagA‐positive patients having 8OHdG levels above a cut‐off calculated on the basis of the ROC curves were 7.12, overall, reaching 11.25 when only patients younger than 50 were considered. Conclusions. cagA‐positive patients were characterized: first, for higher scores for gastritis, activity and atrophic and metaplastic lesions; and second for greater oxidative DNA damage overall, at younger age and in the presence of multifocal atrophy. This setting may represent a cancer‐prone biological context.     

Profiling and identification of eubacteria in the stomach of Mongolian gerbils with and without Helicobacter pylori infection

Background. Mongolian gerbils are frequently used to study Helicobacter pylori‐induced gastritis and its consequences. The presence of an indigenous bacterial flora with suppressive effect on H. pylori may cause difficulties with establishing this experimental model. Aim. The aim of the present study was to determine bacterial profiles in the stomach of Mongolian gerbils with and without (controls) H. pylori infection. Methods. Gastric tissue from H. pylori ATCC 43504 and CCUG 17874 infected and control animals were subjected to microbial culturing and histology. In addition, gastric mucosal samples from H. pylori ATCC 43504 infected and control animals were analyzed for bacterial profiling by temporal temperature gradient gel electrophoresis (TTGE), cloning and pyrosequencing of 16S rDNA variable V3 region derived PCR amplicons. Results. Oral administration of H. pylori ATCC 43504, but not CCUG 17874, induced colonization and gastric inflammation in the stomach of Mongolian gerbils. Temporal temperature gradient gel electrophoresis (TTGE) and partial 16S rDNA pyrosequencing revealed the presence of DNA representing a mixed bacterial flora in the stomach of both H. pylori ATCC 43504 infected and control animals. In both cases, lactobacilli appeared to be dominant. Conclusion. These findings suggest that indigenous bacteria, particularly lactobacilli, may have an impact on the colonization and growth of H. pylori strains in the stomach of Mongolian gerbils.