Helicobacter pylori infection increases serum nitrate and nitrite more prominently than serum pepsinogens

Background. Helicobacter pylori infection causes chronic gastritis and results in increased serum concentrations of pepsinogens I and II as well as gastrin, while the ratio of pepsinogen I to II (I : II) is decreased. Inducible nitric oxide synthase (iNOS) is induced in H. pylori‐associated gastritis and may modulate inflammation. However serum nitrate and nitrite (NOx) concentrations in patients with H. pylori‐induced chronic gastritis have not been reported. We examined differences in serum NOx between H. pylori‐negative and positive volunteers relative to differences in pepsinogens and gastrin. Materials and methods. Sera from 80 healthy asymptomatic volunteers younger than 36 years were analyzed for anti‐H. pylori antibody, NOx, gastrin and pepsinogens. Results. In H. pylori antibody‐positive subjects serum NOx concentrations were higher than in negative subjects (p < .005). In H. pylori‐negative subjects, NOx correlated with pepsinogen II (r = .405, p < .05). In subjects with low pepsinogen I or II, NOx was higher in H. pylori‐positive than negative subjects (p < .001). In subjects with high pepsinogen I : II (6 or higher), serum NOx was higher in H. pylori‐positive than in negative subjects. Conclusions. H. pylori‐induced gastritis increases serum NOx concentrations more prominently than those of pepsinogen. In H. pylori‐negative subjects, serum correlates with serum pepsinogen II.     

The CagA protein of Helicobacter pylori suppresses the functions of dendritic cell in mice

CagA protein is the most assessed effecter molecule of Helicobacter pylori. In this report, we demonstrate how CagA protein regulates the functions of dendritic cells (DC) against H. pylori infection. In addition, we found that CagA protein was tyrosine-phosphorylated in DC. The responses to cagA-positive H. pylori in DC were reduced in comparison to those induced by cagA-negative H. pylori. CagA-overexpressing DC also exhibited a decline in the responses against LPS stimulation and the differentiation of CD4⁺ T cells toward Th1 type cells compared to wild type DC. In addition, the level of phosphorylated IRF3 decreased in CagA-overexpressing DC stimulated with LPS, indicating that activated SHP-2 suppressed the enzymatic activity of TBK1 and consequently IRF3 phosphorylation. These data suggest that CagA protein negatively regulates the functions of DC via CagA phosphorylation and that cagA-positive H. pylori strains suppress host immune responses resulting in their chronic colonization of the stomach.     

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.     

Helicobacter pylori infection in children and adults: a single pathogen but a different pathology

Background. The aims of this retrospective study were to ascertain in large series of children and adults: the relationship of the infecting strain to gastric mucosal lesions; and the relationship of the infecting strain to its duodenal localization. Materials and Methods. We studied 307 and 604 consecutive children and adults. In gastric mucosal samples H. pylori was cultured, genotyped and histologically assessed, while inflammation, activity and intestinal metaplasia were graded. In a subset of 171 patients H. pylori ureaseA (ureA) and cagA genes were amplified (PCR) using mucosal biopsies from the duodenum. Results. H. pylori infection was diagnosed in 40 children and 308 adults. cagA was identified in 50% and 65.5% of infected children and adults. Antral activity was associated with the density of infecting bacteria (p < .001) and with cagA (p < .01). Intestinal metaplasia was correlated with cagA (p < .001). The ureA gene was found in 56 duodenal samples from 82 H. pylori positive patients. Duodenal H. pylori ureA was significantly more frequent in patients with duodenal diseases than in those without (p < .01), cagA positive strains being mainly involved in the infection of this anatomical area (p < .01). Conclusions. A severe H. pylori‐associated gastritis is more prevalent when the density of infecting bacteria is high and when cagA positive strains cause the infection. The most virulent cagA positive H. pylori colonizes not only the gastric, but also the duodenal mucosa, which can be directly damaged by the bacteria itself or by its products.     

Helicobacter pylori and the birth cohort effect: evidence for stabilized colonization rates in childhood

Background: The prevalence of Helicobacter pylori has declined over recent decades in developed countries. The increasing prevalence with age is largely because of a birth cohort effect. We previously observed a decline in H. pylori prevalence in 6‐ to 8‐year‐old Dutch children from 19% in 1978 to 9% in 1993. Knowledge about birth‐cohort‐related H. pylori prevalence is relevant as a predictor for the future incidence of H. pylori‐associated conditions. Aim: The aim of this study was to investigate whether the birth cohort effect of H. pylori observed between 1978 and 1993 continued in subsequent years. Methods: Anti‐H. pylori IgG antibodies and anti‐CagA IgG antibodies were determined in serum samples obtained in 2005/2006 from 545 Dutch children aged 7–9 years who participated in the Prevention and Incidence of Asthma and Mite Allergy birth cohort. The H. pylori and CagA antibodies were determined by enzyme‐linked immunosorbent assays that have been extensively validated in children, with a 94% sensitivity for H. pylori colonization and a 92.5% sensitivity for colonization with a cagA‐positive strain. Results: Of the 545 children (M/F 300/245), most (91.5%) were of Dutch descent. The H. pylori positivity rate was 9% (95% CI 6.6–11.4%). The prevalence of CagA antibodies was 0.9% (95% CI 0.1–1.6%). No significant differences were demonstrated in H. pylori and cagA prevalence in relation to gender or ethnicity. Conclusion: The prevalence of H. pylori in childhood has remained stable in the Netherlands from 1993 to 2005, suggesting a stabilization of the previously decreasing trend in subsequent birth cohorts. This finding may reflect stabilization in determinants such as family size, housing, and hygienic conditions (or offset by day care). If confirmed in other populations in developed countries, it implies that colonization with H. pylori will remain common in the coming decades. Remarkably however, the rate of colonization with cagA⁺H. pylori strains has become very low, consistent with prior observations that cagA⁺ strains are disappearing in Western countries.     

Effect of Helicobacter pylori infection on gastric acid secretion and meal-stimulated serum gastrin in children

Background. Comparative studies of gastric acid secretion in children related to Helicobacter pylori infection are lacking. The purpose of this study was to compare acid secretion and meal‐stimulated gastrin in relation to H. pylori infection among pediatric patients. Materials and Methods. Thirty‐six children aged 10–17 years (17 with H. pylori infection) undergoing diagnostic endoscopy participated in the study. Diagnoses included gastritis only (n = 23), duodenal ulcer (n = 5) and normal histology (n = 8). Gastric acid output was studied using the endoscopic gastric secretion test before and 2–3 months after H. pylori eradication. Meal‐stimulated serum gastrin response was assessed before and 12 months after eradication. Results. H. pylori gastritis was typically antrum‐predominant. Acid secretion was greater in H. pylori‐positive patients with duodenal ulcer than in gastritis‐only patients or controls [mean ± standard error (SE): 6.56 ± 1.4, 3.11 ± 0.4 and 2.65 ± 0.2 mEq/10 minutes, respectively; p < .001]. Stimulated acid secretion was higher in H. pylori‐positive boys than girls (5.0 ± 0.8 vs. 2.51 ± 0.4 mEq/10 minutes, respectively; p < .05). Stimulated acid secretion pre‐ and post‐H. pylori eradication was similar (5.47 ± 0.8 vs. 4.67 ± 0.9 mEq/10 minutes, respectively; p = .21). Increased basal and meal‐stimulated gastrin release reversed following H. pylori eradication (e.g. basal from 134 to 46 pg/ml, p < .001 and peak from 544 to 133 pg/ml, p < .05). Conclusions. H. pylori infection in children is associated with a marked but reversible increase in meal‐stimulated serum gastrin release. Gastric acid hypersecretion in duodenal ulcer remains after H. pylori eradication, suggesting that the host factor plays a critical role in outcome of the infection.     

Helicobacter pylori Infection and Gastric Autoimmune Diseases: Is There a Link?

Background. Helicobacter pylori is thought to be involved in atrophic body gastritis. We explored the prevalence of H. pylori infection in asymptomatic subjects with gastric parietal cell antibodies, as well as in patients with pernicious anemia, to evaluate a possible role of H. pylori gastric infection in gastric autoimmunity. Patients and Methods. We studied 79 consecutive asymptomatic subjects with parietal cell antibodies, 24 patients with pernicious anemia, and 66 parietal cell antibody‐negative controls. All patients underwent gastric biopsies for histology and detection of H. pylori. Red blood cell count and volume, serum levels of gastrin, pepsinogen I, iron, folic acid, vitamin B₁₂, and circulating antibodies to H. pylori and to intrinsic factor were also determined. Results. We found an atrophic body gastritis in 14 of the 79 asymptomatic subjects with parietal cell antibodies (18%) and in 2 of the 66 controls (3%) (p = .01). Mean levels of gastrin were increased (p < .0001), while those of pepsinogen were reduced (p < .001) compared with controls. H. pylori was identified at the gastric level and/or circulating anti‐H. pylori antibodies were detected in 46 parietal cell antibody‐positive subjects (58%) compared with 26 controls (39%) (p = .03). In patients with pernicious anemia we found an atrophic body gastritis in 18 of 24 cases (75%) (p < .001 vs. controls). Mean levels of gastrin were markedly increased (p < .0001) and those of pepsinogen I decreased (p < .0001) relative to controls. Only five of these patients (21%) had evidence of H. pylori infection compared with 46 of the parietal cell antibody‐positive subjects (58%) (p = .003) and 26 of the controls (39%). Considering all patients with gastric autoimmunity (i.e. with parietal cell antibodies and/or with pernicious anemia), H. pylori was found in 44 of 72 of those without atrophy (61%) but in 6 of 31 with gastric body atrophy (19%) (p < .001), indicating that H. pylori infection is greatly reduced when gastric acid secretion decreases. Conclusions. The frequent detection of H. pylori infection in subjects with early gastric autoimmunity, indicated by the presence of parietal cell antibodies, suggests that H. pylori could have a crucial role in the induction and/or the maintenance of autoimmunity at the gastric level.     

Pediatric Helicobacter pylori infection and circulating T-lymphocyte activation and differentiation

Background: In this study, H. pylori‐infected and noninfected children with gastritis were compared to a control group with respect to circulating CD4⁺ and CD8⁺ T lymphocytes expressing activation and differentiation markers. Additionally, the lymphocyte phenotypes of children with gastritis were correlated with the gastric inflammation scores. Materials and Methods: H. pylori infection status was assessed based on [¹³C]urea breath test, rapid urease test, and histology. Analysis of the lymphocyte surface molecule expression was carried out by triple‐color flow cytometry. Results: The group of H. pylori‐infected children showed an elevated proportion of peripheral B cells with CD19^low, along with a twofold increase in the percentage of memory (CD45RO⁺) CD4⁺ and CD8⁺ T‐cell subsets (p < .05). Moreover, a positive correlation between the age and the percentage of these subsets was seen (r = .38, p = .04 and r = .56, p < .01, respectively). Children with gastritis but without infection had a slightly increased percentage of CD8⁺ T cells and CD56⁺ NK cells, CD3^high T cells and CD45RO^high CD4⁺ T‐cell subsets (p < .05). Both H. pylori‐infected and noninfected children with gastritis were characterized by an increased percentage of memory/effector CD4⁺ T cells, the presence of NK cells with CD56^high, memory T‐cell subset with CD4^high, and naive, memory, memory/effector, and effector T‐cell subsets with CD8^high (p < .05). Gastric inflammation scores correlated positively with the percentage of CD4⁺ T lymphocytes in H. pylori‐infected children (r = .42, p = .03). In noninfected children, gastric inflammation scores correlated positively with the percentage of B cells (r = .45, p = .04). Conclusion: In H. pylori‐negative children, gastritis was associated with an increased percentage of activated NK and T cells, and intermediate‐differentiated peripheral blood CD4⁺ T cells, which was more pronounced in H. pylori‐positive children who also showed an increased B‐cell response. However, increased inflammation was only associated with the elevation of CD4⁺ T‐cell percentage in H. pylori‐positive children as well as B‐cell percentage in H. pylori‐negative children with gastritis.     

Production of chemokines and reactive oxygen species by human neutrophils stimulated by Helicobacter pylori

Background. Bacteria have different characteristics in stimulation of human neutrophils to produce reactive oxygen species (ROS) and chemokines. This study examined the ability of Helicobacter pylori to induce production of ROS and chemokines by human neutrophils. Methods. H. pylori strains (1.5 × 10⁸ CFU/ml) were cocultured with 5 × 10⁴ neutrophils isolated from healthy subjects. Samples were incubated with human serum with or without IgG antibodies to H. pylori. ROS production was measured using luminol‐dependent chemiluminescence (LmCL), and the concentrations of chemokines (IL‐8, RANTES, MIP‐1α and MCP‐1) were measured by ELISA. Results. The mean of the highest LmCL (peak height; PH) value stimulated by H. pylori was 3318 in the absence of serum. PH increased to 4687 when incubated with anti‐H. pylori antibody‐positive sera (p < .001) but antibody‐negative sera did not affect LmCL response. The mean final concentration of IL‐8 produced in the absence of serum was 142.6 pg/ml. Increased IL‐8 production was seen by addition of antibody positive serum (p < .01). IL‐8 production was not significantly correlated with production of ROS. On the other hand, H. pylori stimulation did not induce neutrophil production of RANTES, MIP‐1α or MCP‐1. Conclusions. H. pylori was capable of inducing IL‐8 production by human neutrophils, but not C‐C chemokines. Production of C‐X‐C dominant chemokine by neutrophils is consistent with the pathological characteristics of H. pylori‐induced gastritis, where persistent neutrophil infiltration is present.     

Fasting gastric pH of Japanese subjects stratified by IgG concentration against Helicobacter pylori and pepsinogen status

Background: The clinical significance of Helicobacter pylori antibody titer has been controversial, and the association between the extent of gastric atrophy or acid secretion and H. pylori antibody concentration has not been elucidated. Materials and Methods: Serum pepsinogen, H. pylori antibody concentration, and fasting gastric pH (as an indicator of acid secretion) were measured in 231 patients undergoing upper gastrointestinal endoscopy. “Atrophic” pepsinogen was defined as pepsinogen‐I < 70 ng/mL and pepsinogen‐I/II ratio <3. Other levels of pepsinogen were defined as “normal”. Fasting gastric pH was analyzed in subjects stratified by pepsinogen level and by H. pylori antibody concentration. Results: Helicobacter pylori antibody concentration showed no significant relationship with fasting gastric pH when all subjects were analyzed together. In H. pylori‐seronegative subjects, fasting gastric pH was within the normal range, irrespective of the extent of mucosal atrophy. In H. pylori‐seropositive subjects, H. pylori antibody concentration was positively correlated with fasting gastric pH in subjects with “normal” pepsinogen, but inversely correlated in those with “atrophic” pepsinogen. Particularly in subjects with low H. pylori antibody concentration and atrophic mucosa, a group reportedly at high risk of noncardia cancer, the most impaired acid secretion was shown among subjects with atrophic mucosa. Conclusions: The relationship between acid secretion and H. pylori antibody concentration differs depending on the presence of mucosal atrophy. Our findings provide a possible rationalization for measuring both serum pepsinogen levels and H. pylori antibody concentration in gastric cancer screening.     

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.     

Association of Malaysian Helicobacter pylori Virulence Polymorphisms with Severity of Gastritis and Patients' Ethnicity

Background and aim: Polymorphisms of Helicobacter pylori cagA and vacA genes do exist and may contribute to differences in H. pylori infection and gastroduodenal diseases among races in the Malaysian population. This study was conducted to characterize the polymorphisms in H. pylori cagA and vacA in Malaysian population. Methods: A total of 110 H. pylori isolates were genotyped by PCR and sequenced for cagA and PCR‐RFLP for vacA. Results: East Asian cagA was predominantly detected (64.5%), whereas vacA s1m1 and s1m2 alleles were detected in 60.9 and 37.3% of strains, respectively. A statistical association between cagA type with patients’ ethnicity (p < .0001) and age group >50 years old (p = .027) was identified. vacA alleles showed significant association with age group >50 years old (p = .017) and increased neutrophil activity in gastric mucosa (p = .028 and p = .016 for moderate and marked activity, respectively). Further identification of vacA polymorphism revealed that 84% of strains from Malays and Indians showed one RFLP pattern (RFLP‐1), whereas more than one RFLP patterns (RFLP‐2, 3, 4, 5, 6, and 8) were predominantly observed in strains from Chinese (82%) (p < .0001). Increasing severity of gastric inflammation was observed in gastric mucosa infected with strains carrying RFLP‐2, 3, 4, 5, and 6 (p = .037). About 86.6% of H. pylori strains with East Asian cagA were vacA RFLP‐2, 3, 4, 5, 6, and 8, and 88% of Western cagA strains were vacA RFLP‐1 (p < .0001). Chinese and Indians are susceptible to different virulence genotypes of H. pylori, whereas Malays showed a mixed virulence genotypes. Conclusion: Marked differences in the polymorphisms of cagA and vacA were observed among strains in Malaysian population. This provides a new insight into the pathogenicity of H. pylori in multiracial population.     

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.     

Effect of Helicobacter pylori-induced cyclooxygenase-2 on gastric epithelial cell kinetics: implication for gastric carcinogenesis

Background. Cyclooxygenase (COX)‐2 induced by Helicobacter pylori is thought to enhance gastric carcinogenesis by affecting the maintenance of epithelial homeostasis. Materials and Methods. Gastric biopsies from 160 subjects, 97 with nonulcer dyspepsia (47 H. pylori negative, 50 H. pylori positive) and 63 with gastric cancer were examined immunohistochemically for COX‐2 expression, cell proliferation and apoptotic indices. Results. COX‐2 expression in corpus was significantly higher in H. pylori positive than in negative non‐ulcer dyspepsia (NUD) (p < .05). Regardless of site, gastric cancer subjects had higher COX‐2 expression in both antrum and corpus compared with H. pylori negative and positive NUD (p < .005). Proliferation was higher in cancer and H. pylori positive than in negative NUD (p < .0001). Moreover, cancer had enhanced proliferation than H. pylori positive NUD in corpus greater (p = .0454) and antrum lesser (p = .0215) curvatures. Apoptosis was higher in H. pylori positive than in negative NUD (p < .05). However, both had a higher index than the cancer subjects (p < .0001). Apoptosis : proliferation ratio was higher in corpus of H. pylori negative than in positive NUD in greater (p = .0122) and lesser (p = .0009) curvatures. However, both had a higher A:P ratio than cancer cases (p = .0001). A negative correlation between COX‐2 expression and A:P ratio was found in corpus greater (r = –.176, p= .0437) and lesser (r = –.188, p= .0312) curvatures. Conclusion. The expression of COX‐2 is associated with disruption in gastric epithelial kinetics and hence may play a role in gastric carcinogenesis.     

Characterization and functional activity of murine monoclonal antibodies specific for α1,6-glucan chain of Helicobacter pylori lipopolysaccharide

Background: The outer core region of H. pylori lipopolysaccharide (LPS) contains α1,6‐glucan previously shown to contribute to colonizing efficiency of a mouse stomach. The aim of the present study was to generate monoclonal antibodies (mAbs) specific for α1,6‐glucan and characterize their binding properties and functional activity. Materials and Methods: BALB/c mice were injected intraperitoneally with 10⁸ formalin‐fixed H. pylori O:3 0826::Kan cells 3× over 56 days to achieve significant titer. Anti‐α1,6‐glucan‐producing hybridomas were screened by indirect ELISA using purified H. pylori O:3 0826::Kan LPS. One clone, 1C4F9, was selected for further characterization. The specificities of mAbs were determined by indirect and inhibition ELISA using structurally defined H. pylori LPS and synthetic oligosaccharides, and whole‐cell indirect ELISA (WCE) of clinical isolates. They were further characterized by indirect immunofluorescent (IF) microscopy and their functional activity in vitro determined by serum bactericidal assays against wild‐type and mutant strains of H. pylori. Results: The generated anti‐α1,6‐glucan IgM, 1C4F9, has demonstrated an excellent specificity for the glucan chain containing 5 to 6 α1,6‐linked glucose residues and showed surface accessibility by IF microscopy with H. pylori cells adherent to gastric adenocarcinoma cells monolayers. Of 38 isolates from Chile, 17 strains reacted with antiglucan mAbs in WCE (OD₄₅₀ ≥ 0.2). Bactericidal activity was observed against selective wild‐type and mutant H. pylori strains exhibiting OD₄₅₀ values of ≥0.45 in WCE. Conclusions: Anti‐α1,6‐glucan mAbs could have potential application in typing and surveillance of H. pylori isolates as well as offer insights into structural requirements for the development of LPS‐based vaccine against H. pylori infections.     

p16Ink4a is overexpressed in H. pylori-associated gastritis and is correlated with increased epithelial apoptosis

Background. Cell cycle regulatory proteins may be critical targets during carcinogenesis. We have previously shown that chronic H. pylori infection is associated with decreased expression of the cyclin dependent kinase inhibitor (CDI) p27^kip1. Loss of p27^kip1 and p16^Ink4a (p16) expression, another CDI, has been reported during the progression of gastric tubular adenomas to advanced gastric cancer. The aim of the current study was to examine whether H. pylori infection also affects the expression of p16 in the gastric mucosa of H. pylori‐infected patients. Methods. p16 expression was evaluated in gastric antral biopsies by immunohistochemistry in 50 patients with nonulcer dyspepsia (n = 18 uninfected, n = 32 H. pylori infected, 24 by cagA⁺ strains). Adjacent sections were stained for proliferating epithelial cells (by Ki67) and for apoptotic cells (by TUNEL assay). Results. Both in H. pylori infected and uninfected patients the expression of p16 was higher in the neck and base of the gland than in the foveolar region. Epithelial staining for p16 was increased with H. pylori infection (31.3% vs. 11.1% in the foveolar region, 68.8% vs. 27.8% in the neck and 75% vs. 50% in the glandular base). There was no correlation between the expression of 16 and proliferation but there was a significant positive correlation between apoptosis and 16 immunostaining. Conclusions. The tumor suppressor gene 16 is over expressed in gastric epithelial cells of H. pylori infected patients and this is associated with an increase in apoptosis. These findings suggest a possible role for this cell cycle regulator in the increase in gastric cell turnover that is associated with H. pylori infection.     

The role of serum pepsinogen and gastrin test for the detection of gastric cancer in Korea

Background and Aim: This study was performed to determine whether serum pepsinogen (PG) and gastrin testing can be used to detect gastric cancer in Korea. Methods: Serum levels of PG I (sPGI) and sPGII, PG I/II ratios, and gastrin levels were measured in 1006 patients with gastroduodenal diseases including cancer. Follow‐up tests were performed 1 year after Helicobacter pylori eradication. Results: sPGI and sPGII levels increased and PG I/II ratios decreased in line with the severity of activity, chronic inflammation, and the presence of H. pylori (p < .01). In contrast, sPGI levels and PG I/II ratios decreased in proportion with the severity of atrophic gastritis (AG)/intestinal metaplasia (p < .01). Gastrin levels were found to be correlated with chronic inflammation negatively in the antrum but positively in the corpus. H. pylori eradication reduced sPGI, sPGII, and gastrin levels, and increased PG I/II ratios to the levels of H. pylori‐negative patients, and was found to be correlated with reductions in activity and chronic inflammation of gastritis. The sensitivity and specificity of a PG I/II ratio of ≤ 3.0 for the detection of dysplasia or cancer were 55.8–62.3% and 61%, respectively. In addition, sPGI and sPGII levels of intestinal‐type cancer were significantly lower than those of the diffuse type, respectively (p = .008 and p = .05, respectively). Gastric cancer risk was highest in the H. pylori‐positive, low PGI/II ratio (≤ 3.0) group with an odds ratio of 5.52 (confidence interval: 2.83–10.77). Conclusion: PG I/II ratio (≤ 3.0) was found to be a reliable marker for the detection of dysplasia or gastric cancer, especially of the intestinal type. This detection power of PG I/II ratio (≤ 3.0) significantly increased in the presence of H. pylori, and thus, provides a means of selecting those at high risk of developing gastric cancer in Korea.     

Non-invasive genotyping of Helicobacter pylori cagA, vacA, and hopQ from asymptomatic children

Background: Helicobacter pylori infection is usually acquired in childhood, but little is known about its natural history in asymptomatic children, primarily due to the paucity of non‐invasive diagnostic methods. H. pylori strains harboring cagA and specific alleles of hopQ and vacA are associated with increased risk for gastric cancer. Many studies of H. pylori virulence markers in children have the bias that symptomatic subjects are selected for endoscopy, and these children may harbor the most virulent strains. Our aim is to genotype cagA, hopQ, and vacA alleles in stool DNA samples of healthy Colombian children residing in an area with high incidence of gastric cancer, to avoid selection bias resulting from endoscopy. Methods: H. pylori status of 86 asymptomatic children was assessed by ¹³C‐urea breath test (UBT) and PCR. H. pylori 16S rRNA, cagA, hopQ, and vacA genes were amplified from stool DNA samples and sequenced. Results: UBT was positive in 69 (80.2%) of 86 children; in stool DNA analysis, 78.3% were positive by 16S rRNA PCR. cagA, vacA, and hopQ were detected in 66.1%, 84.6%, and 72.3% of stool DNA samples from 16S rRNA‐positive children. Of the children’s DNA samples, which revealed vacA and hopQ alleles, 91.7% showed vacA s1 and 73.7% showed type I hopQ. Type I hopQ alleles were associated with cagA positivity and vacA s1 genotypes (p < 0.0001). Conclusions: Using stool DNA samples, virulence markers of H. pylori were successfully genotyped in a high percentage of the asymptomatic infected children, revealing a high prevalence of genotypes associated with virulence. Type I hopQ alleles were associated with the presence of cagA and the vacA s1 genotype.     

Helicobacter pylori modulation of gastric and duodenal mucosal T cell cytokine secretions in children compared with adults

Background. In contrast to adults, ulcers are un‐common in Helicobacter pylori‐infected children. Since immunological determinants influence the outcome of H. pylori infection, we have investigated mucosal T cell responses in H. pylori‐infected children and compared them with those of adults and negative controls. Material and Methods. Mucosal biopsies were obtained from 43 patients undergoing an upper GI endoscopy for dyspeptic symptoms. The concentrations of released cytokines and the density of CD3⁺, CD25⁺ and CD69⁺cells were evaluated by flow cytometry, and the numbers of cytokine‐secreting cells were measured by ELISPOT. Results. The numbers of isolated antral CD3⁺ lymphocytes were only significantly raised in infected adults compared with noninfected controls (p < 0.05), whereas the proportion of CD3⁺ cells expressing activation markers (CD25 or CD69) remained low. In the stomach, IFN‐γ concentrations increased in infected children and infected adults compared with controls (p < 0.05), but IFN‐γ concentrations were tenfold lower in children than in adults (p < 0.01). IL‐2, IL‐4, IL‐10 and TNF‐α concentrations were similar in infected and in uninfected children and adults. In contrast, in the duodenum, IFN‐γ, as well as IL‐4 and IL‐10 concentrations were only increased in infected children compared with controls (p < 0.05). The concentrations of these cytokines were similar in both groups of adults who, however, like children, displayed a higher number of duodenal IL‐4‐secreting cells compared to controls (p < 0.05). Conclusion. These results suggest that IFN‐γ secretion in the stomach of H. pylori‐infected patients is lower in children than in adults. This could protect children from development of severe gastro‐duodenal diseases such as ulcer disease. In addition, infected patients are characterised by a dysregulation of the mucosal cytokine secretion at distance from the infection site.