cagA positive and negative Helicobacter pylori strains are simultaneously present in the stomach of most patients with non-ulcer dyspepsia: relevance to histological damage

BACKGROUND/AIMS: Infection with Helicobacter pylori strains harbouring the cagA gene (cagA+) is associated with an increased risk of developing peptic ulcer and gastric cancer. The aim of this study was to assess whether H pylori isolates with different cagA status were present in patients with non-ulcer dyspepsia, and whether a variable cagA status is relevant to histological gastric mucosal damage and glandular cell proliferation. METHODS: Well separated H pylori colonies (between 2 and 25) from primary plates, per gastric area, for each of 19 patients with non-ulcer dyspepsia were examined for cagA by hybridisation. Western blotting was used to examine both representative colonies for CagA expression and the patients' sera for antibody response to CagA. Glandular gastric cell proliferation was assessed immunohistochemically. RESULTS: Of the 747 colonies examined, 45.3% were cagA+. All colonies from four patients were cagA+, and all colonies from two patients were cagA-. In 13 patients (68%) both cagA+ and cagA- colonies were found. CagA expression of isolates corresponded to their cagA status. H pylori strains with different CagA molecular masses were present in three patients. Results based on all 19 patients studied showed that the prevalence of cagA+ colonies in areas with mucosal atrophy associated or not with intestinal metaplasia (67.9%) was significantly higher than in normal mucosa (44.7%) and mucosa from patients with chronic gastritis (44.0%) (p < 0.001). High levels of cell proliferation were associated with histological atrophy with or without intestinal metaplasia, but not with the possession of cagA by organisms colonising the same mucosal sites. CONCLUSIONS: Most patients with nonulcer dyspepsia are infected by both cagA+ and cagA- H pylori colonies. The cagA status of infecting organisms may play a role in the development of atrophy and intestinal metaplasia.     

Diversity of Helicobacter pylori vacA and cagA genes and relationship to VacA and CagA protein expression, cytotoxin production, and associated diseases

The vacuolating cytotoxin and the cytotoxin-associated protein, encoded by vacA and cagA, respectively, are important virulence determinants of Helicobacter pylori. Sixty-five H. pylori strains were isolated from dyspeptic patients (19 with peptic ulcer disease, 43 with chronic gastritis, and 3 with gastric cancer) and studied for differences in the vacA and cagA genes and their relationship to VacA and CagA expression, cytotoxin activity, and the clinical outcome of infection. By PCR, fifty-four (83.1%) of 65 strains had the vacA signal sequence genotype s1 and only 10 (15.4%) had the type s2. After primer modification, the vacA middle-region types m1 and m2 were detected in 24 (36.9%) and 41 (63.1%) strains, respectively. The combinations s1-m2 (31 [47.7%]) and s1-m1 (23 [35.4%]) occurred more frequently than s2-m2 (10 [15.4%]) (P = 0.01). No strain with the combination s2-m1 was found. All 19 patients with peptic ulcers harbored type s1 strains, in contrast to 32 (74.4%) of 43 patients with gastritis (P = 0.02). The vacA genotype s1 was associated with the presence of cagA (P < 0.0001), VacA expression (P < 0.0001), and cytotoxin activity (P = 0.003). The cagA gene was detectable in 48 (73.8%) of 65 isolates and present in 16 (84.2%) of 19 ulcer patients and 29 (67.4%) of 43 patients with gastritis (P = 0.17). The vacA genotypes of German H. pylori isolates are identical to those previously reported. H. pylori strains of vacA type s1 are associated with the occurrence of peptic ulceration and the presence of cagA, cytotoxin activity, and VacA expression.     

Analysis and typing of the vacA gene from cagA-positive strains of Helicobacter pylori isolated in Japan

Approximately 50% of Helicobacter pylori strains produce a cytotoxin that is encoded by vacA and that induces vacuolation of eukaryotic cells. Mosaicism in vacA alleles was reported, and there are three different families of vacA signal sequences (s1a, s1b, and s2) and two different families of middle-region alleles (m1 and m2). In addition, the vacA genotype of a strain is associated with its cytotoxin phenotype and its capacity to induce peptic ulceration. To clarify the strain diversity of H. pylori in Japan, 87 Japanese clinical isolates of H. pylori (40 from patients with chronic atrophic gastritis, 25 from patients with duodenal ulcer, 16 from patients with gastric ulcer, 3 from patients with both duodenal and gastric ulcers, and 3 from patients with intestinal type gastric cancer) were characterized by vacA typing by PCR and DNA sequencing. Eighty-four of the 87 isolates were s1a/m1, one was s1b/m1, and two could not be typed. Moreover, all isolates in this study were cagA positive. There were no distinct differences between the cytotoxin-producing strains and cytotoxin-nonproducing strains within the 0.73-kb middle region. Japanese strains were highly homologous, with more than 96% identity in this region, in which maximum divergence has been reported. In addition, there were no associations between the specific vacA types and the level of in vitro cytotoxin activity or the clinical consequences. These results indicate that the cagA-positive, s1a/m1-type strains are common in Japan, regardless of the vacA phenotype or clinical outcome.     

Detection and typing of the virulence determinants cagA and vacA of Helicobacter pylori directly from biopsy DNA: are in vitro strains representative of in vivo strains?

BACKGROUND: The relationship of Helicobacter pylori genotypes to gastrointestinal disease has relied on cultured isolates. This assumes that cultured strains are representative of in vivo strains. OBJECTIVE: To detect and type the cagA status and the vacA genotypes directly from biopsy DNA without the need for culture, and to further define the relationship between H. pylori genotypes and gastroduodenal pathology. METHODS: Fifty-two Caucasian patients undergoing routine endoscopy for dyspepsia had additional biopsies taken from four gastric sites and one duodenal site for biopsy DNA preparation. An antral sample was taken for biopsy culture. All recruited patients were H. pylori-positive on rapid urease test for Campylobacter-like organisms (CLO test) and/or histology. By polymerase chain reaction (PCR), the cagA status and the vacA s and m types were detected directly from biopsy DNA. RESULTS: H. pylori isolates were cultured from 28/52 patients in whom infection was detected by PCR. Two isolate types differed from biopsy types. Fifty of the 52 patients, strains were typable from all four gastric sites and in 51/52 the same strain predominated throughout. The cancer strains were all cagA-positive/vacA s1 type. There was a correlation between cagA positivity and vacA s1 (41/43). There was no difference between the cagA-positive/vacA s1 strains and the presence or absence of ulcers. There were only 5/52 vacA s2 m2 and four were in the non-ulcer dyspeptic group. CONCLUSION: cagA status and the vacA genotyping was successful with tissue samples taken directly from gastric and duodenal biopsies. Discrepancies between isolate and biopsy strain types stress the need for caution when interpreting in vitro strain types and suggest that direct PCR of biopsies is the preferred typing technique. The cagA status and the s1 vacA allele are unreliable as single markers in determining the risk of developing peptic ulcer disease.     

Helicobacter pylori CagA antigen antibodies

BACKGROUND: CagA antigen of Helicobacter pylori is highly immunogenic in humans. There is an increasing evidence that infection with CagA-positive strains is related to the development of peptic ulcer disease, atrophic gastritis, or gastric cancer. The aim of our study was to assess seropositivity to CagA in a group of 95 clinically symptomatic adults who underwent gastroduodenoscopy and to correlate results to their disease characteristics. METHODS AND RESULTS: Serum immunoglobulin G antibodies to CagA detected by ELISA kit (Helicobacter p120, Viva Diagnostika, Germany) were compared to standard IgG specific antibodies against a pool of H. pylori antigens Synelisa Pin plate, ELIAS, Germany). Immunoglobulin G antibodies to CagA were present in 5/31 (16%) serum samples from H. pylori negative persons and 10/28 (36%) serum samples from H. pylori positive patients without peptic ulcer disease compared with 8/11 (73%) H. pylori positive patients with peptic ulcer disease in the past, 11/13 (85%) H. pylori positive patients with duodenal ulcers or duodenitis and 4/5 (80%) H. pylori positive (1/7, 14% H. pylori negative) serum samples from patients with gastric resection for peptic ulcers in the past. Serum levels of antibodies to CagA in the groups of patients with peptic ulcer disease in the past, with present duodenal ulcers of duodenitis and in H. pylori infected patients with gastric resection were significantly higher then those of H. pylori infected patients without peptic ulcer disease (P < 0.05). On the other hand, there was no significant difference in the presence of the specific antibodies against at pool of H. pylori antigens between these four groups. CONCLUSIONS: These data suggest that serologic response to the CagA antigen is more prevalent in H. pylori positive persons with present or past peptic ulceration than among infected persons without peptic ulcer disease. The presence of antibodies to CagA in H. pylori positive persons may be useful for the identification of patients with higher risk or more severe disease.     

Cytotoxin genes of Helicobacter pylori in chronic gastritis, gastroduodenal ulcer and gastric cancer: an age and gender matched case-control study

Helicobacter pylori (H. pylori) infection is involved in many gastrointestinal diseases, such as chronic gastritis (CAG), peptic ulcer and gastric cancer (GCA). Both host factors and H. pylori strain differences may contribute to differences in the diseases. Thus, we conducted an age and gender matched case-control study of 35 patients each with CAG, gastric ulcer (GUL), duodenal ulcer (DUL) and gastric cancer (GCA) to examine the role of strain differences of the H. pylori cytotoxin genes cagA and vacA in these diseases. We employed polymerase chain reaction to examine the gastric juice for H. pylori DNA. The test was positive for 26 (74.3%) CAG, 29 (82.9%) GUL, 28 (80.0%) DUL and 27 (77.1%) GCA patients, showing no statistically significant difference among the diseases (P = 0.84). cagA and vacA genes (picked up by using a vacA1 + vacA2 primer pair which detected non-variable regions of the vacA gene) were detected by PCR in the H. pylori DNA-positive cases as follows: CAG, 92.3% and 76.9%; GUL, 100% and 86.2%; DUL, 89.3% and 89.3%; GCA, 92.6% and 85.2%, respectively. No statistically significant differences were found in the frequencies of these cytotoxin genes in H. pylori-positive cases among the various gastric diseases (P = 0.39 for cagA and P = 0.64 for vacA).     

Structure and dynamics of ribosomal RNA

The possession of the cytotoxin-associated gene (cagA) of Helicobacter pylori is thought to be highly associated with peptic ulcer disease. However, the pathogenic role of cagA is still unknown. We have emphasized the importance of the interrelationship between H. pylori-derived ammonia and oxygen radicals from infiltrated leucocytes. The aim of the present study was to explore the relationship between oxygen radical production and H. pylori strain diversity based on cagA possession. An endoscopic examination and gastric mucosal biopsy were performed in 30 H. pylori-infected patients with gastric ulcer. Myeloperoxidase (MPO) content and the luminol-dependent chemiluminescence value in the biopsied gastric specimens were measured as an index for leucocyte infiltration and oxygen radical production. From the precipitates of cultured bacterial isolates of biopsied specimens, bacterial DNA was purified and analysed by polymerase chain reaction to characterize the possession of cagA. While all patients had ureC-positive strains, 22 had cagA-positive and eight had cagA-negative strains. In patients with cagA-positive strains, MPO contents as well as chemiluminescence values in the gastric corpus were significantly higher than those in patients with cagA-negative strains. Gastric mucosal leucocyte recruitment and activation are suggested to be enhanced by cagA gene-positive H. pylori infection.     

Identification of cDNAS encoding plastid-targeted glutathione peroxidase

OBJECTIVE: Helicobacter pylori (H. pylori) is a major factor in determining the risk for development of gastric adenocarcinoma through the intermediate steps of atrophic gastritis and intestinal metaplasia. Because H. pylori infection is highly prevalent in asymptomatic populations and only a few people develop cancer, additional factors may influence the risk for development of cancer, once infection is established. Some factors may pertain to differences among bacterial strains. Because infection by H. pylori strains possessing cagA (cytotoxin-associated gene A), a gene encoding a high-molecular-weight immunodominant antigen (CagA), is associated with enhanced induction of gastritis, the aim of our study was to evaluate potential differences in the prevalence and intensity of atrophy and intestinal metaplasia between CagA-positive and CagA-negative H. pylori-infected patients. METHODS: Eighty H. pylori-infected patients among 120 consecutive dyspeptic patients referred for upper gastrointestinal endoscopy were studied. Six bioptic specimens were taken from the gastric antrum: five for histological examination, and one for urease test. The H. pylori status was determined by histology, CLO test, and serology (in a standardized ELISA) for serum IgG and IgA directed to H. pylori. The CagA status was determined by Western blotting to detect serum IgG antibodies to CagA. Gastritis was classified according to the Sydney System. A score from 0 to 3 was assigned to each of the following morphological variables: atrophy, intestinal metaplasia, and mononuclear and neutrophilic cell infiltration. The association between CagA status and histological features was assessed by means of the chi2 test for trend. RESULTS: Among the 80 H. pylori-infected patients 53 (66%) were CagA seropositive and 27 (34%) were CagA seronegative. The mean age of the two groups was similar. CagA-positive patients had significantly higher scores for atrophy (p = 0.006), intestinal metaplasia (p = 0.01), and mononuclear (p < 0.001) and polymorphonuclear (p = 0.002) cell infiltration than did CagA-negative patients. No differences in contrast, were found for H. pylori density. CONCLUSION: Infection with CagA-positive H. pylori strains is associated with an increased prevalence and intensity of antral atrophy and intestinal metaplasia, in addition to higher degrees of gastritis. Our results seem to suggest that the CagA status could be a helpful parameter to define a subgroup of H. pylori-infected patients at increased risk of developing gastric adenocarcinoma.     

Virulence-associated genes as markers of strain diversity in Helicobacter pylori infection

To establish a marker of strain diversity of Helicobacter pylori, a genetic examination was performed based on the detection rates by PCR of cagA and vacA, which are known to be virulence-associated genes. The test strains were obtained from 70 patients suffering from gastric ulcer (GU), 82 patients with duodenal ulcer (DU) and 48 patients with gastritis (GS). Fragments located in the three different regions of vacA were amplified; V1 being the upstream portion, V2 the mid-portion and V3 the downstream portion. For cagA, the detection rates were 70% for GU, 79% for DU and 50% for GS, showing a significantly higher rate for DU than for GS (P = 0.0005). With V1, the detection rates were 90% for GU, 90% for DU and 69% for GS, giving a significantly higher rate for GU than for GS (P = 0.0036) and also giving a significantly higher rate for DU than for GS (P = 0.0019). With V2, the detection rates were 60% for GU, 70% for DU and 44% for GS, giving a significantly higher rate for DU than for GS (P = 0.0024). The differences in vacA gene polymorphism were closely related to the evidence of gastroduodenal ulcers in H. pylori infection. Furthermore, the detection rates of cagA and polymorphisms of vacA by PCR could be used as markers of strain diversity in H. pylori-induced gastroduodenal ulcer.     

Search for putative virulence factors of Helicobacter pylori: the low-molecular-weight (33-35 K) antigen

Early studies suggested that two Helicobacter pylori proteins, CagA and VacA, were virulence factors. Support for that hypothesis has been undermined by geographic differences in prevalence of these antigens. To identify other possible putative virulence factors by establishing a relationship between antigens and different H. pylori diseases, two commercial available immunoblot assay kits, HelicoBlot 2.0 (Genelabs Diagnostics, Singapore) and RIDA Blot Helicobacter (R-Biopharm GmbH, Darmstadt, Germany), were used to investigate the prevalence of various specific antigen seropositivity in 80 H. pylori-infected Japanese (20 each with gastritis, duodenal ulcer, gastric ulcer, or gastric cancer). The production of interleukin-8 (IL-8) in biopsy specimens was also measured by enzyme-linked immunosorbent assay (ELISA). Both assays had 100% sensitivity; specificity was 90% for HB2.0 and 80% for RIDA-BH. With the exception of the 33-35 K antigen, there was no relationship between antigens, endoscopic diagnoses, histological findings, or mucosal IL-8 levels. The 33-35 K antigen was present in 97.5% (39 of 40) patients with gastric or duodenal ulcer compared to 70% (14 of 20) those with chronic gastritis (P < 0.006). The mean IL-8 levels in the corpus was significantly higher in those with antibody to the 33-35 K antigen compared to those without (105.4+/-22 pg/mg vs 10.2+/-8.8 pg/mg) (P=0.015). There was no relationship between other antigens including CagA and production of IL-8. In conclusion, the low-molecular-weight 33-35 K antigen may play an important role in the pathogenesis of H. pylori-related disease.     

Bleb-related ocular infection

BACKGROUND: Mosaicism of the Helicobacter pylori vac A gene comprises two families of allelic variations of the signal sequence region (s1, s2) and of the mid-region (m1, m2). Initial studies suggested that peptic ulcer disease correlated with the s1 subtype of vac A. We compared the prevalence of various vac A genotypes of H. pylori isolates obtained from duodenal ulcer (DU) patients and subjects with simple gastritis. Those isolates with s1 type were further examined to determine whether the specific vac A s1 (s1a versus s1b) genotype enabled prediction of gastroduodenal disease. METHODS: H. pylori isolates were obtained from 38 patients with endoscopically documented DU and 39 individuals with asymptomatic H. pylori gastritis from Houston, Texas. The vac A genotype of each isolate was determined by polymerase chain reaction (PCR) amplification of genomic DNA for specific regions of the vac A gene. Those isolates with s1 vac A subtype were further examined to determine whether they had s1a or s1b mosaicism. RESULTS: There was no difference in frequency of the s1 genotype of isolates obtained from patients with duodenal ulcer or asymptomatic H. pylori gastritis in this sample (84% versus 79%, respectively; P = 0.77). The s1/m1 vac A genotype was detected in isolates from 16 duodenal ulcer patients versus 15 with H. pylori gastritis (P = 0.82). Detailed analysis of the s1 region failed to show a correlation of either s1a or s1b with duodenal ulcer. Both s1a and s1b genotypes were detected in 24 strains, and both m1 and m2 mid-gene PCR amplicons were seen in 16 strains. CONCLUSIONS: We were unable to use H. pylori vac A genotyping to predict type of gastroduodenal disease in our patient sample. This failure to confirm an association of vac A genotype and duodenal ulcer disease differs from samples from other regions. This most likely represents an example of differences in H. pylori strains infecting host populations in different geographic regions. This study confirms the importance of establishing statistical associations with isolates from widely separate geographic regions before concluding that disease-related associations exist.     

REP-PCR fragments as biomarkers for differentiating gastroduodenal disease-specific Helicobacter pylori strains

We previously identified four potential putative gastroduodenal disease fragments by using the interspersed repetitive extragenic palindromic DNA sequence based PCR (REP-PCR) technique. We investigated these fragments with regard to their disease specificity. The putative disease-specific REP-PCR fragments were cloned, mapped by restriction enzymes, cross-hybridized, and confirmed by Southern hybridization. The four fragments were also used as probes against REP-PCR amplicons from H. pylori isolates obtained from gastritis (N = 20), duodenal ulcer (N = 30), and gastric cancer patients (N = 30). Three of these fragments (1.4- and 0.76-kb for gastritis; 1.35 kb for duodenal ulcer) were amplified without any discrimination between any disease-specific H. pylori isolates. However, amplification following hybridization with the fourth 0.81-kb fragment was observed only from gastritis (60%) and duodenal ulcer (52%) but with none (0%) of gastric cancer patients. Nucleotide sequence analysis of the 0.81-kb fragment revealed that it was an open reading frame of the hypothetical protein HP0373 matched to the position of 380,966 to 383,068 nucleotides of the H. pylori complete genome sequence. Hence, the REP-PCR sequence was not a extragenic palindromic DNA sequence. The hypothetical protein was also present in all the tested isolates. The REP-PCR fingerprinting technique is useful to differentiate disease-specific H. pylori strains based on the interspersed repetitive extragenic palindromic DNA sequences; however, it may not be useful to identify disease-specific virulence determinant(s) without being confirmed by DNA sequence analysis and functional studies.     

Helicobacter pylori cagA status and s and m alleles of vacA in isolates from individuals with a variety of H. pylori-associated gastric diseases

The cagA gene was detected in 100% of 16 Helicobacter pylori isolates from patients with gastric carcinoma versus 78% of 18 isolates from patients with duodenal ulcers (P = 0.344) and only 64% of 22 isolates from patients with gastritis only (P = 0.005) in Brazil. Also, there was a significant association between isolation of cagA+ s1-type vacA H. pylori in cases of stomach cancer and ulcers as opposed to cases of gastritis only (P = 0.004), but this was not true in Houston (P = 0.238), where 94% of all isolates were cagA+.     

Helicobacter pylori and gastroesophageal reflux disease: the bug may not be all bad

Peptic ulcer disease and gastric cancer of the antrum and body have been declining in the 20th century. In contrast, a new group of diseases are increasingly rapidly in Western countries: gastroesophageal reflux disease, Barrett's esophagus, and adenocarcinoma of the distal esophagus. Recent studies suggest this phenomenon may be related to the simultaneous fall in the prevalence of Helicobacter pylori (H. pylori) colonization, especially by the virulent cagA + strains. H. pylori infection with the cagA+ strain is potentially protective against the spectrum of gastroesophageal reflux disease because it lowers intragastric acidity as the result of a pangastritis, frequently with multifocal gastric atrophy and possibly increased intragastric ammonia production. Assuming that some types of H. pylori strains are protective, our entire approach to the worldwide elimination of this organism, sometimes indiscriminately, will need critical reevaluation.     

Serum antibodies against Helicobacter pylori proteins VacA and CagA are associated with increased risk for gastric adenocarcinoma

Infection with Helicobacter pylori is associated with the development of gastric cancer. To study whether the infection with H. pylori strains expressing the vacuolating cytotoxin (VacA) and/or the cytotoxin-associated protein (CagA) is associated with an increased risk of developing gastric adenocarcinoma, sera of 90 patients with gastric cancer and 90 matched controls with cardiovascular diseases were investigated for the presence of antibodies to VacA and CagA by immunoblot. Although no significant difference in the overall H. pylori seropositivity was found between cancer patients and controls, antibodies against VacA or CagA were significantly more frequent in cancer patients than in control subjects. Seventy-five (97.4%) of 77 H. pylori-positive patients in the cancer group, but only 60 (84.5%) of 71 H pylori-positive control patients had antibodies against either VacA or CagA (chi 2 = 6.63; relative risk, 2.00; 95% confidence interval, 1.18-3.39; P = 0.01). The presence of antibodies against VacA or CagA alone was also associated with an increased cancer risk (92.2% vs 80.3%; chi 2 = 5.30; relative risk, 1.74; 95% confidence interval, 1.08-2.78; P = 0.021, for VacA; and 87.0% vs 74.6%; chi 2 = 4.90; relative risk, 1.61; 95% confidence interval, 1.06-2.45; P = 0.037, for CagA). The relative risk for gastric cancer was mainly elevated in patients under 65 years, but not in patients at or over 65 years. There is evidence that infection with VacA- or CagA-producing H. pylori strains increases the risk of developing gastric cancer, especially in younger patients.     

In vitro cytotoxic effects of vacuolating cytotoxin produced by clinical isolates of Helicobacter pylori

The vacuolating cytotoxin produced by Helicobacter pylori is considered to be one virulence factor causing peptic ulceration. In this study, we examined the activity of vacuolating cytotoxin in induction of intracellular vacuolation of rabbit gastric epithelial cells (RGECs). We used culture supernatants of H. pylori as a source of vacuolating cytotoxin and quantitated cytotoxic activity by the MTT method. Intracellular vacuolation of RGECs was observed in the presence of 36 of 57 (63%) clinically isolated H. pylori strains. However, there were no differences in the incidence of H. pylori strains with positive vacuolating cytotoxin (Tox+) among patients with gastritis, gastric ulcers or duodenal ulcers. The MTT assay showed that the cytotoxic activity of H. pylori supernatants obtained from patients with gastric ulcers was significantly higher than in patients with gastritis (p < 0.01), but was not different to duodenal ulcer patient supernatants. Similar results were also observed in Tox+ isolates, however, there were no significant differences between patients with regard to the incidence of vacuolating cytotoxin-negative isolates. Although our data may not indicate a clear correlation between prevalence of vacuolating cytotoxin and clinical manifestations, they suggest that H. pylori harboring vacuolating cytotoxin may particularly induce damage to the gastric epithelium in patients with gastric ulcers.