Host cell responses to genotypically similar Helicobacter pylori isolates from United States and Japan.

Associations of Helicobacter pylori genotypes with disease differ between Western countries and Asia. Therefore, we directly compared histopathological and in vitro responses to clinical isolates with similar genotypes. Sixty-three cagA(+) vacAs1/m1 H. pylori isolates (United States, n = 24; Japan, n = 39) and eight cagA-negative vacAs2/m2 strains were incubated with AGS cells, and supernatants were assayed for interleukin-8 (IL-8) and for DNA fragmentation. CagA tyrosine phosphorylation in AGS cells and the sequence of the putative HP0638 (oipA) signal sequence region were determined for 22 representative strains. HP0638 and/or cag island mutant strains were created and examined in IL-8 and CagA tyrosine phosphorylation assays. Levels of IL-8 induction and DNA fragmentation were similar in the U.S. and Japanese cagA(+) vacAs1/m1 isolates. All 10 of the isolates with the highest IL-8 induction and 8 of the 10 isolates with the lowest IL-8 induction had an in-frame oipA open reading frame, and all 10 of the isolates with the highest IL-8 induction and 7 of the 10 isolates with the lowest IL-8 induction induced CagA tyrosine phosphorylation in AGS cells. Eight isolates from gastric ulcer patients induced significantly more apoptosis in vitro, and more severe gastritis and atrophy in vivo, than other Japanese isolates. Disruption of HP0638 did not affect IL-8 induction or CagA tyrosine phosphorylation. Thus, H. pylori cagA(+) vacAs1/m1 isolates from the United States and Japan induce similar IL-8 and apoptosis levels. Inactivation of HP0638 does not alter epithelial responses mediated by the cag island in vitro. Assessment of apoptosis in vitro identified a group of H. pylori isolates that induce more severe gastric inflammation and atrophy.     

The cag PAI is intact and functional but HP0521 varies significantly in Helicobacter pylori isolates from Malaysia and Singapore

Helicobacter pylori-related disease is at least partially attributable to the genotype of the infecting strain, particularly the presence of specific virulence factors. We investigated the prevalence of a novel combination of H. pylori virulence factors, including the cag pathogenicity island (PAI), and their association with severe disease in isolates from the three major ethnicities in Malaysia and Singapore, and evaluated whether the cag PAI was intact and functional in vitro. Polymerase chain reaction (PCR) was used to detect dupA, cagA, cagE, cagT, cagL and babA, and to type vacA, the EPIYA motifs, HP0521 alleles and oipA ON status in 159 H. pylori clinical isolates. Twenty-two strains were investigated for IL-8 induction and CagA translocation in vitro. The prevalence of cagA, cagE, cagL, cagT, babA, oipA ON and vacA s1 and i1 was >85%, irrespective of the disease state or ethnicity. The prevalence of dupA and the predominant HP0521 allele and EPIYA motif varied significantly with ethnicity (p < 0.05). A high prevalence of an intact cag PAI was found in all ethnic groups; however, no association was observed between any virulence factor and disease state. The novel association between the HP0521 alleles, EPIYA motifs and host ethnicity indicates that further studies to determine the function of this gene are important.     

Comparing genomes of Helicobacter pylori strains from the high-altitude desert of Ladakh, India

The genomic diversity of Helicobacter pylori from the vast Indian subcontinent is largely unknown. We compared the genomes of 10 H. pylori strains from Ladakh, North India. Molecular analysis was carried out to identify rearrangements within and outside the cag pathogenicity island (cag PAI) and DNA sequence divergence in candidate genes. Analyses of virulence genes (such as the cag PAI as a whole, cagA, vacA, iceA, oipA, babB, and the plasticity cluster) revealed that H. pylori strains from Ladakh are genetically distinct and possibly less virulent than the isolates from East Asian countries, such as China and Japan. Phylogenetic analyses based on the cagA-glr motifs, enterobacterial repetitive intergenic consensus patterns, repetitive extragenic palindromic signatures, the glmM gene mutations, and several genomic markers representing fluorescent amplified fragment length polymorphisms revealed that Ladakhi strains share features of the Indo-European, as well as the East Asian, gene pools. However, the contribution of genetic features from the Indo-European gene pool was more prominent.     

Helicobacter pylori outer membrane vesicles modulate proliferation and interleukin-8 production by gastric epithelial cells

Helicobacter pylori infection, which is always associated with gastritis, can progress to ulceration or malignancy. The diversity in clinical outcomes is partly attributed to the expression of virulence factors and adhesins by H. pylori. However, H. pylori may not have to adhere to the epithelium to cause gastritis. We hypothesize that outer membrane vesicles (OMV), which are constantly shed from the surface of H. pylori, play a role as independent activators of host cell responses. In this study, we found that low doses of OMV from cag PAI⁺ toxigenic and cag PAI⁻ nontoxigenic strains increased proliferation of AGS gastric epithelial cells. At higher doses, we detected growth arrest, increased toxicity, and interleukin-8 (IL-8) production. The only strain differences detected were vacuolation with the toxigenic strain and higher levels of IL-8 production with OMV from the cag PAI⁻ nontoxigenic strain. In summary, we suggest that constitutively shed OMV play a role in promoting the low-grade gastritis associated with H. pylori infection.     

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.     

Study of the oipA genetic diversity and EPIYA motif patterns in cagA-positive Helicobacter pylori strains from Venezuelan patients with chronic gastritis

CagA and OipA are involved, among other virulence factors, in the ability of Helicobacter pylori to colonize the gastric mucosa and to modulate the host environment during the establishment of chronic infection. The number and type of EPIYA phosphorylation motifs and the presence and functional status of oipA have been involved in the induction of cellular transformations playing an important role in the development of H. pylori associated gastric diseases. This work determined the prevalence of the oipA virulence factor and EPIYA motif patterns in cagA-positive H. pylori gastric biopsies from chronic gastritis patients from the Central-Western region of Venezuela. DNA was extracted directly from gastric biopsies collected by upper endoscopy from 113 patients. The EPIYA motif genotyping and oipA gene functional status was determined by PCR and sequencing. Phylogenetic analysis with the 3′ variable region of cagA sequences was performed. Only Western-type EPIYA variants were detected: ABC (68.14%), ABCC (29.20%) and ABCCC (2.66%). High prevalence of strains with the oipA gene (93.8%) and its functional status “ON” (83%) was observed. No significant association between EPIYA motif patterns or oipA functional status with the histological changes in the gastric mucosa was found. Our study demonstrated the absolute predominance of the Western-type cagA gene in a Venezuelan admixed population. This is the first report showing oipA status of H. pylori strains in Venezuela. Further studies with a larger number of samples and including other pathologies are necessary to continue evaluating the role of the H. pylori virulence factors in the prevalence of gastric diseases in our country.     

Clinical relevance of cagA and vacA gene polymorphisms in Helicobacter pylori isolates from Senegalese patients

The molecular epidemiology of Helicobacter pylori in Africa is poorly documented. From January 2007 to December 2008, we investigated 187 patients with gastric symptoms in one of the main tertiary hospitals in Dakar, Senegal. One hundred and seventeen patients were culture-positive for H. pylori. Polymorphisms in vacA and cagA status were investigated by PCR; the 3′-region of cagA was sequenced, and EPIYA motifs were identified. Bacterial heterogeneity within individuals was extensively assessed by using an approach based on vacA and cagA heterogeneity. Fourteen per cent of H. pylori-positive patients displayed evidence of mixed infection, which may affect disease outcome. Patients with multiple vacA alleles were excluded from subsequent analyses. Among the final study population of 105 patients, 29 had gastritis only, 61 had ulcerated lesions, and 15 had suspicion of neoplasia based on endoscopic findings. All cases of suspected neoplasia were histologically confirmed as gastric cancer (GC). The cagA gene was present in 73.3% of isolates. CagA proteins contained zero (3.7%), one (93.9%) or two (2.4%) EPIYA-C segments, and all were western CagA. Most of the isolates possessed presumed high-vacuolization isotypes (s1i1m1 (57.1%) or s1i1m2 (21.9%)). Despite the small number of cases, GC was associated with cagA (p 0.03), two EPIYA-C segments in the C-terminal region of CagA (p 0.03), and the s1 vacA allele (p 0.002). Multiple EPIYA-C segments were less frequent than reported in other countries, possibly contributing to the low incidence of GC in Senegal.     

Determination of Helicobacter pylori Virulence by Simple Gene Analysis of the cag Pathogenicity Island

Nucleic acid amplification was performed for five loci in the cag pathogenicity island (PAI) of Helicobacter pylori (comprising cagA, the cagA promoter region, cagE, cagT, and the left end of cagII [LEC]), and gastric inflammation in patients was evaluated. Of 204 H. pylori isolates from Japanese patients (53 with peptic ulcer, 55 with gastric cancer, and 96 with chronic gastritis), 197 (96.6%) were positive for all five loci. Two isolates (1%) were negative for all five loci, and five isolates (2.4%) were positive for only cagA and LEC. These latter seven isolates were all from patients with mild chronic gastritis. Neutrophil infiltration in gastric mucosa was significantly milder in patients infected with partially or totally deleted-PAI strains than in those with intact-PAI strains. The cagE gene was a more accurate marker of an intact cag PAI than the cagA gene, and cagE seemed to be more useful in discriminating between H. pylori strains causing different rates of disease progression.     

CagA and VacA Polymorphisms Do Not Correlate with Severity of Histopathological Lesions in Helicobacter pylori-Infected Greek Children

The presence of various numbers of EPIYA tyrosine phosphorylation motifs in the CagA protein of Helicobacter pylori has been suggested to contribute to pathogenesis in adults. In this prospective study, we characterized H. pylori isolates from symptomatic children, with reference to the diversity of functional EPIYA motifs in the CagA protein and vacA isotypes, and assessed the potential correlation with the histopathological manifestations of the infection. We analyzed 105 H. pylori isolates from 98 children and determined the diversity of EPIYA motifs in CagA by amplification and sequencing of the 3′ variable region of the cagA gene as well as vacA isotypes for the signal, middle, and intermediate regions. CagA phosphorylation and levels of secreted IL-8 were determined following in vitro infection of AGS gastric epithelial cells. Histopathological evaluation of H. pylori colonization, activity, and severity of the associated gastritis was performed according to the updated Sydney criteria. EPIYA A (GLKN[ST]EPIYAKVNKKK), EPIYA B (Q[V/A]ASPEPIY[A/T]QVAKKVNAKI), and EPIYA C (RS[V/A]SPEPIYATIDDLG) motifs were detected in the ABC (46.6%) and ABCC (17.1%) combinations. No isolates harboring more than two EPIYA C motifs in CagA were found. The presence of isogenic strains with variable numbers of CagA EPIYA C motifs within the same patient was detected in seven cases. Occurrence of increasing numbers of EPIYA C motifs correlated strongly with presence of a high-vacuolation (s1 or s2/i1/m1) phenotype and age. A weak positive correlation was observed between vacuolating vacA genotypes and presence of nodular gastritis. However, CagA- and VacA-dependent pathogenicities were not found to contribute to severity of histopathology manifestations in H. pylori-infected children.Helicobacter pylori infects 50% of the world''s population, and wide differences in prevalence of infection appear to exist between countries with different levels of socioeconomic development. Infection usually occurs in childhood and in the majority of cases remains asymptomatic, although major reasons for endoscopy referral can include recurrent epigastric or abdominal pain, with or without vomiting, neither of which correlates with H. pylori infection (17). Antral nodularity is a well-described endoscopic feature of H. pylori-infected children, and histological observations usually include superficial chronic active gastritis with occasional infiltration of eosinophils; in far fewer cases, they include peptic ulcers; and very rarely, they include gastric atrophy and intestinal metaplasia (13, 27). If the infection is left untreated, it persists through adulthood, and although it can still remain asymptomatic in the vast majority of infected hosts, H. pylori infection is now regarded as the most important etiological risk factor for development of gastric cancer in developed countries (28). H. pylori pathogenesis is manifested through a combined effect of bacterial virulence factors, host genetics, and environmental factors, which orchestrate toward the development of distinct phenotypes in adults, namely, superficial asymptomatic gastritis, duodenal ulcer, and gastric cancer (3). The expression and translocation of cytotoxin-associated gene antigen (CagA), a putative H. pylori virulence factor, inside gastric epithelial cells by cagA-positive H. pylori strains harboring a functional type IV secretion system has been suggested to play an important role in H. pylori pathogenesis (22). Early epidemiological studies of adults associated the presence of the cagA gene with development of peptic ulcer disease (31); gastric cancer (14); and increased inflammation (35), cellular proliferation (36), and intestinal metaplasia (20) of the gastric mucosa. However, in infected children, neither cagA status nor any other putative H. pylori virulence factor has been found to correlate with clinical outcome or severity of histological manifestations. However, recent advances into the fascinating cellular biology of CagA inside the gastric epithelial cell have enhanced its reputation as a potential bacterial oncoprotein (22). Following its translocation inside the gastric epithelial cell via the type IV secretion system (32), CagA has been shown to become at least partly tyrosine phosphorylated (5, 11, 41) by Src family kinases (42, 44) on repeating 5-amino-acid glutamic-proline-isoleucine-tyrosine-alanine (EPIYA) motifs present at the C terminus of the protein. Analysis of EPIYA motifs in CagA has revealed considerable type variation, depending on the peptide sequence surrounding it, namely, EPIYA A (EPIYAKVNKKK), EPIYA B (EPIYAQVAKKV), or EPIYA C (EPIYATIDDLG) in isolates from Western populations or EPIYA D (EPIYATIDFD) in isolates of Asian origin. In addition, considerable variation in number of repeating EPIYA C or D motifs at the carboxyl terminus of the protein (10, 44) has been observed, and biological activity of CagA was suggested to be determined by variation in these motifs (25) in phosphorylation-dependent as well as -independent ways (23). Hence, the number and type of EPIYA phosphorylation motifs may be viewed as putative virulence determinants of CagA activity and therefore become useful clinical markers that may predict the degree of individual H. pylori strain virulence potential. In this context, we proposed a PCR amplification and sequencing-based strategy for accurate characterization of the number and type of EPIYA motifs of CagA in H. pylori clinical isolates (34).A multifactorial role has also been attributed to the secreted VacA virulence factor (16), a protein with multiple cellular activities, as it can disrupt endocytic trafficking of host cells, promote cell death through apoptosis, suppress the local immune system, and possibly potentiate the development of ulcers (6). Although the vacA gene is present in all H. pylori strains, it contains at least three variable parts, the s region, the i region, and the m region, which encode the signal, intermediate, and middle peptides, respectively, which have all been classified as allelic types 1 and 2. The s1-or-s2/i1/m1-or-m2 and s1-or-s2/i1-i2/m1-or-m2 VacA isotypes induce, in general, high and moderate levels of vacuolation, respectively, whereas the s1-or-s2/i2/m1-or-m2 strains induce very little or no vacuolation (39). Consequently, the vacA s/m genotype can also be regarded as a marker of pathogenicity of individual strains (8). Moreover, phylogenetic linkage analysis studies have indicated that there may be a functional basis for the selection of vacA and cagA isotypes (50), although there is substantial distance between vacA loci and cag genes on the bacterial genome. Furthermore, the intermediate region has been associated with development of gastric cancer (39).In the present study, we investigated the potential association of the CagA and VacA virulence factor polymorphisms with clinicopathological manifestations of the disease in symptomatic Greek children. More specifically, H. pylori clinical strains isolated from symptomatic children were characterized with regard to the number and type of repeating EPIYA phosphorylation motifs in CagA protein and the vacA signal, intermediate, and middle region genotypes. Furthermore, these clinical isolates were carefully assessed for their ability to express phosphorylated CagA as well as induce interleukin-8 (IL-8) secretion following infection of gastric epithelial cells. Finally, the potential association of such functional bacterial determinants with H. pylori-associated histopathology in these patients was assessed.     

Role of Interleukin-32 in Helicobacter pylori-Induced Gastric Inflammation

Helicobacter pylori infection is associated with gastritis and gastric cancer. An H. pylori virulence factor, the cag pathogenicity island (PAI), is related to host cell cytokine induction and gastric inflammation. Since elucidation of the mechanisms of inflammation is important for therapy, the associations between cytokines and inflammatory diseases have been investigated vigorously. Levels of interleukin-32 (IL-32), a recently described inflammatory cytokine, are increased in various inflammatory diseases, such as rheumatoid arthritis and Crohn''s disease, and in malignancies, including gastric cancer. In this report, we examined IL-32 expression in human gastric disease. We also investigated the function of IL-32 in activation of the inflammatory cytokines in gastritis. IL-32 expression paralleled human gastric tissue pathology, with low IL-32 expression in H. pylori-uninfected gastric mucosa and higher expression levels in gastritis and gastric cancer tissues. H. pylori infection increased IL-32 expression in human gastric epithelial cell lines. H. pylori-induced IL-32 expression was dependent on the bacterial cagPAI genes and on activation of nuclear factor κB (NF-κB). IL-32 expression induced by H. pylori was not detected in the supernatant of AGS cells but was found in the cytosol. Expression of the H. pylori-induced cytokines CXCL1, CXCL2, and IL-8 was decreased in IL-32-knockdown AGS cell lines compared to a control AGS cell line. We also found that NF-κB activation was decreased in H. pylori-infected IL-32-knockdown cells. These results suggest that IL-32 has important functions in the regulation of cytokine expression in H. pylori-infected gastric mucosa.     

Experimental Infection of Mongolian Gerbils with Wild-Type and Mutant Helicobacter pylori Strains

Experimental Helicobacter pylori infection was studied in Mongolian gerbils with fresh human isolates that carry or do not carry cagA (cagA-positive or cagA-negative, respectively), multiply passaged laboratory strains, wild-type strain G1.1, or isogenic ureA, cagA, or vacA mutants of G1.1. Animals were sacrificed 1 to 32 weeks after challenge, the stomach was removed from each animal for quantitative culture, urease test, and histologic testing, and blood was collected for antibody determinations. No colonization occurred after ≥20 in vitro passages of wild-type strain G1.1 or with the ureA mutant of G1.1. In contrast, infection occurred in animals challenged with wild-type G1.1 (99 of 101 animals) or the cagA (25 of 25) or vacA (25 of 29) mutant of G1.1. Infection with G1.1 persisted for at least 8 months. All 15 animals challenged with any of three fresh human cagA-positive isolates became infected, in contrast to only 6 (23%) of 26 animals challenged with one of four fresh human cagA-negative isolates (P < 0.001). Similar to infection in humans, H. pylori colonization of gerbils induced gastric inflammation and a systemic antibody response to H. pylori antigens. These data confirm the utility of gerbils as an animal model of H. pylori infection and indicate the importance of bacterial strain characteristics for successful infection.     

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⁺.     

Pediatric Helicobacter pylori Isolates Display Distinct Gene Coding Capacities and Virulence Gene Marker Profiles

Helicobacter pylori strains display remarkable genetic diversity, and the presence of strains bearing the toxigenic vacA s1 allele, a complete cag pathogenicity island (PAI), cagA alleles containing multiple EPIYA phosphorylation sites, and expressing the BabA adhesin correlates with development of gastroduodenal disease in adults. To better understand the genetic variability present among pediatric strains and its relationship to disease, we characterized H. pylori strains infecting 47 pediatric North American patients. Prevalence of mixed infection was assessed by random amplified polymorphic DNA analysis of multiple H. pylori clones from each patient. Microarray-based comparative genomic hybridization was used to examine the genomic content of the pediatric strains. The cagA and vacA alleles were further characterized by allele-specific PCR. A range of EPIYA motif configurations were observed for the cagA gene, which was present in strains from 22 patients (47%), but only 19 (41%) patients contained a complete cag PAI. Thirty patients (64%) were infected with a strain having the vacA s1 allele, and 28 patients (60%) had the babA gene. The presence of a functional cag PAI was correlated with ulcer disease (P = 0.0095). In spite of declining rates of H. pylori infection in North America, at least 11% of patients had mixed infection. Pediatric strains differ in their spectrum of strain-variable genes and percentage of absent genes in comparison to adult strains. Most children were infected with H. pylori strains lacking the cag PAI, but the presence of a complete cag PAI, in contrast to other virulence markers, was associated with more severe gastroduodenal disease.It is estimated that >50% of the world''s population is colonized with Helicobacter pylori in the stomach, making it one of the most common bacterial pathogens of humans. H. pylori infection is generally acquired in childhood (24, 33) and can persist for life. Gastritis (inflammation of the gastric mucosa) results in all who are colonized with H. pylori, but some hosts remain asymptomatic, while others develop peptic ulcers, gastric adenocarcinomas, and mucosa-associated lymphoid tissue lymphoma. Gastric cancer is the second leading cause of cancer death worldwide, and 63% of gastric cancer cases in 2002 were attributable to H. pylori infection (38, 49). While severe disease most often presents in adulthood, children display H. pylori-associated gastritis and the incidence of ulcer disease among infected children was 6.8% in a European pediatric population (31). Many studies have examined bacterial, host, and environmental risk factors associated with development of H. pylori-associated diseases in adults, but similar studies in children have been limited.Genetic differences among H. pylori strains contribute to differences in disease outcome among infected individuals in adult populations. The gene encoding VacA, which induces vacuolation of host cells, is present in nearly all H. pylori strains, but a number of allele types have been defined. Strains having the type s1 vacA signal sequence and the m1 vacA middle region allele (vacA s1/m1) are associated with ulcer disease (9). The cag pathogenicity island (PAI) encodes a type IV secretion system (T4SS) (1, 15) that translocates the CagA protein effector, also encoded in the island, into host cells. Presence of the cag PAI is associated with increased inflammation, promoting host cell interleukin-8 (IL-8) production, and cagA-positive strains are associated with peptic ulcers (50) as well as gastric cancer (13). Inside the host cell, CagA protein becomes tyrosine phosphorylated at C-terminal EPIYA (Glu-Pro-Ile-Tyr-Ala) sites by src family kinases, deregulates SHP-2, and induces the hummingbird phenotype (26, 45). Strains having more C-type EPIYA motifs, the major phosphorylation site, induce stronger effects on host cells and are associated with gastric cancer (7, 12, 35). The presence of a functional allele of babA, a gene encoding an adhesin that mediates binding to Lewis B antigens expressed on gastric epithelial cells, is associated with duodenal ulcer and gastric adenocarcinoma (21).While these H. pylori genes and alleles have been associated with disease outcome in adults, studies in children have provided mixed results. A recent study identified two genes (jhp0562, coding for a putative glycosyltransferase, and jhp0870, coding for an outer membrane protein) associated with peptic ulcer disease in children, but not adults, suggesting a different spectrum of genetic risk factors in adults and children (37). Studies using a whole-genome microarray-based approach have been done to investigate the variability in genomic content of H. pylori strains, but these studies have included mostly strains from adult patients (25, 29, 41, 42). Studies of the genetic variability of pediatric H. pylori strains have largely been limited to genes previously associated with virulence in adult populations. To better understand the genetic variability present among pediatric strains, we used whole-genome microarray-based comparative genomic hybridization to examine the genomic content of H. pylori strains isolated from symptomatic North American children and compared the pediatric isolate genetic variability to that observed in adult strains. We then examined the frequency of known virulence genes and virulence alleles among the pediatric H. pylori strains and the associations of strain genotype with the clinical and histological characteristics of the patients.     

Chemokines and Antimicrobial Peptides Have a cag-Dependent Early Response to Helicobacter pylori Infection in Primary Human Gastric Epithelial Cells

Helicobacter pylori infection systematically causes chronic gastric inflammation that can persist asymptomatically or evolve toward more severe gastroduodenal pathologies, such as ulcer, mucosa-associated lymphoid tissue (MALT) lymphoma, and gastric cancer. The cag pathogenicity island (cag PAI) of H. pylori allows translocation of the virulence protein CagA and fragments of peptidoglycan into host cells, thereby inducing production of chemokines, cytokines, and antimicrobial peptides. In order to characterize the inflammatory response to H. pylori, a new experimental protocol for isolating and culturing primary human gastric epithelial cells was established using pieces of stomach from patients who had undergone sleeve gastrectomy. Isolated cells expressed markers indicating that they were mucin-secreting epithelial cells. Challenge of primary epithelial cells with H. pylori B128 underscored early dose-dependent induction of expression of mRNAs of the inflammatory mediators CXCL1 to -3, CXCL5, CXCL8, CCL20, BD2, and tumor necrosis factor alpha (TNF-α). In AGS cells, significant expression of only CXCL5 and CXCL8 was observed following infection, suggesting that these cells were less reactive than primary epithelial cells. Infection of both cellular models with H. pylori B128ΔcagM, a cag PAI mutant, resulted in weak inflammatory-mediator mRNA induction. At 24 h after infection of primary epithelial cells with H. pylori, inflammatory-mediator production was largely due to cag PAI substrate-independent virulence factors. Thus, H. pylori cag PAI substrate appears to be involved in eliciting an epithelial response during the early phases of infection. Afterwards, other virulence factors of the bacterium take over in development of the inflammatory response. Using a relevant cellular model, this study provides new information on the modulation of inflammation during H. pylori infection.     

Variants of the 3′ Region of the cagA Gene in Helicobacter pylori Isolates from Patients with Different H. pylori-Associated Diseases

The CagA protein of Helicobacter pylori is an immunogenic antigen of variable size and unknown function that has been associated with increased virulence as well as two mutually exclusive diseases, duodenal ulcer and gastric carcinoma. The 3′ region of the cagA gene contains repeated sequences. To determine whether there are structural changes in the 3′ region of cagA that predict outcome of H. pylori infection, we examined 155 cagA gene-positive H. pylori isolates from Japanese patients including 50 patients with simple gastritis, 40 with gastric ulcer, 35 with duodenal ulcer, and 30 with gastric cancer. The 3′ region of the cagA gene was amplified by PCR followed by sequencing. CagA proteins were detected by immunoblotting using a polyclonal antibody against recombinant CagA. One hundred forty-five strains yielded PCR products of 642 to 651 bp; 10 strains had products of 756 to 813 bp. The sequence of the 3′ region of the cagA gene in Japan differs markedly from the primary sequence of cagA genes from Western isolates. Sequence analysis of the PCR products showed four types of primary gene structure (designated types A, B, C, and D) depending on the type and number of repeats. Six of the seven type C strains were found in patients with gastric cancer (P < 0.01 in comparison to noncancer patients). Comparison of type A and type C strains from patients with gastric cancer showed that type C was associated with higher levels of CagA antibody and more severe degrees of atrophy. Differences in cagA genotype may be useful for molecular epidemiology and may provide a marker for differences in virulence among cagA-positive H. pylori strains.     

Phylogeographic Origin of Helicobacter pylori Determines Host-Adaptive Responses upon Coculture with Gastric Epithelial Cells

While Helicobacter pylori infects over 50% of the world''s population, the mechanisms involved in the development of gastric disease are not fully understood. Bacterial, host, and environmental factors play a role in disease outcome. To investigate the role of bacterial factors in H. pylori pathogenesis, global gene expression of six H. pylori isolates was analyzed during coculture with gastric epithelial cells. Clustering analysis of six Colombian clinical isolates from a region with low gastric cancer risk and a region with high gastric cancer risk segregated strains based on their phylogeographic origin. One hundred forty-six genes had increased expression in European strains, while 350 genes had increased expression in African strains. Differential expression was observed in genes associated with motility, pathogenicity, and other adaptations to the host environment. European strains had greater expression of the virulence factors cagA, vacA, and babB and were associated with increased gastric histologic lesions in patients. In AGS cells, European strains promoted significantly higher interleukin-8 (IL-8) expression than did African strains. African strains significantly induced apoptosis, whereas only one European strain significantly induced apoptosis. Our data suggest that gene expression profiles of clinical isolates can discriminate strains by phylogeographic origin and that these profiles are associated with changes in expression of the proinflammatory and protumorigenic cytokine IL-8 and levels of apoptosis in host epithelial cells. These findings support the hypothesis that bacterial factors determined by the phylogeographic origin of H. pylori strains may promote increased gastric disease.     

Helicobacter pylori Virulence Factor Genotypes in Children in the United States: Clues about Genotype and Outcome Relationships

The most common Helicobacter pylori genotype among 37 U.S. children was cagA positive, vacA s1m1, and oipA “on” (n = 17, 45.9%), followed by cagA negative, vacA s2m2, and oipA “off” (n = 8, 21.6%), similar to the pattern in adults. cagA positivity was more common in blacks than in whites (i.e., 100% versus 56.5%, P = 0.032).Infection with Helicobacter pylori is etiologically associated with gastritis, peptic ulcer disease, gastric atrophy, and gastric cancer. H. pylori is thought to be typically acquired in childhood, with infection continuing for decades if not lifelong. This long bacterial host association involves countless generations of bacteria which are thought to continually evolve as the intragastric conditions change, such that those best suited for the local conditions outgrow and replace less suited neighbors. There has been considerable interest in the molecular epidemiology of H. pylori''s putative virulence factors, especially CagA, VacA, and OipA (outer inflammatory protein A) (8, 11, 12). However, there are few studies of children and only one previous study investigating the relationship between H. pylori virulence factors and ethnic groups of children in the United States (4-6, 11). This study reports the patterns of H. pylori virulence factor genotypes in children of different ethnic groups in the United States.The biopsy specimens and cultures were obtained as part of a multicenter study from 5 widely dispersed sites in the United States. The study was designed to validate the [¹³C]urea breath test for the diagnosis of H. pylori infection in children aged between 2 years and 17 years and 11 months (2). Symptomatic children scheduled for endoscopy were enrolled. Gastric biopsy specimens were evaluated by histology, rapid urease testing, and culture of H. pylori using established techniques (2). H. pylori culture isolates were evaluated for cagA and vacA genotypes using established PCR assays as previously described (9). The number of EPIYA (Glu-Pro-Ile-Tyr-Ala) repeat motifs in the 3′ region of the cagA gene was evaluated using PCR as previously described (7). OipA is a member of the large outer membrane protein family whose functional status is regulated by slipped-strand mispairing based on the number of CT dinucleotide repeats in the 5′ region of the gene (a switch status of “on” indicates the gene is functional, and a switch status of “off” indicates it is nonfunctional) (10). The 5′ region of the oipA gene was amplified using previously described primers (10), and the PCR fragments were purified and directly sequenced at Macrogen, Ltd., in Seoul, South Korea.Forty-eight of 176 children enrolled were H. pylori infected, based on two positive tests or a positive H. pylori culture. The mean age was 11.5 years (range, 3.2 to 17.9 years). Thirty-seven were H. pylori culture positive. None had atrophic gastritis. Only one patient had a significant endoscopic abnormality, a duodenal ulcer (cagA positive, vacA s1m2, and oipA on). The most common H. pylori genotype was cagA positive, vacA s1m1, and oipA on (n = 17, 45.9%), followed by cagA negative, vacA s2m2, and oipA off (n = 8, 21.6%), cagA positive, vacA s1m2, and oipA on (n = 5), cagA positive, vacA s1m1, and oipA on (n = 3), cagA negative, vacA s2m2, and oipA on (n = 2), cagA negative, vacA s1m1, and oipA on (n = 1), and cagA positive, vacA s1m2, and oipA off (n = 1) (Table ​(Table1).1). Overall, 70% of strains were cagA positive, which is similar to is the proportion found in U.S. adults (6).

TABLE 1.

Relationship between H. pylori genotype and ethnic group

Analysis of Clarithromycin Resistance and CagA Status in Helicobacter pylori by Use of Feces from Children in Thailand

The clarithromycin resistance and CagA status of Helicobacter pylori in Thai children were investigated using fecal samples. Of the 284 samples, H. pylori was detected in 120 samples, and the clarithromycin resistance rate was 29.2%. The cagA gene was detected in 59 samples, and only 6.8% of these samples contained the East Asian CagA type.Helicobacter pylori is a pathogenic bacterium that colonizes the human stomach. The prevalence of antibiotic-resistant H. pylori, especially clarithromycin-resistant H. pylori, has been increasing worldwide and makes it difficult to successfully eradicate H. pylori. Clarithromycin resistance in H. pylori has been shown to be due to mutations at positions 2142 and 2143 of the 23S rRNA gene (7, 9).Although H. pylori is closely associated with gastric cancer, the rate of mortality due to gastric cancer is relatively low in Thailand, even though the rate of H. pylori infection in Thailand has been reported to be over 80% (6, 8). A difference in pathogenicity between H. pylori strains may explain the lack of the expected correlation between the rate of mortality due to gastric cancer and the rate of H. pylori infection. The CagA protein, which is one of the most important pathogenicity factors of H. pylori, has been classified into two types: the East Asian CagA type, found in H. pylori isolates from Japan, South Korea, and China, and the Western CagA type, found in H. pylori isolates from Europe, North America, and Australia. Each CagA type has tyrosine phosphorylation segments characterized by a Glu-Pro-Ile-Tyr-Ala (EPIYA) motif in the C-terminal region (3). However, the Western CagA type contains the EPIYA-A and EPIYA-B segments, followed by a variable number of EPIYA-C segments, while the East Asian CagA type contains the EPIYA-A, EPIYA-B, and EPIYA-D segments. Furthermore, the East Asian CagA type has been reported to induce more-severe cellular changes than the Western CagA type (2).Recently, we identified a noninvasive method for detecting clarithromycin-resistant H. pylori isolates from feces with high sensitivity and specificity (5). In this study, we used this previously developed method to investigate the clarithromycin resistance and CagA status of H. pylori in feces of Thai children.Fecal samples were obtained from 284 children (116 males/116 females; mean age, 6.60 years [range, 1 to 12 years]) from three schools in Chiang Mai in August 2006. The ages and genders of 52 children of ethnic minorities could not be obtained. The study protocol and the informed-consent document were reviewed and approved by Research Ethics Committee, Faculty of Medicine, Chiang Mai University.DNA was extracted from the feces, and the 23S rRNA gene of H. pylori was amplified as previously described (5). Samples were considered to contain clarithromycin-resistant H. pylori if mutations at positions 2142 and 2143 of the 23S rRNA gene were detected.For the amplification of the cagA gene, we designed new primers targeting the region containing the EPIYA-A and EPIYA-B segments by comparing 81 of the cagA genes registered in the DNA Data Bank of Japan (data not shown). Amplification was performed using primer pairs comprising primers 2553F (5′-AACCCTAGTCGGTAATGGGTTRTCT-3′) and 3222R (5′-ATTGCTATTAATGCGTGTGTGGC-3′) for the first-round PCR and 2612F (5′-CGGACATCAGGAAAGAATTGAA-3′), 2609F (5′-TTTCGGATATCAAGAAGAATTGAA-3′), and 2998R (5′-TTGAAAGCCCTACTTTACTGAGATCA-3′) for the second-round PCR.Samples were designated cagA positive when a PCR product of 180 bp was detected after the third-round PCR, which was performed using Go Taq Green master mix (Promega, Madison, WI) and the 2609F, 2612F, 2779R (5′-CACTCACCTTTTTTAGCAACTTGAG-3′), and 2780R (5′-GCTTTTACCTTTTTAGCAACTTGAG-3′) primers. The cagA-typing PCR was performed using an East Asian CagA-specific primer pair (East-Asian-F [5′-AAAGGAGTGGGCGGTTTCA-3′] and East-Asian-R [5′-CCTGCTTGATTTGCCTCATCA-3′]) and a Western CagA-specific primer pair (Western-F [5′-GGCATGATAAAGTTGATGATCTCAGT-3′] and Western-R [5′-AAAGGTCCGCCGAGATCAT-3′]), which targeted the EPIYA-D and EPIYA-C segments, respectively. Each typing PCR was performed using 1.5 μl of the second PCR product. For each PCR amplification, a PCR mixture that contained ultrapure water as the template was included to rule out false-positive results.Of the 284 fecal samples obtained from Thai children, H. pylori was detected in 120 (42.3%). Of the 120 H. pylori-positive samples, clarithromycin-resistant H. pylori was detected in 35 (29.2%) samples, and both clarithromycin-susceptible and -resistant H. pylori isolates were detected simultaneously in 5 samples. The incidence of clarithromycin-resistant H. pylori in this study was slightly higher than the rate reported for Thai adults in other studies (23.2%) (4). Because there have been few studies that focused on the rate of clarithromycin-resistant H. pylori in Thai children, the results of this study will be useful for estimating the rate of clarithromycin-resistant H. pylori infection in adults in Thailand in the future.The cagA gene was present in 59 (49.2%) of the H. pylori-positive samples. Of these samples, 20 (33.9%) samples contained the Western CagA type (containing the EPIYA-C segments) and 4 (6.8%) contained the East Asian CagA type (containing the EPIYA-D segments). The remaining 35 samples, which lacked any EPIYA-C or EPIYA-D motifs, were considered to contain the Western CagA type (1). To confirm the absence of the EPIYA-C and EPIYA-D segments in these 35 samples, DNA sequencing was performed on 14 cagA genes by using the second PCR product, and none of the cagA genes analyzed had an EPIYA-C or EPIYA-D segment. In summary, H. pylori isolates containing the East Asian CagA type (6.8%) were significantly less prevalent than H. pylori isolates containing the Western CagA type (93.2%). Most of the H. pylori strains isolated in Asian countries with high incidences of deaths from gastric cancer, such as Japan and China, have been reported to contain the East Asian CagA type (10). Since differences in the prevalences of the East Asian CagA type in Asian countries have been suggested to be one of the reasons underlying the differential mortality rates associated with gastric cancer (2), further investigation is needed to confirm this possibility.In this study, we detected a high proportion (59.3%) of CagA that contained neither the EPIYA-C nor the EPIYA-D segment. The low incidence of Western CagA containing the EPIYA-C segment in Thailand may be one of the reasons for the low mortality rate associated with gastric cancer in Thailand.In conclusion, we show that the prevalence of the CagA types of H. pylori in Thai children differs from that reported for other Asian countries. Furthermore, our study demonstrates the usefulness of this approach for detecting and typing CagA in H. pylori by using feces. This method may prove useful in further investigations of the prevalences of the CagA types in H. pylori isolates from infected individuals.