lewis-y-antigen and Helicobacter-Infections

Helicobacter pylori (H. pylori) is a major causative agent of chronic gastritis, gastric ulcer and gastric carcinoma. H. pylori cytotoxin associated antigen A (CagA) plays a crucial role in the development of gastric cancer. Gastric cancer is associated with glycosylation alterations in glycoproteins and glycolipids on the cell surface. H. pylori cytotoxin associated antigen A (CagA) plays a significant role in the progression of gastric cancer through post-translation modification of fucosylation to develop gastric cancer. The involvement of a variety of sugar antigens in the progression and development of gastric cancer has been investigated, including type II blood group antigens. Lewis Y (LeY) is overexpressed on the tumor cell surface either as a glycoprotein or glycolipid. LeY is a difucosylated oligosaccharide, which is catalyzed by fucosyltransferases such as FUT4 (α1,3). FUT4/LeY overexpression may serve as potential correlative biomarkers for the prognosis of gastric cancer. We discuss the various aspects of H. pylori in relation to fucosyltransferases (FUT1-FUT9) and its fucosylated Lewis antigens (LeY, LeX, LeA, and LeB) and gastric cancer. In this review, we summarize the carcinogenic effect of H. pylori CagA in association with Le

Topics: Crime; Fucosyltransferases; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Stomach Neoplasms

Helicobacter pylori is a prevalent bacterial, gastroduodenal pathogen of humans that can express Lewis (Le) and related antigens in the O-chains of its surface lipopolysaccharide. The O-chains of H. pylori are commonly composed of internal Le(x) units with terminal Le(x) or Le(y) units or, in some strains, with additional units of Le(a), Le(b), Le(c), sialyl-Le(x) and H-1 antigens, as well as blood groups A and B, thereby producing a mosaicism of antigenic units expressed. The genetic determination of the Le antigen biosynthetic pathways in H. pylori has been studied, and despite striking functional similarity, low sequence homology occurs between the bacterial and mammalian alpha(1,3/4)- and alpha(1,2)-fucosyltransferases. Factors affecting Le antigen expression in H. pylori, that can influence the biological impact of this molecular mimicry, include regulation of fucosyltransferase genes through slipped-strand mispairing, the activity and expression levels of the functional enzymes, the preferences of the expressed enzyme for distinctive acceptor molecules and the availability of activated sugar intermediates. Le mimicry was initially implicated in immune evasion and gastric adaptation by the bacterium, but more recent studies show a role in gastric colonization and bacterial adhesion with galectin-3 identified as the gastric receptor for polymeric Le(x) on the bacterium. From the host defence aspect, innate immune recognition of H. pylori by surfactant protein D is influenced by the extent of LPS fucosylation. Furthermore, Le antigen expression affects both the inflammatory response and T-cell polarization that develops after infection. Although controversial, evidence suggests that long-term H. pylori infection can induce autoreactive anti-Le antibodies cross-reacting with the gastric mucosa, in part leading to the development of gastric atrophy. Thus, Le antigen expression and fucosylation in H. pylori have multiple biological effects on pathogenesis and disease outcome.

Topics: Animals; Carbohydrate Sequence; Fucosyltransferases; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Molecular Sequence Data; Stomach

Topics: Antigens, Bacterial; Bacterial Adhesion; Bacterial Proteins; Clarithromycin; Drug Resistance, Bacterial; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen

Helicobacter pylori (H. pylori) infection is a pathogenic agent of gastric diseases, but their mechanisms are unclear. Effects of ammonia, tumor necrosis factor (TNF), and anti-Lewis autoantibodies induced after H. pylori infection on the development of gastric diseases were investigated. Ammonia disturbed the collagen metabolism in the ulcer base. Soluble TNF receptors regulate the action of TNF. The involvement of anti-Lewis autoantibodies in the development of peptic ulcer might be unlikely. Moreover, H. pylori-specific IgA in gastric juice and TNFalpha gene polymorphism in persons infected with H. pylori were studied. According to H. pylori-specific IgA titer in gastric juice, persons were divided into two histologically and endoscopically different states of disease. TNFA -857 single nucleotide polymorphism (SNP) may be associated with rugal hyperplastic gastritis and gastric carcinomas without severe atrophy. However, complete elucidation of pathogenic mechanisms of H. pylori-induced gastric diseases requires further research.

Topics: Ammonia; Animals; Antibodies; Helicobacter Infections; Helicobacter pylori; Humans; Immunoglobulin A; Lewis Blood Group Antigens; Lewis X Antigen; Peptic Ulcer; Polymorphism, Genetic; Polymorphism, Single Nucleotide; Stomach Diseases; Tumor Necrosis Factor-alpha

Topics: Bacterial Adhesion; Gastric Mucosa; Gastritis; Helicobacter Infections; Helicobacter pylori; Humans; Leukocytes; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides

H. pylori cytotoxin associated antigen A (CagA) plays a significant role in the progression of gastric cancer but their effect on fucosylation to develop gastric cancer is unknown. Fucosyltransferase IV (FUT4) is the key enzyme for synthesis of LewisY (LeY) carried by glycoproteins and glycolipids on the cell membrane. Herein, we compare the expression of CagA, p-EGFR, FUT4 and LeY in gastritis (n = 128, 176), gastric ulcer (n = 174, 213), and gastric cancer (n = 323, 261) tissue and serum samples, respectively by IHC and ELISA. Moreover, we investigated the potential correlation of CagA with FUT4 and LeY overexpression through EGFR activation. IHC and ELISA results showed higher positive cases of H. pylori CagA (83, 86 %), p-EGFR (81, 72 %), FUT4 (91, 97 %) and LeY (93, 92 %) in gastric cancer, compared to gastritis and gastric ulcer, H. pylori CagA (58, 67 & 59, 73 %), p-EGFR (52, 63 & 35, 47 %), FUT4 (68, 78 & 67, 82 %) and LeY (62,76 & 65, 85 %), respectively. We found a significant high expression (H-Value) of CagA (1.79, 1.66), p-EGFR (1.53, 1.58), FUT4 (2.14, 1.66) and LeY (1.69, 1.61) in gastric cancer tissues and serum, respectively as compared to chronic gastritis and gastric ulcers, CagA (0.64,1.14), p-EGFR (0.856, 0.678), FUT4 (0.949,1.197) and LeY (0.68,1.008) (P < 0.0001), respectively. Furthermore, H. pylori CagA showed significant correlation with p-EGFR (R-0.62, -0.74), FUT4 (R-0.81, -0.76) and LeY (R-0.82, -0.70) in gastric tissues and serum (P < 0.0001). H. pylori CagA plays key role in the development of gastric cancer with overexpression of FUT4/LeY, serve as potentially correlative biomarkers of H. pylori CagA associated gastric cancer.

Topics: Biomarkers, Tumor; Female; Fucosyltransferases; Gastritis; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Male; Middle Aged; Oligosaccharides; Stomach Neoplasms

Helicobacter pylori (H. pylori) is a major causative agent for the induction of chronic gastritis, gastric ulcer and gastric cancer. Celecoxib (COX-2 inhibitor) inhibits gastric cancer cell proliferation, but with low treatment efficacy, limiting its applications. It is important to develop a better strategy to improve the efficacy of celecoxib. Lewis Y (LeY) is a difucosylated oligosaccharide, highly expressed in 60-90% of human epithelial cancers, including gastric cancer. We previously found that H. pylori infection was associated with high level of LeY in gastric cancer.. Herein, we analyzed the correlation between H. pylori and cyclo-oxygenase-2 (COX-2), LeY, gastric markers (CA724 and GRN) in gastric patient's tissue and serum samples by IHC and ELISA. Furthermore, we treated the primary gastric cancer cells with celecoxib, anti-LeY antibody or the combination, and analyzed their therapeutic efficacy on CA724, GRN and COX-2 expression by Western blot, flow cytometry and ELISA.. We found that gastric cancer had significantly high expression of H. pylori, COX-2, CA724, and GRN compared to gastric ulcers and chronic gastritis (P < 0.0001). H. pylori level showed significant correlation with COX-2 (R--0.552), LeY (R--0.861), CA724 (R--0.714) and GRN (R--0.664) (P < 0.0001). Additionally, the combination therapy led to impressive inhibition of gastric cancer cell proliferation, with decreased expression of COX-2, CA724 and GRN through downregulation of MAPKs/COX-2 pathway (P < 0.01).. Our findings suggest that anti-LeY antibody enhances the cancer cell proliferation inhibitory effects of celecoxib, which might be a new feasible way for gastric cancer therapy.

Topics: Adult; Aged; Antibodies, Monoclonal; Antineoplastic Combined Chemotherapy Protocols; Celecoxib; Cyclooxygenase 2; Down-Regulation; Drug Synergism; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; MAP Kinase Signaling System; Middle Aged; Pyrazoles; Signal Transduction; Stomach Neoplasms; Stomach Ulcer; Sulfonamides; Treatment Outcome; Tumor Cells, Cultured

The aim of this study was to investigate the Lewis antigen expression in Helicobacter pylori gastric MALT lymphoma associated strains in comparison to chronic gastritis only strains. Forty MALT strains (19 cagPAI (-) and 21 cagPAI (+)) and 39 cagPAI frequency-matched gastritis strains (17 cagPAI (-) and 22 cagPAI (+)) were included in this study. The lipopolyssacharide for each strain was extracted using a hot phenol method and the expression of Le(x) and Le(y) were investigated using Western Blot. The data were analyzed according to the strains' cagPAI status and vacA genotype. Le(x) was identified in 21 (52.5%) MALT strains and 29 (74.3%) gastritis strains. Le(y) was identified in 30 (75%) MALT strains and 31 (79.5%) gastritis strains. There was an association between cagPAI positivity and Le(x) expression among MALT strains (p<0.0001), but not in gastritis strains (p = 0.64). Among cagPAI (-) strains, isolates expressing solely Le(y) were associated with MALT with an odds ratio of 64.2 (95% CI 4.9-841.0) when compared to strains expressing both Le(x) and Le(y). vacA genotypes did not modify the association between Lewis antigen expression and disease status. In conclusion, cagPAI (-) MALT strains have a particular Lewis antigen profile which could represent an adaptive mechanism to the host response or participate in MALT lymphomagenesis.

Topics: Adult; Bacterial Proteins; Cell Proliferation; Crosses, Genetic; Female; Gastritis; Genotype; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides; Lymphoma, B-Cell, Marginal Zone; Male; Middle Aged; Virulence

Helicobacter pylori specifically takes up cholesterol and incorporates it into the bacterial membrane, yet little is currently known about cholesterol's physiological roles. We compared phenotypes and in vivo colonization ability of H. pylori grown in a defined, serum-free growth medium, F12 with 1 mg/ml albumin containing 0 to 50 mug/ml cholesterol.. While doubling times were largely unaffected by cholesterol, other overt phenotypic changes were observed. H. pylori strain SS1 grown in defined medium with cholesterol successfully colonized the stomach of gerbils, whereas SS1 grown without cholesterol failed to colonize. H. pylori lipopolysaccharide often displays Lewis X and/or Y antigens. Expression of these antigens measured by whole-cell ELISA was markedly enhanced in response to growth of strain SS1, 26695, or G27 in cholesterol. In addition, electrophoretic analysis of lipopolysaccharide in wild type G27 and in mutants lacking the O-chain revealed structural changes within the oligosaccharide core/lipid A moieties. These responses in Lewis antigen levels and in lipopolysaccharide profiles to cholesterol availability were highly specific, because no changes took place when cholesterol was substituted by beta-sitosterol or bile salts. Disruption of the genes encoding cholesterol alpha-glucosyltransferase or lipid A phosphoethanolamine transferase had no effect on Lewis expression, nor on lipopolysaccharide profiles, nor on the cholesterol responsiveness of these properties. Disruption of the lipid A 1-phosphatase gene eliminated the effect of cholesterol on lipopolysaccharide profiles but not its effect on Lewis expression.. Together these results suggest that cholesterol depletion leads to aberrant forms of LPS that are dependent upon dephosphorylation of lipid A at the 1-position. A tentative model for the observed effects of cholesterol is discussed in which sequential steps of lipopolysaccharide biogenesis and, independently, presentation of Lewis antigen at the cell surface, depend upon membrane composition. These new findings demonstrate that cholesterol availability permits H. pylori to modify its cell envelope in ways that can impact colonization of host tissue in vivo.

Topics: Animals; Cholesterol; Culture Media; Female; Gene Silencing; Gerbillinae; Helicobacter Infections; Helicobacter pylori; Lewis Blood Group Antigens; Lewis X Antigen; Lipid A; Lipopolysaccharides; Stomach

Topics: Antibodies, Bacterial; Antigens, Bacterial; Asia; Bacterial Proteins; Demography; Europe; Gastric Mucosa; Genetic Markers; Helicobacter Infections; Helicobacter pylori; Humans; Latin America; Lewis Blood Group Antigens; Lewis X Antigen; North America

Previous studies have shown that the LPS of Helicobacter pylori isolated from North American and European hosts predominantly expresses type 2 Lewis x (Le(x)) and Le(y) epitopes, whilst the LPS from Asian strains has the capacity to express type 1 Le(a) and Le(b) structures. The aim of this study was to evaluate the expression of Le antigens and the cytotoxin-associated antigen (CagA) by H. pylori isolates from Chile. A total of 38 isolates were screened. The expression of Le antigens and CagA was determined by whole-cell indirect ELISA, using commercially available monoclonal anti-Le and polyclonal anti-CagA antibodies. LPS profiles of H. pylori isolates were assessed by gel electrophoresis and Western blotting. Expression of Le(x) and/or Le(y) epitopes was confirmed in 32/38 isolates (84 %), whilst 9/38 isolates (24 %) expressed type 1 Le(b) blood group determinants, in addition to type 2 Le(x) and Le(y) structures. Six strains (16 %) were non-typeable. The majority of H. pylori strains examined were CagA-positive (83.3 %).

Topics: Adolescent; Adult; Aged; Aged, 80 and over; Chile; Female; Gastrointestinal Diseases; Gene Expression Regulation, Bacterial; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides; Male; Middle Aged; Oligosaccharides

Helicobacter pylori persistently colonizes about half the human population and contributes to the development of peptic ulcer disease and gastric cancer. This organism has evolved means to structurally alter its surface characteristics to evade innate and adaptive immune responses. H. pylori produces LPS O-antigen units that can be posttranslationally fucosylated to generate Lewis antigens, structures also found on human epithelial cells. We demonstrate an extensive diversity of Lewis x and Lewis y expression in LPS O-antigen units, occurring over time and in different regions of the human stomach. Lewis expression patterns were correlated with the on/off status of the three fucosyltransferases (FucT), FutA, FutB, and FutC, which are regulated via slipped-strand mispairing in intragenic polyC tract regions of the corresponding genes. The alpha1,3-FucT, FutA and FutB, each contain a C-terminal heptad repeat region, consisting of a variable number of DD/NLRV/INY tandem repeats. Variations in the number of heptad repeats correlated to the sizes of O-antigen polymers to become decorated by fucose residues. Our data support a molecular ruler mechanism for how H. pylori varies its LPS fucosylation pattern, where one heptad repeat in the enzyme corresponds to one N-acetyl-beta-lactosamine unit in the O-antigen polysaccharide.

Topics: Amino Acid Sequence; Bacterial Proteins; Dimerization; Fucosyltransferases; Glycosylation; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lipopolysaccharides; Molecular Sequence Data; O Antigens; Oligosaccharides; Repetitive Sequences, Amino Acid; Stomach

Helicobacter pylori extrudes protein- and lipopolysaccharide-enriched outer membrane vesicles from its cell surface which have been postulated to act to deliver virulence factors to the host. Lewis antigen expression by lipopolysaccharide of H. pylori cells has been implicated in a number of pathogenic roles. The aim of this study was to further characterize the expression of lipopolysaccharide on the surface of these outer membrane vesicles and, in particular, expression of Lewis antigens and their association with antibody production in the host.. H. pylori strains were examined for outer membrane vesicle production using transmission electron microscopy and Lewis antigen expression probed using immunoelectron microscopy. Sera from patients were analyzed for cross-reacting anti-Lewis antibodies and, subsequently, absorbed using outer membrane vesicle preparations to remove the cross-reacting antibodies.. The formation of outer membrane vesicles by H. pylori was observed in both in vitro and in vivo samples. Furthermore, vesicles were produced following culture in either liquid or solid medium by all strains examined. Moreover, we observed the presence of Lewis epitopes on outer membrane vesicles using immunoelectron microscopy and immunoblotting. Circulating anti-Lewis antibodies were found in the sera of gastric cancer patients but not in the sera of H. pylori-negative control subjects. Absorption of patient sera with outer membrane vesicles decreased the levels of anti-Lewis autoantibodies.. Our results demonstrate the ability of H. pylori to generate outer membrane vesicles bearing serologically recognizable Lewis antigens on lipopolysaccharide molecules which may contribute to the chronic immune stimulation of the host. The ability of these vesicles to absorb anti-Lewis autoantibodies indicates that they may, in part, play a role in putative autoimmune aspects of H. pylori pathogenesis.

Topics: Antibodies, Bacterial; Autoimmunity; Cell Wall; Electrophoresis, Polyacrylamide Gel; Epitopes; Helicobacter Infections; Helicobacter pylori; Lewis Blood Group Antigens; Lewis X Antigen; Microscopy, Electron; Stomach Neoplasms

Lewis epithelial antigen expression has a role in Helicobacter pylori adherence, presumably mainly in cagA-positive strains. The authors investigated whether Lewis antigen expression in children's gastric mucosa was associated with H. pylori infection, cagA status, patient age, or presence of duodenal ulcer (DU).. The expression of Lewis A (Le(a)), B (Le(b)), X (Le(x)), and Y (Le(y)) was detected by immunohistochemistry in the antral and oxyntic mucosae of 70 children. Children were divided in four age groups (<4 years; 4-8 years; 9-12 years; and 13-18 years).. Forty-seven of the 70 children had H. pylori and 17 had DU. The cagA status was determined by polymerase chain reaction in 34 patients. Le(a) and Le(b) were expressed in 64% and 44% of the patients, respectively; Le(x) and Le(y) were expressed in the glands in all of the patients and in the superficial epithelium. Le(b) expression was more common among patients without H. pylori (15/23, 65%) than in those with H. pylori (16/47, 34%) (P = 0.03). In noninfected patients, Le(b) and superficial Le(y) expression were associated with increased age. Le(b) expression was more common in patients with chronic gastritis than in those with DU. Le(x) superficial expression was significantly associated with DU in patients with H. pylori.. In children, the expression of Le(b) and Le(y) in the superficial gastric epithelium depends on age. Other receptors, such as Le(x), may have a role in H. pylori colonization, especially in patients with DU. Studies assessing the expression of Lewis antigens in children may contribute to an understanding of the mechanisms of acquisition of H. pylori infection.

Topics: Adolescent; Age Factors; Antigens, Bacterial; Bacterial Adhesion; Bacterial Proteins; Child; Child, Preschool; Duodenal Ulcer; Female; Gastric Mucosa; Helicobacter Infections; Helicobacter pylori; Humans; Immunohistochemistry; Lewis Blood Group Antigens; Male; Polymerase Chain Reaction

We tested if host gastric Lewis antigens and the babA2 genotype of Helicobacter pylori correlated with clinicohistological outcome.. We enrolled 188 dyspeptic patients (45 with duodenal ulcer, 45 with gastric ulcer, and 98 with chronic gastritis) with H pylori infection, proved by culture and gastric histology, reviewed by the updated Sydney system. Gastric expression of Lewis (Le) antigens Le(a), Le(b), Le(x), and Le(y) was determined immunochemically to determine intensity (range 0-3). The corresponding 188 H pylori isolates were screened for babA2 genotype by polymerase chain reaction.. All H pylori isolates had a positive babA2 genotype. We identified Le(a) in 33.5%, Le(b) in 72.9%, Le(x) in 86.2%, and Le(y) in 97.4% of biopsies from these 188 patients. Patients who expressed Le(b) had a higher H pylori density than those who did not express Le(b) (p<0.001). Among 139 patients who expressed Le(b), H pylori density increased with a higher Le(b) intensity (p<0.05). Gastric atrophy decreased with Le(b) intensity and thus resulted in lower H pylori density in the antrum (p<0.05). For the 49 patients without gastric Le(b) expression, H pylori density was positively related with Le(x) and Le(a) expression (p<0.05).. Taiwanese H pylori isolates are 100% babA2 genopositive. Gastric Le(b) as well as Le(x) intensity may be major determinants of H pylori density. While lacking gastric Le(b) expression, Le(x) and Le(a) were closely related to H pylori colonisation.

Topics: Adhesins, Bacterial; Adult; Atrophy; Bacterial Adhesion; Base Sequence; Carrier Proteins; Colony Count, Microbial; Dyspepsia; Female; Genotype; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Male; Middle Aged; Polymerase Chain Reaction; Prevalence; Pyloric Antrum; Taiwan

The population dynamics of Helicobacter pylori during colonization in an infected animal host provide a quantifiable experimental model of in vivo microbial phenotype evolution. Phenotype variability in H. pylori populations can be typed as polymorphic expression of Lewis antigens on their cell surfaces. The high mutational frequency of H. pylori for Lewis expression provides substrate for differential selection by the host. Experimental challenge and successful colonization of mice and gerbils allows tracking of H. pylori phenotype variability from the initial inoculation to the ultimate establishment of a quasispecies. Colonization data provide a quantitative experimental model of phenotype evolution in a relatively large population (>10(4) individuals) over a relatively long evolutionary time scale (>10(3) generations). A mathematical model is developed to interpret the data in terms of the dynamic processes occurring during colonization. The mathematical model distinguishes the roles of selection and mutation; quantifies the effects of initial phenotype diversity, mutational frequency, and selective advantage; and applies generally to phenotype evolution in biological populations.

Topics: Animals; Disease Models, Animal; Evolution, Molecular; Female; Gerbillinae; Helicobacter Infections; Helicobacter pylori; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides; Mathematical Computing; Mice; Mice, Inbred C3H; Models, Biological; Mutagenesis; Phenotype; Selection, Genetic

Helicobacter pylori strains frequently express Lewis X (Le(x)) and/or Le(y) on their cell surfaces as constituents of the O antigens of their lipopolysaccharide molecules. To assess the effect of Le(x) and Le(y) expression on the ability of H. pylori to colonize the mouse stomach and to adhere to epithelial cells, isogenic mutants were created in which fucT1 alone or fucT1 and fucT2, which encode the fucosyl transferases necessary for Le(x) and Le(y) expression, were deleted. C3H/HeJ mice were experimentally challenged with either wild-type 26695 H. pylori or its isogenic mutants. All strains, whether passaged in the laboratory or recovered after mouse passage, colonized the mice well and without consistent differences. During colonization by the mutants, there was no reversion to wild type. Similarly, adherence to AGS and KatoIII cells was unaffected by the mutations. Together, these findings indicate that Le expression is not necessary for mouse gastric colonization or for H. pylori adherence to epithelial cells.

Topics: Animals; Antibodies, Bacterial; Bacterial Adhesion; Epithelial Cells; Female; Fucosyltransferases; Helicobacter Infections; Helicobacter pylori; Intestinal Mucosa; Lewis Blood Group Antigens; Lewis X Antigen; Mice; Mice, Inbred C3H; Mutagenesis; Stomach

Although Helicobacter pylori express Lewis antigens as a component in the lipopolysaccharide, their role in the infectious process is not well understood. Lewis antigen expression with growth phase was investigated, as well as the distribution of Lewis antigens among isolates from asymptomatic and symptomatic individuals. Lewis antigens are expressed by H. pylori in a growth phase-dependent manner, with the greatest expression occurring in the logarithmic phase of growth. As growth proceeds, an increasing amount of Lewis antigens are shed into the culture supernatant. Lewis antigen expression among H. pylori isolates from asymptomatic individuals is characterized by an absence of type I Lewis antigens, a decrease in Le(x) expression, and an increase in nontypeable H. pylori, as compared with that among H. pylori isolates from symptomatic patients. The data support a role for Lewis antigens in the pathogenesis associated with symptomatic H. pylori infection in colonized individuals.

Topics: Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides; Oligosaccharides; Reference Values

Lewis (Le) antigens have been implicated in the pathogenesis of atrophic gastritis and gastric cancer in the setting of Helicobacter pylori infection, and H. pylori-induced anti-Le antibodies have been described that cross-react with the gastric mucosa of both mice and humans. The aim of this study was to examine the presence of anti-Le antibodies in patients with H. pylori infection and gastric cancer and to examine the relationships between anti-Le antibody production, bacterial Le expression, gastric histopathology, and host Le erythrocyte phenotype. Anti-Le antibody production and H. pylori Le expression were determined by enzyme-linked immunosorbent assay, erythrocyte Le phenotype was examined by agglutination assays, and histology was scored blindly. Significant levels of anti-Le(x) antibody (P < 0.0001, T = 76.4, DF = 5) and anti-Le(y) antibody (P < 0.0001, T = 73.05, DF = 5) were found in the sera of patients with gastric cancer and other H. pylori-associated pathology compared with H. pylori-negative controls. Following incubation of patient sera with synthetic Le glycoconjugates, anti-Le(x) and -Le(y) autoantibody binding was abolished. The degree of the anti-Le(x) and -Le(y) antibody response was unrelated to the host Le phenotype but was significantly associated with the bacterial expression of Le(x) (r = 0.863, r(2) = 0.745, P < 0.0001) and Le(y) (r = 0.796, r(2) = 0.634, P < 0.0001), respectively. Collectively, these data suggest that anti-Le antibodies are present in most patients with H. pylori infection, including those with gastric cancer, that variability exists in the strength of the anti-Le response, and that this response is independent of the host Le phenotype but related to the bacterial Le phenotype.

Topics: Adolescent; Adult; Aged; Aged, 80 and over; Autoantibodies; Autoantigens; Autoimmunity; Chronic Disease; Female; Gastritis, Atrophic; Helicobacter Infections; Helicobacter pylori; Humans; Immunophenotyping; Lewis Blood Group Antigens; Lewis X Antigen; Male; Middle Aged; Stomach Neoplasms

Helicobacter pylori attach to the gastric mucosa with adhesin, which binds to Lewis b (Le(b)) or H type I carbohydrate structures. The Secretor (Se) gene and Lewis (Le) gene are involved in type I Le antigen synthesis. The present study was performed to investigate the possibility that Se and Le gene polymorphisms alter the risk of H. pylori infection. Two hundred thirty-nine participants were genotyped for Se and Le and tested for the presence of anti-H. pylori IgG antibodies. Using the normal gastric mucosa from 60 gastric cancer patients, we assessed immunohistochemically whether type I Le antigen expression depended on the Se and Le genotypes. The H. pylori infection rate was positively associated with the number of Se alleles (se/se group, 45.1%; Se/se group, 64.6%; and Se/Se group, 73.3%) and negatively associated with the number of Le alleles (le/le group, 76.4%; Le/le group, 68.3%; and Le/Le group, 55.6%). When the subjects were classified into three groups [low risk, (se/se, Le/Le) genotype; high risk, (Se/Se, le/le), (Se/Se, Le/le), and (Se/se, le/le) genotypes; moderate risk, other than low- or high-risk group], the odds ratio relative to the low-risk group was 3.30 (95% confidence interval, 1.40-7.78) for the moderate-risk group and 10.33 (95% confidence interval, 3.16-33.8) for the high-risk group. Immunohistochemical analysis supported the finding that Se and Le genotypes affected the expression of H. pylori adhesin ligands. We conclude that Se and Le genotypes affect susceptibility to H. pylori infection.

Topics: Adult; Aged; Antibodies, Bacterial; Asian People; Enzyme-Linked Immunosorbent Assay; Female; Fucosyltransferases; Galactoside 2-alpha-L-fucosyltransferase; Gastric Mucosa; Genotype; Helicobacter Infections; Helicobacter pylori; Humans; Immunoglobulin G; Immunohistochemistry; Japan; Lewis Blood Group Antigens; Lewis X Antigen; Male; Middle Aged; Polymerase Chain Reaction; Polymorphism, Genetic; Polymorphism, Restriction Fragment Length; Prevalence; Risk Factors; Stomach Neoplasms

We have investigated the possibility that the same patients may be colonized by Helicobacter pylori strains of different genotypes or phenotypes in the antrum as compared to in the duodenum. The strains were typed for DNA fingerprints, different lipopolysaccharides (LPS), and Lewis antigen expression on the O-side chains of LPS.. Polymerase chain reaction (PCR) amplifications using primer sequences (i.e., the Enterobacterial Repetitive Intergenic Consensus [ERIC]) and randomly amplified polymorphic DNA (RAPD) elements were performed to asses chromosomal DNA diversity between H. pylori strains. The expression of different LPS types and Lewis antigens in the various H. pylori isolates were determined by whole bacterial enzyme-linked immunosorbent assays using monoclonal antibodies.. Duodenal ulcer patients had different H. pylori genotypes in the duodenum as compared to in the antrum as shown by ERIC-PCR (44%) and by RAPD-PCR (75%). Different DNA patterns were found among the strains that were isolated from various regions of the duodenum in 4 of 16 patients (25%) as shown by ERIC-PCR and in 8 of 16 patients (50%) as shown by RAPD-PCR. Sixty-three percent of the duodenal ulcer patients had H. pylori strains with a different Lewis antigen phenotype in the duodenum as compared to in the antrum, and 3 of 16 patients (19%) had strains with different Lewis antigens expressed by strains from different duodenal biopsies from the same patient.. The results suggest that a mixed population of different H. pylori strains with marked variation, both genotypically and phenotypically, colonize the same patient.

Topics: DNA Fingerprinting; DNA, Bacterial; Duodenal Ulcer; Enzyme-Linked Immunosorbent Assay; Female; Gastric Mucosa; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides; Male; Middle Aged; Phenotype; Pyloric Antrum; Random Amplified Polymorphic DNA Technique

Populations of Helicobacter pylori cells show a stable expression of Lewis surface antigens, although phase variation may occur among individual organisms grown in vitro. We searched for variation in Lewis phenotypes among H. pylori cells of minimally in vitro-passaged isolates. Lewis expression in 180 clonal H. pylori populations from the primary culture of 20 gastric biopsy samples from 12 patients, and that in 160 isolates from primary cultures from 16 experimentally infected rodents, were examined by enzyme immunoassays. Substantial differences in Lewis expression were found among the isolates from 9 (75%) of 12 patients. These differences were unrelated to overall genetic diversity as determined by polymerase chain reactions for random amplified polymorphic DNA or cagA status, and they persisted during subsequent in vitro passage. In contrast, Lewis expression was highly uniform in H. pylori isolates from different rodents infected for up to 20 weeks. Variation in H. pylori Lewis expression in genetically closely related organisms in human subjects may provide a pool of bacterial phenotypes for the continuous selection of optimally host-adapted populations suitable for persistence.

Topics: Animals; Antigens, Bacterial; Bacterial Proteins; Female; Gene Expression Regulation, Bacterial; Genotype; Gerbillinae; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Male; Mice; Phenotype; Polymerase Chain Reaction; Polymorphism, Genetic; Stomach

We examined whether anti-Lewis x (Le(x)) and y (Le(y)) autoantibodies affect the pathogenesis of Helicobacter pylori-induced peptic ulcers. Of 11 patients with peptic ulcers, 10 patients had both anti-Le(x) and -Le(y) immunoglobulin G (IgG) antibodies, and 1 patient had only anti-Le(x) antibody. After successful eradication, we measured the serum titer of anti-Le(x) and -Le(y) antibodies. Six patients had a reduction of the titers of anti-Le(x) and/or -Le(y) antibodies, whereas no notable changes were detected in 5 patients in the follow-up. This result suggests that anti-Le(x) and -Le(y) autoantibodies had no critical role in the development of H. pylori-induced peptic ulcer.

Topics: Autoantibodies; Follow-Up Studies; Helicobacter Infections; Helicobacter pylori; Humans; Immunoglobulin G; Lewis Blood Group Antigens; Lewis X Antigen; Lipopolysaccharides; Peptic Ulcer; Recurrence

Helicobacter pylori infection induces autoantibodies that cross-react with human gastric mucosa from infected individuals. Candidates for the antigens responsible for molecular mimicry causing autoreactivity include the heat-shock protein HspB (Hsp60, sometimes called Hsp54) or Lewis x and Lewis y carbohydrate antigens.. Our goal was to investigate the involvement of HspB (Hsp60) in autoreactivity between H. pylori and gastric biopsy tissue.. Immunoelectron microscopy was used to study cross-reactivity among biopsy tissues from a patient with gastritis, gastric ulcer, and duodenal ulcer and his own serum as well as reactivity with serum raised against HspB from H. pylori and monoclonal antibodies against Lewis antigens.. The patient serum reacted with gastric mucosa, and the antibodies involved were predominantly IgG. Antibody raised to H. pylori HspB (Hsp60) reacted only with H. pylori cells but not with gastric mucosal tissue. In contrast, monoclonal antibodies specific for Lewis x and Lewis y antigens reacted with both H. pylori and human gastric epithelial tissue.. Hsp60 (Hsp54) is unlikely to be involved in autoreactivity seen in individuals infected with H. pylori. In contrast, we could not rule out the role of Lewis x and Lewis y carbohydrate antigens, expressed as a component of H. pylori lipopolysaccharides, in molecular mimicry and autoantibody production.

Topics: Adult; Antigens, Bacterial; Autoantibodies; Autoimmunity; Chaperonin 60; Cross Reactions; Duodenal Ulcer; Gastric Mucosa; Gastritis; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Male; Microscopy, Immunoelectron; Molecular Mimicry; Stomach Ulcer

Autoantibodies against gastric epithelial cells are detectable in up to 50% of patients with chronic, active Helicobacter pylori gastritis. Presence of autoantibodies against canalicular structures within human parietal cells (anticanalicular autoantibodies) correlate with gastric mucosa atrophy. It has been suggested, that molecular mimicry between H pylori and the host on the level of Lewis X and Lewis Y blood group antigens leads to these autoantibodies. This study aimed at analysing whether antigastric antibodies can be absorbed to Lewis X or Y positive H pylori strains. Sera from 14 H pylori infected patients with anticanalicular autoantibodies were effectively absorbed to H pylori. Immunohistochemical studies of the absorbed sera showed no decrease of antigastric autoreactivity. Pathogenic mechanisms other than molecular mimicry lead to the formation of antigastric autoantibodies, and epitopes other than Lewis antigens are the autoimmune targets.

Topics: Autoantibodies; Chronic Disease; Gastric Mucosa; Gastritis; Helicobacter Infections; Helicobacter pylori; Humans; Lewis Blood Group Antigens; Lewis X Antigen; Molecular Mimicry

Topics: Animals; Apoptosis; Disease Models, Animal; Escherichia coli Proteins; Helicobacter Infections; Helicobacter pylori; Humans; Hyperplasia; Lewis Blood Group Antigens; Lewis X Antigen; Lymphocytes; Transcription Factors

Lewis antigens occur in human gastric epithelium and in Helicobacter pylori lipopolysaccharide; their expression is polymorphic in both. Autoimmune mechanisms induced by bacterial Lewis expression have been proposed to cause gastritis. The aim of this study was to examine the relationship between bacterial and host gastric Lewis expression, as determined by the erythrocyte Lewis(a/b) phenotype, and between gastric histopathology and bacterial Lewis expression.. H. pylori Lewis expression was determined by enzyme immunoassays, erythrocyte Lewis phenotype was assessed by agglutination tests, and gastric histopathology was scored blindly.. The host Lewis phenotype was (a+b-) in 15, (a-b+) in 34, and (a-b-) in 17 patients, therefore expressing Lewis x, y, or neither as their major gastric epithelial Lewis type 2 antigen. H. pylori from patients with Lewis(a+b-) expressed Lewis x more than y (1147 +/- 143 vs. 467 +/- 128 optical density units [ODU]; P = 0.006), isolates from patients with Lewis(a-b+) expressed Lewis x less than y (359 +/- 81 vs. 838 +/- 96 ODU; P = 0.0001), and isolates from Lewis(a-b-) patients expressed Lewis x and y approximately equally. Gastritis was unrelated to H. pylori Lewis expression.. In mimicking host gastric epithelium, H. pylori cells not only express Lewis x and y, but the relative proportion of expression corresponds to the host Lewis phenotype, suggesting selection for host-adapted organisms.

Topics: Adult; Aged; Aged, 80 and over; Biopsy; Erythrocytes; Female; Gastric Mucosa; Gastritis; Genotype; Helicobacter Infections; Helicobacter pylori; Humans; Inflammation; Lewis Blood Group Antigens; Lewis X Antigen; Male; Middle Aged; Phenotype; Pyloric Antrum