Abstract
Helicobacter pylori is an important risk factor of duodenal ulcer (DU). Although many virulence factors of H. pylori have been identified, few have been reported to show an association with the pathogenesis of DU. The aims of this study were to identify H. pylori antigens showing a high seropositivity in DU and to develop a platform for rapid and easy diagnosis for DU. Because DU and gastric cancer (GC) are considered clinical divergent gastroduodenal diseases, we compared two-dimensional immunoblots of an acid-glycine extract of an H. pylori strain from a patient with DU probed with serum samples from 10 patients with DU and 10 with GC to identify DU-related antigens. Of the 11 proteins that were strongly recognized by serum IgG from DU patients, translation elongation factor EF-G (FusA), catalase (KatA), and urease alpha subunit (UreA) were identified as DU-related antigens, showing a higher seropositivity in DU samples (n = 124) than in GC samples (n = 95) (FusA, 70.2 versus 45.3%; KatA, 50.8 versus 41.1%; UreA, 44.4 versus 27.4%). In addition, we found that the use of multiple antigens improved the discrimination between patients with DU and those with GC as the odds ratios increased from 1.82 (95% confidence interval (CI), 0.79-4.21; p = 0.1607) for seropositivity for FusA, KatA, or UreA alone to 4.95 (95% CI, 2.05-12.0; p = 0.0004) for two of the three antigens and to 5.71 (95% CI, 1.86-17.6; p = 0.0024) for all three antigens. Moreover a protein array containing the three DU-related antigens was developed to test the idea of using multiple biomarkers in diagnosis. We conclude that FusA, KatA, and UreA are DU-related antigens of H. pylori, and the combination of these on a protein array provided a rapid and convenient method for detecting serum antibody patterns of DU patients.
Highlights
Helicobacter pylori is an important risk factor of duodenal ulcer (DU)
Antral-predominant gastritis leads to increased acid production and duodenal ulceration, whereas corpus-predominant atrophic gastritis leads to acid reduction and a higher risk of developing gastric cancer (GC) [3, 4]
Several proteins recognized at a high frequency by both DU and GC sera were flagellar hook protein, flagellar hook-associated protein (FliD), molecular chaperone
Summary
Helicobacter pylori is an important risk factor of duodenal ulcer (DU). many virulence factors of H. pylori have been identified, few have been reported to show an association with the pathogenesis of DU. A protein array containing the three DU-related antigens was developed to test the idea of using multiple biomarkers in diagnosis. We conclude that FusA, KatA, and UreA are DU-related antigens of H. pylori, and the combination of these on a protein array provided a rapid and convenient method for detecting serum antibody patterns of DU patients. DU and GC are considered clinically divergent gastroduodenal diseases in which the pattern of gastritis is regarded as the major factor in the pathogenesis. The aims of the present prospective study were to identify DU-related antigens by two-dimensional (2D) immunoblotting and mass spectrometry and to develop a platform for detecting antibody patterns for diagnostic use. The binding of humoral antibodies to allergens, autoantigens, cancer-specific antigens, or infectious organisms is the basis of the design of protein arrays for biomarker discovery and clinical diagnosis
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