부산대학교 도서관

BACKGROUND: Helicobacter pylori a primary cause of gastritis and peptic ulcer disease, is associated with increased production of reactive oxygen species within the gastric mucosa. Metallothionein (MT), a low-molecular-weight, cysteine-rich, metal-binding ligand, has been shown to sequester reactive oxygen species and reduce tissue damage. This study investigates the role of MT in H. pylori-induced gastritis in mice. MATERIALS AND METHODS: Control (MT+/+) and MT-null (MT−/−) mice were inoculated with either 1 × 10 H. pylori or H. felis, and were infected for 4, 8 and 16 weeks or 8 weeks, respectively. H. pylori load was determined by culture. Myloperoxidase activity and MT levels were also determined. RESULTS: The stomachs of H. felis-infected mice were more severely inflamed than those of H. pylori-infected mice. H. felis-induced gastritis was more severe (p = .003) in MT−/− than in MT+/+ mice. MT−/− mice also had higher (60%; p < .05) H. pylori loads than MT+/+ mice 4 weeks after infection but not 8 or 16 weeks after infection. Myloperoxidase activity with H. pylori was similar between MT+/+ and MT−/− mice. Thirty-three per cent greater (p < .05) myloperoxidase activity was observed in MT−/− than in MT+/+ mice infected with H. felis. In MT+/+ mice infected with H. pylori, liver MT was increased by 33 and 39% (p < .05) at 8 and 16 weeks, respectively, whereas gastric MT increased by 46% (p < .05) at 4 weeks and declined to baseline levels at 8 and 16 weeks. CONCLUSIONS: Mice lacking MT are more susceptible to H. pylori colonization and gastric inflammation, indicating that MT may be protective against H. pylori-induced gastritis.