Helicobacter pylori infection and CagA protein translocation in human primary gastric epithelial cell culture.

Abstract	BACKGROUND: Increasing evidence has shown that Helicobacter pylori CagA protein translocation into gastric epithelial cells plays an important role in the development of gastric inflammation and malignancy. Translocated CagA undergoes tyrosine phosphorylation in gastric adenocarcinoma cell line cells, and CagA involves disruption of cellular apical-junction complex in Madin-Darby canine kidney cells. METHODS: To elucidate whether these events take place in normal human gastric epithelium, we infected human primary gastric epithelial cells with H. pylori. RESULTS: Our results demonstrate that CagA protein was translocated into primary gastric epithelial cells and tyrosine phosphorylated. The translocated CagA induces cytoskeletal rearrangement and the disruption of tight junctions in primary gastric epithelial cells. CONCLUSIONS: This study provides direct evidence of the modulation of gastric epithelial cells by CagA protein translocation, and advances our understanding of the pathogenesis of H. pylori infection.
Authors	Yo-Ping Lai, Jyh-Chin Yang, Tzu-Zung Lin, Jaw-Town Lin, Jin-Town Wang
Journal	Helicobacter (Helicobacter) Vol. 11 Issue 5 Pg. 451-9 (Oct 2006) ISSN: 1083-4389 [Print] England
PMID	16961808 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Antigens, Bacterial Bacterial Proteins cagA protein, Helicobacter pylori
Topics	3T3 Cells Animals Antigens, Bacterial (metabolism) Bacterial Proteins (metabolism) Cell Line, Tumor Cells, Cultured Dogs Epithelial Cells (microbiology) Gastric Mucosa (microbiology) Helicobacter Infections (microbiology) Helicobacter pylori (metabolism) Humans Mice Phosphorylation Protein Transport Tight Junctions (metabolism)

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