Abstract
Helicobacter pylori is a Gram-negative, microaerophilic bacterium associated with human gastric diseases. Further investigations on virulence genes are still required to clarify the pathogenic mechanism of H. pylori and the heterogeneous problem of infection. In order to develop an efficient and accurate method to study gene functions in H. pylori pathogenesis, an unmarked deletion method for both a single gene and a large fragment was established based on the FLP-FRT recombination system. Using this method, the gene hp0788, encoding an outer membrane protein (HofF), was deleted. Deletion of hp0788 did not affect growth or motility of H. pylori, but reduced the adherence of the bacteria to gastric epithelial cells. The apoptosis of GES-1 cells caused by H. pylori infection was also reduced by the defection of hp0788. These suggest that hp0788 takes part in the bacterium-host interaction and plays an important role in H. pylori infection. Furthermore, a large genomic fragment deletion from hp0541 to hp0547 in cag pathogenicity island was also successfully achieved using FLP-FRT method. The innovative application of the FLP-FRT recombination system in H. pylori to construct unmarked deletion would provide a helpful tool for further function research of putative pathogenic genes and contribute to the understanding of H. pylori pathogenesis.
Highlights
Helicobacter pylori is a main pathogen in our gastric mucosa causing gastrointestinal diseases
The essential gene involved in H. pylori colonization, hp0788 (Kavermann et al, 2003), was selected as a target to construct an unmarked deletion
H. pylori has a high mutation rate itself and frequent genetic exchange and recombination with other H. pylori strains, which results in extensive genetic diversity (Suerbaum et al, 1998; Bjorkholm et al, 2001)
Summary
Helicobacter pylori is a main pathogen in our gastric mucosa causing gastrointestinal diseases. It was reported that more than half of the population has been infected by this bacterium, and about 20% of them developed severe diseases according to clinical statistics (Forman, 1998; Peek and Blaser, 2002; Kato et al, 2004; Parsonnet and Forman, 2004; Sugiyama, 2004). Extensive researches have been done to identify H. pylori virulence factors and characterize their roles in bacterial colonization and pathogenesis. Unmarked Deletion in Helicobacter pylori pathogenic mechanism, especially the different outcomes of an infection by H. pylori, has not been elucidated (Shanks and ElOmar, 2009; Alzahrani et al, 2014; Floch et al, 2017). The current understanding of this complicated process is limited
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