Helicobacter pylori infection is the most common bacterial infection worldwide and is strongly associated with gastric oncogenesis. Recently, we discovered that the H. pylori protein CagA, a risk factor for carcinogenesis, consists of two distinct membrane-targeting domains. The C-terminal membrane-binding domain induces host cell responses associated with a high oncogenic potential. The N-terminal membrane-targeting domain, however, localizes to a different membrane substructure at the site of newly formed cell-cell contacts thereby diminishing the effects of C-terminal signaling motifs on host cell physiology. This inhibitory function may allow H. pylori to establish a colonization niche in the host by maintaining the host epithelial architecture and thus decreasing the oncogenic potential as a side effect. From a bacterial standpoint, however, its main purpose maybe is to translocate the CagA protein via the type IV secretion apparatus into host epithelial cells.
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Helicobacter pylori infection is the most common bacterial infection worldwide and is strongly associated with gastric oncogenesis. Recently, we discovered that the H. pylori protein CagA, a risk factor for carcinogenesis, consists of two distinct membrane-targeting domains. The C-terminal membrane-binding domain induces host cell responses associated with a high oncogenic potential. The N-terminal membrane-targeting domain, however, localizes to a different membrane substructure at the site of...
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