New insights into the cytotoxic mechanisms of Clostridium perfringens enterotoxin
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- 作者:McClane ; Bruce A. ; Chakrabarti ; Ganes
- 关键词:Clostridium perfringens ; Enterotoxin ; Cytotoxicity ; Apoptosis ; Oncosis ; Tight junctions
- 刊名:Anaerobe
- 出版年:2004
- 出版时间:April, 2004
- 年:2004
- 卷:1
- 期:2
- 页码:107-114
- 全文大小:589 K
文摘
Clostridium perfringens type A isolates producing the 35kDa enterotoxin (CPE) are an important cause of food poisoning, human non-foodborne gastrointestinal (GI) disease, and some veterinary GI diseases. Studies using CPE knock-out mutants confirmed the importance of enterotoxin expression for the enteric virulence of CPE-positive type A isolates. CPE action involves formation of a series of complexes in mammalian plasma membranes. One such CPE-containing complex (of 
155kDa) is important for the induction of plasma membrane permeability alterations, which are responsible for killing enterotoxin-treated mammalian cells. Those membrane permeability changes damage the epithelium, allowing the enterotoxin to interact with the tight junction (TJ) protein occludin. CPE:occludin interactions result in formation of an 200kDa CPE complex and internalization of occludin into the cytoplasm. That removal of occludin (and possibly other proteins) damages TJs and disrupts the normal paracellular permeability barrier of the intestinal epithelium, which may contribute to CPE-induced diarrhea. Recent studies demonstrated that low CPE doses kill mammalian cells by inducing a classic apoptotic pathway involving mitochondrial membrane depolarization, cytochrome C release, and caspase 3/7 activation. In contrast, high enterotoxin doses induce oncosis, a proinflammatory event. Thus, inflammation may also contribute to the GI symptoms of patients whose intestines contain high CPE levels. In summary, CPE is a unique, multifunctional toxin with cytotoxic, TJ-damaging, and (probably) proinflammatory activities.
155kDa) is important for the induction of plasma membrane permeability alterations, which are responsible for killing enterotoxin-treated mammalian cells. Those membrane permeability changes damage the epithelium, allowing the enterotoxin to interact with the tight junction (TJ) protein occludin. CPE:occludin interactions result in formation of an 200kDa CPE complex and internalization of occludin into the cytoplasm. That removal of occludin (and possibly other proteins) damages TJs and disrupts the normal paracellular permeability barrier of the intestinal epithelium, which may contribute to CPE-induced diarrhea. Recent studies demonstrated that low CPE doses kill mammalian cells by inducing a classic apoptotic pathway involving mitochondrial membrane depolarization, cytochrome C release, and caspase 3/7 activation. In contrast, high enterotoxin doses induce oncosis, a proinflammatory event. Thus, inflammation may also contribute to the GI symptoms of patients whose intestines contain high CPE levels. In summary, CPE is a unique, multifunctional toxin with cytotoxic, TJ-damaging, and (probably) proinflammatory activities.