Cholera toxin protects against action by Clostridium difficile toxin A. The role of antisecretory factor in intestinal secretion and inflammation in rat.

Abstract	UNLABELLED: The protein antisecretory factor (AF) inhibits intestinal fluid secretion induced by the cholera toxin (CT) and Clostridium difficile toxin A (CDA). The present work investigated whether CT-induced AF protects against the enterotoxin action by CDA. Rats were pretreated perorally with CT or buffer as control, whereafter CDA-induced fluid secretion and cytotoxicity was tested in vivo in ligated intestinal loops; the mucosal level of AF was estimated using the Western blot technique. Rats given repeated peroral doses of CT became tolerant to CDA, the inhibition of fluid secretion and of cytotoxicity being 79% in eight out of nine animals. The repeated CT-treatment also induced long-lasting rise of AF in the mucosal epithelium. Recombinant AF given either perorally or intravenously inhibited both fluid secretion and cytotoxicity by CDA; similar results were obtained with a truncated 16-mer AF peptide. IN CONCLUSION: peroral CT-treatment induced tolerance to CDA in rat small intestine. The tolerance was probably mediated by AF induced via action of cholera toxin on the enteric nervous and immune system.
Authors	Ivar Lönnroth, Stefan Lange, Eva Jennische, Ewa Johansson, Ingela Jonson, Javier Torres
Journal	APMIS : acta pathologica, microbiologica, et immunologica Scandinavica (APMIS) Vol. 111 Issue 10 Pg. 969-77 (Oct 2003) ISSN: 0903-4641 [Print] Denmark
PMID	14616550 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Bacterial Toxins Enterotoxins Neuropeptides Recombinant Proteins antisecretory factor tcdA protein, Clostridium difficile Cholera Toxin
Topics	Animals Bacterial Toxins (antagonists & inhibitors, toxicity) Body Fluids (drug effects, metabolism) Cholera Toxin (toxicity) Diarrhea (etiology) Enteric Nervous System (drug effects, pathology, physiopathology) Enterotoxins (antagonists & inhibitors, toxicity) Humans Intestinal Mucosa (drug effects, pathology, physiopathology) Intestine, Small (drug effects, pathology, physiopathology) Male Neuropeptides (pharmacology, physiology) Rats Rats, Sprague-Dawley Recombinant Proteins (pharmacology)

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