Beta Toxin is Essential for the Intestinal Virulence of Clostridium Perfringens Type C Disease Isolate CN3685 in a Rabbit Ileal Loop Model

Overview

Journal Mol Microbiol

Specialties Microbiology
Molecular Biology

Date 2007 Dec 15

PMID 18078439

Citations 86

Authors

Sameera Sayeed

Francisco A Uzal

Derek J Fisher

Juliann Saputo

Jorge E Vidal

Yue Chen

Phalguni Gupta

Julian I Rood

Bruce A McClane

Affiliations

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Abstract

Clostridium perfringens type C isolates, which cause enteritis necroticans in humans and enteritis and enterotoxaemias of domestic animals, typically produce (at minimum) beta toxin (CPB), alpha toxin (CPA) and perfringolysin O (PFO) during log-phase growth. To assist development of improved vaccines and therapeutics, we evaluated the contribution of these three toxins to the intestinal virulence of type C disease isolate CN3685. Similar to natural type C infection, log-phase vegetative cultures of wild-type CN3685 caused haemorrhagic necrotizing enteritis in rabbit ileal loops. When isogenic toxin null mutants were prepared using TargeTron technology, even a double cpa/pfoA null mutant of CN3685 remained virulent in ileal loops. However, two independent cpb null mutants were completely attenuated for virulence in this animal model. Complementation of a cpb mutant restored its CPB production and intestinal virulence. Additionally, pre-incubation of wild-type CN3685 with a CPB-neutralizing monoclonal antibody rendered the strain avirulent for causing intestinal pathology. Finally, highly purified CPB reproduced the intestinal damage of wild-type CN3685 and that damage was prevented by pre-incubating purified CPB with a CPB monoclonal antibody. These results indicate that CPB is both required and sufficient for CN3685-induced enteric pathology, supporting a key role for this toxin in type C intestinal pathogenesis.

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