Abstract
There is a strain of Clostridium perfringens, W5052, which does not produce a known enterotoxin. We herein report that the strain W5052 expressed a homologue of the iota-like toxin components sa and sb of C. spiroforme, named Clostridium perfringens iota-like enterotoxin, CPILE-a and CPILE-b, respectively, based on the results of a genome sequencing analysis and a systematic protein screening. In the nicotinamide glyco-hydrolase (NADase) assay the hydrolysis activity was dose-dependently increased by the concentration of rCPILE-a, as judged by the mass spectrometry analysis. In addition, the actin monomer of the lysates of Vero and L929 cells were radiolabeled in the presence of [32P]NAD and rCPILE-a. These findings indicated that CPILE-a possesses ADP-ribosylation activity. The culture supernatant of W5052 facilitated the rounding and killing of Vero and L929 cells, but the rCPILE-a or a non-proteolyzed rCPILE-b did not. However, a trypsin-treated rCPILE-b did. Moreover, a mixture of rCPILE-a and the trypsin-treated rCPILE-b enhanced the cell rounding and killing activities, compared with that induced by the trypsin-treated rCPILE-b alone. The injection of the mixture of rCPILE-a and the trypsin-treated rCPILE-b into an ileum loop of rabbits evoked the swelling of the loop and accumulation of the fluid dose-dependently, suggesting that CPILE possesses enterotoxic activity. The evidence presented in this communication will facilitate the epidemiological, etiological, and toxicological studies of C. perfringens food poisoning, and also stimulate studies on the transfer of the toxins’ gene(s) among the Genus Clostridium.
Highlights
Clostridium perfringens is a toxin-producing bacterium, causing gas gangrene and food-borne illnesses in human and digestive diseases in other animals
Anti-alpha toxin and anti-CPE antibodies did not neutralize the cell killing and enterotoxic activity of the strain W5052 culture supernatant. These findings suggested that the strain W5052 produces an unidentified enterotoxin
Since the 9 residual amino-acid sequences remained as unknown genes, these 9 genes were considered to be the candidates for the new enterotoxin gene(s)
Summary
Clostridium perfringens is a toxin-producing bacterium, causing gas gangrene and food-borne illnesses in human and digestive diseases in other animals. C. perfringens produces four typing toxins (alpha, beta, epsilon, and iota) and at least eleven other toxins [1,2,3]. Enterotoxin (CPE) is one of the toxins produced by C. perfringens, evoking diarrhea and the enterotoxin gene is cloned and sequenced [4]. Most CPE-producing C. perfringens belong to type A. Type E C. perfringens produces alpha and iota toxins and leads to antibiotic-associated enterotoxaemia in rabbits and sporadic outbreaks in bovine and ovine species [5]. The production of an iota toxin homologue, iota-like toxin, by C. spiroforme was reported previously [7]. Our survey of the literature found no reports indicating that type E C. perfringens causes any diseases in humans
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