The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity

Martin Trapecar; Thomas Leouffre; Morgan Faure; Henrik Michael Elvang Jensen; Per E. Granum; Avrelija Cencic; Simon P. Hardy

doi:10.1111/j.1600-0463.2011.02797.x

The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity

Martin Trapecar, Thomas Leouffre, Morgan Faure, Henrik Michael Elvang Jensen, Per E. Granum, Avrelija Cencic, Simon P. Hardy

24 Citations (Scopus)

Abstract

Trapecar M, Leouffre T, Faure M, Jensen HE, Granum PE, Cencic A, Hardy SP. The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity. APMIS 2011; 119: 877-84. The use of porcine intestinal cell lines in assessing toxicity of Bacillus cereus probiotics in conjunction with animal challenge trials with toxigenic B. cereus was investigated. Toxigenic and toxin deletion mutants of B. cereus and two probiotic strains (Paciflor and Toyocerin) were examined for bacterial attachment, cytotoxicity and ability to induce nitric oxide as markers of toxicity. Both cytotoxicity and production of nitric oxide were detected in wild-type toxigenic strains and the Paciflor probiotic strain but not Toyocerin. Attachment of B. cereus was low (less than 1%) in all strains. Discrimination between toxigenic B. cereus and the probiotic strains was possible semi-quantitatively via dilution. Despite cytotoxicity in vitro, challenge experiments using 10 ⁸-10 ⁹ spores of the toxigenic B. cereus NVH75/95 in weaned piglets did not induce diarrhoea or intestinal lesions. Thus, the pig small intestinal epithelial intestinal cell line PSI is appropriate for identification of potential toxicity in B. cereus strains and sets a low threshold for risk of enterotoxicity to humans.

Original language	English
Journal	A P M I S. Acta Pathologica, Microbiologica et Immunologica Scandinavica
Volume	119
Issue number	12
Pages (from-to)	877-884
Number of pages	8
ISSN	0903-4641
DOIs	https://doi.org/10.1111/j.1600-0463.2011.02797.x
Publication status	Published - Dec 2011

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Trapecar, M., Leouffre, T., Faure, M., Jensen, H. M. E., Granum, P. E., Cencic, A., & Hardy, S. P. (2011). The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity. A P M I S. Acta Pathologica, Microbiologica et Immunologica Scandinavica, 119(12), 877-884. https://doi.org/10.1111/j.1600-0463.2011.02797.x

The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity. / Trapecar, Martin; Leouffre, Thomas; Faure, Morgan et al.

In: A P M I S. Acta Pathologica, Microbiologica et Immunologica Scandinavica, Vol. 119, No. 12, 12.2011, p. 877-884.

Research output: Contribution to journal › Journal article › Research › peer-review

Trapecar, M, Leouffre, T, Faure, M, Jensen, HME, Granum, PE, Cencic, A & Hardy, SP 2011, 'The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity', A P M I S. Acta Pathologica, Microbiologica et Immunologica Scandinavica, vol. 119, no. 12, pp. 877-884. https://doi.org/10.1111/j.1600-0463.2011.02797.x

Trapecar M, Leouffre T, Faure M, Jensen HME, Granum PE, Cencic A et al. The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity. A P M I S. Acta Pathologica, Microbiologica et Immunologica Scandinavica. 2011 Dec;119(12):877-884. doi: 10.1111/j.1600-0463.2011.02797.x

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abstract = "Trapecar M, Leouffre T, Faure M, Jensen HE, Granum PE, Cencic A, Hardy SP. The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity. APMIS 2011; 119: 877-84. The use of porcine intestinal cell lines in assessing toxicity of Bacillus cereus probiotics in conjunction with animal challenge trials with toxigenic B. cereus was investigated. Toxigenic and toxin deletion mutants of B. cereus and two probiotic strains (Paciflor and Toyocerin) were examined for bacterial attachment, cytotoxicity and ability to induce nitric oxide as markers of toxicity. Both cytotoxicity and production of nitric oxide were detected in wild-type toxigenic strains and the Paciflor probiotic strain but not Toyocerin. Attachment of B. cereus was low (less than 1%) in all strains. Discrimination between toxigenic B. cereus and the probiotic strains was possible semi-quantitatively via dilution. Despite cytotoxicity in vitro, challenge experiments using 10 8-10 9 spores of the toxigenic B. cereus NVH75/95 in weaned piglets did not induce diarrhoea or intestinal lesions. Thus, the pig small intestinal epithelial intestinal cell line PSI is appropriate for identification of potential toxicity in B. cereus strains and sets a low threshold for risk of enterotoxicity to humans.",

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AB - Trapecar M, Leouffre T, Faure M, Jensen HE, Granum PE, Cencic A, Hardy SP. The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity. APMIS 2011; 119: 877-84. The use of porcine intestinal cell lines in assessing toxicity of Bacillus cereus probiotics in conjunction with animal challenge trials with toxigenic B. cereus was investigated. Toxigenic and toxin deletion mutants of B. cereus and two probiotic strains (Paciflor and Toyocerin) were examined for bacterial attachment, cytotoxicity and ability to induce nitric oxide as markers of toxicity. Both cytotoxicity and production of nitric oxide were detected in wild-type toxigenic strains and the Paciflor probiotic strain but not Toyocerin. Attachment of B. cereus was low (less than 1%) in all strains. Discrimination between toxigenic B. cereus and the probiotic strains was possible semi-quantitatively via dilution. Despite cytotoxicity in vitro, challenge experiments using 10 8-10 9 spores of the toxigenic B. cereus NVH75/95 in weaned piglets did not induce diarrhoea or intestinal lesions. Thus, the pig small intestinal epithelial intestinal cell line PSI is appropriate for identification of potential toxicity in B. cereus strains and sets a low threshold for risk of enterotoxicity to humans.

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The use of a porcine intestinal cell model system for evaluating the food safety risk of Bacillus cereus probiotics and the implications for assessing enterotoxigenicity

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