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Abstract
Bacillus cereus is frequently associated with food-borne intoxications, and its emetic toxin cereulide causes emesis and nausea after consumption of contaminated foods. The major source for contamination is found within contaminated raw materials containing the highly chemically resistant cereulide, independent of vegetative bacteria cells. Up to date, non-existing removal strategies for cereulide evoke the question of how the toxin is distributed within a food sample, especially cow milk. Milk samples with different milk fat contents were incubated with purified cereulide, separated by centrifugation into a lipid and an aqueous phase, and cereulide was quantified in both fractions by SIDA-LC-MS/MS. By artificially increasing the milk fat content from 0.5% to 50%, the amount of cereulide recovered in the lipid phase and could be augmented from 13.3 to 78.6%. Further, the ratio of cereulide increased in the lipid phase of milk with additional plant-based lipid (sunflower oil) to 47.8%. This demonstrated a clear affinity of cereulide towards the hydrophobic, lipid phase, aligning with cereulide’s naturally strong hydrophobic properties. Therefore, an intensified cereulide analysis of lipid enriched dairy products to prevent severe cereulide intoxications or cross-contamination in processed foods is suggested.
Highlights
Bacillus cereus is an ubiquitous, endospore forming, facultative anaerobe pathogen, commonly associated with food-borne intoxications, occurring typically in the form of gastrointestinal diseases and emesis [1]
Bacillus cereus is frequently associated with food-borne intoxications, and its emetic toxin cereulide causes emesis and nausea after consumption of contaminated foods
Milk samples with different milk fat contents were incubated with purified cereulide, separated by centrifugation into a lipid and an aqueous phase, and cereulide was quantified in both fractions by SIDA-LC-MS/MS
Summary
Bacillus cereus is an ubiquitous, endospore forming, facultative anaerobe pathogen, commonly associated with food-borne intoxications, occurring typically in the form of gastrointestinal diseases and emesis [1]. Emesis is induced 0.5–6 h after consumption of contaminated products by the preformed emetic toxin cereulide, a cyclic dodecadepsipeptide consisting of twelve alternating α-amino acids and α-hydroxy acids [6]. By recently using cereulide in a porcine model, cereulides ability to cross the blood brain barrier could be established, and a subsequent disturbance of the potassium content in the cerebrospinal fluid was suggested. This might partially explain the cerebral effects reported in human intoxication cases [21]
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