Fiche publication
Date publication
octobre 2019
Journal
Applied and environmental microbiology
Auteurs
Membres identifiés du Cancéropôle Est :
Pr VILLENA Isabelle
Tous les auteurs :
Rousseau A, Escotte-Binet S, La Carbona S, Dumètre A, Chagneau S, Favennec L, Kubina S, Dubey JP, Majou D, Bigot-Clivot A, Villena I, Aubert D
Lien Pubmed
Résumé
is a ubiquitous foodborne protozoan that can infect humans at low dose and displays different prevalences among countries in the world. Ingestion of food or water contaminated with small amounts of oocysts may result in human infection. However, there are no regulations for monitoring oocysts in food, mainly because of a lack of standardized methods to detect them. The objectives of this study were (i) to develop a reliable method, applicable in biomonitoring, for the rapid detection of infectious oocysts by cell culture of their sporocysts combined with quantitative PCR (sporocyst-CC-qPCR) and (ii) to adapt this method to blue and zebra mussels experimentally contaminated by oocysts with the objective to use these organisms as sentinels of aquatic environments. Combining mechanical treatment and bead beating leads to the release of 84% ± 14% of free sporocysts. The sporocyst-CC-qPCR detected fewer than ten infectious oocysts in water within 4 days (1 day of contact and 3 days of cell culture) compared to detection after 4 weeks by mouse bioassay. For both mussel matrices, oocysts were prepurified using a 30% Percoll gradient and treated with sodium hypochlorite before cell culture of their sporocysts. This assay was able to detect as few as ten infective oocysts. This sporocyst-based CC-qPCR appears to be a good alternative to mouse bioassay for monitoring infectious oocysts directly in water and also using biological sentinel mussel species. This method offers a new perspective to assess the environmental risk for human health associated with this parasite. The ubiquitous protozoan is the subject of renewed interest due to the spread of oocysts in water and food causing endemic and epidemic outbreaks of toxoplasmosis in humans and animals worldwide. Displaying a sensitivity close to animal models, cell culture represents a real alternative to assess the infectivity of oocysts in water and in biological sentinel mussels. This method opens interesting perspectives for evaluating human exposure to infectious oocysts in the environment, where oocyst amounts are considered to be very small.
Mots clés
Toxoplasma gondii, biomonitoring, in vitro cell culture, infectivity, mussels, oocysts, qPCR, sporocysts, waterborne pathogens
Référence
Appl Environ Microbiol. 2019 10 15;85(20):