The Life Cycle of Toxoplasma gondii in the Natural Environment

Chapitre 1International audienc

Spatio-temporal dynamics of the environmental contamination by Toxoplasma gondii

La toxoplasmose, dûe au parasite Toxoplasma gondii, est une zoonose dite à cycle complexe car le pathogène fait intervenir plusieurs espèces pour assurer sa transmission. Les félidés sont les hôtes définitifs de T. gondii et, lorsqu’ils sont infectés, peuvent excréter des millions d’oocystes dans l’environnement. L’ensemble des animaux à sang chaud, y compris l’homme, constituent les hôtes intermédiaires. L'infection des différents hôtes s'effectuent par transmission verticale ou via l'ingestion de tissus animaux contaminés ou d'oocystes présents dans l'environnement.Les objectifs de ma thèse étaient i) de mesurer la fréquence et la distribution spatiale des oocystes de T. gondii dans l’environnement en milieu rural, ii) d'estimer la prévalence et la distribution spatiale de l’infection dans la communauté locale de rongeurs, iii) de déterminer les principaux facteurs responsables de la structuration spatiale de la contamination environnementale et enfin, iv) d’évaluer l'importance de l'environnement en tant que source de contamination tant pour les animaux que pour l’homme.Nous avons mis en évidence une forte contamination des sols (29%) distribuée sur l'ensemble de la zone et, avons révélé un gradient spatial similaire de diminution de la contamination avec la distance aux bâtiments au niveau des sols et dans la communauté de rongeurs. Le modèle de simulation multi-agents a permis d'expliciter le rôle prépondérant de la configuration de l'habitat humain, qui de par son effet sur la structuration spatiale des populations de chats domestiques, détermine la fréquence et la distribution des points chauds de contamination. Par conséquent, en milieu rural, l'importante contamination des sols au niveau des fermes suggère que le risque d’infection pour l’homme est élevé, indirectement à travers la consommation de viande issue d’animaux d’élevage infectés, mais aussi directement via l’ingestion d’oocystes présents sur les substrats manipulés lors de diverses activités.Toxoplasmosis, caused by the parasite T. gondii, is a zoonosis with a complex life cycle as the pathogen requires several different species to achieve it cycle. Felids, in particular domestic cats, are the definitive hosts of the parasite and when infected they can shed millions of oocysts in the environment. All warm blooded animals, including humans, are potential intermediate hosts. Host species can be infected through vertical transmission or by ingesting contaminated tissues or oocysts present on environmental substrates.My goals were: I) to precisely measure the frequency and spatial distribution of the environmental contamination to T. gondii in a rural area, ii) to estimate the prevalence and the spatial distribution of the parasite in the local community of rodents, iii) to identify the main factors driving the spatial structure of the environmental contamination and finally, iv) to assess the importance of the environment as a transmission source for animals and humans.First, we found a high frequency of contaminated soil samples (29%) that were largely distributed across the whole area, and, we found a similar spatial gradient of decreasing contamination with increasing distances from buildings for soils and rodents. Altogether, the results obtained allowed to identify and rank the determinants of the spatio-temporal dynamics of the environmental contamination to T. gondii. The agent-based model showed the primary role of the spatial configuration of human habitat, which, through its impact on the spatial structure of domestic cat populations, determines the frequency and distribution of the hot spots of soil contamination. Thus, in rural areas, the high level of contamination within and around agricultural buildings suggests that infection risks for humans are important, either indirectly through the consumption of contaminated meat or directly due to the ingestion of oocysts contaminating earth, water or vegetables

Species or local environment, what determines the infection of rodents by Toxoplasma gondii?

International audienceToxoplasmosis is largely present in rural areas but its spatial distribution in this environment remains poorly known. In particular, it is unclear if areas of high density of cats, the only hosts excreting Toxoplasma gondii, constitute foci of high prevalence. To improve our understanding of the spatial distribution of T. gondii in rural areas, we performed a serological survey in rodents from two villages in France. We trapped 710 rodents including commensal rats and meadow or forest voles and mice. The presence of T. gondii was examined using PCR, mice inoculation and modified agglutination test for antibodies (MAT). We conducted multivariate and discriminant analyses to identify biological, ecological or spatial variables that could explain T. gondii serology in rodents. We then used a logistic regression to assess the relative influence of each explanatory variable. Overall seroprevalence was 4.1%. Commensal-rats were more infected (12.5%) than non-commensal species (3.7%). However, the major determinant of the risk of infection was the distance to the nearest farm (OR = 0.75 for 100 m), which explained the risk in all species or non-commensal species only. We contrast the role of species characteristics and that of the local environment, and discuss the risk of environmental contamination for humans

Spatial distribution of Toxoplasma gondii oocysts in soil in a rural area: Influence of cats and land use.

International audienceToxoplasma gondii is the protozoan parasite responsible for toxoplasmosis, one of the most prevalent zoonoses worldwide. T. gondii infects humans through the ingestion of meat containing bradyzoites or through soil, food or water contaminated with oocysts. Soil contamination with oocysts is increasingly recognized as a major source of infection for humans, but has rarely been quantified directly. In this study, we investigated the spatial pattern of soil contamination with T. gondii over an area of 2.25 km(2) in a rural area of eastern France. The frequency and spatial distribution of T. gondii in soil was analyzed in relation with the factors that could influence the pattern of contamination: cats' frequency and spatial distribution and land use. According to a stratified random sampling Scheme 243 soil samples were collected. The detection of T. gondii oocysts was performed using a recent sensitive method based on concentration and quantitative PCR. Sensitivity was improved by analyzing four replicates at each sampling point. T. gondii was detected in 29.2% of samples. Soil contamination decreased with increasing distance from the core areas of cat home ranges (households and farms). However, it remained high at the periphery of the study site, beyond the boundaries of the largest cat home ranges, and was not related to land use. This pattern of contamination strongly supports the role of inhabited areas which concentrate cat populations as sources of risk for oocyst-induced infection for both humans and animals. Moreover, soil contamination was not restricted to areas of high cat density suggesting a large spatial scale of environmental contamination, which could result from T. gondii oocysts dissemination through rain washing or other mechanisms

Quantitative estimation of the viability of Toxoplasma gondii oocysts in soil.

International audienceToxoplasma gondii oocysts spread in the environment are an important source of toxoplasmosis for humans and animal species. Although the life expectancy of oocysts has been studied through the infectivity of inoculated soil samples, the survival dynamics of oocysts in the environment are poorly documented. The aim of this study was to quantify oocyst viability in soil over time under two rain conditions. Oocysts were placed in 54 sentinel chambers containing soil and 18 sealed water tubes, all settled in two containers filled with soil. Containers were watered to simulate rain levels of arid and wet climates and kept at stable temperature for 21.5 months. At nine sampling dates during this period, we sampled six chambers and two water tubes. Three methods were used to measure oocyst viability: microscopic counting, quantitative PCR (qPCR), and mouse inoculation. In parallel, oocysts were kept refrigerated during the same period to analyze their detectability over time. Microscopic counting, qPCR, and mouse inoculation all showed decreasing values over time and highly significant differences between the decreases under dry and damp conditions. The proportion of oocysts surviving after 100 days was estimated to be 7.4% (95% confidence interval [95% CI] = 5.1, 10.8) under dry conditions and 43.7% (5% CI = 35.6, 53.5) under damp conditions. The detectability of oocysts by qPCR over time decreased by 0.5 cycle threshold per 100 days. Finally, a strong correlation between qPCR results and the dose infecting 50% of mice was found; thus, qPCR results may be used as an estimate of the infectivity of soil samples

Pathobiome diversity and co-infection patterns in a community of rodents

International audienc

Pathobiome diversity and co-infection patterns in a community of rodents

International audienc

Development of a sensitive method for Toxoplasma gondii oocyst extraction in soil.

UMR6249 Chrono-environnement Besançon USC INRAInternational audienceToxoplasmosis is a world-wide infection caused by Toxoplasma gondii. Oocysts disseminated in the environment by infected cats provide a major source of infection for humans and intermediate hosts. The level of soil contamination and the dynamics of this contamination are mostly unknown due to the lack of sensitivity of detection method. Our aim was to improve the detection of T. gondii oocysts in soil samples by comparing three extraction protocols (A, B and C) on unsporulated and sporulated oocysts of different strains and ages, and by testing the effect of sporulation and soil characteristics on oocyst recovery using the most efficient method. The oocyst recovery obtained using protocol C, in which the flotation solution was placed under the sample solution after the dispersion step, was at least ten-fold higher than protocols A and B, in which the sample was just filtered before flotation. The efficiency of protocol C, tested on five artificial soil matrices and four natural soils inoculated with oocysts, was lowest in soils with high proportions of sand. We recommend the protocol C for field investigations, and we advise that results should be interpreted with caution, considering the effect of soil characteristics, especially sand content, on oocyst recovery

Le travail d’encadrement. Quelles évolutions ? Quels parcours ? Actes du séminaire « Âges et Travail », mai 2015

Le travail d’encadrement, choisi pour thème de séminaire 2015 « Âges et Travail » organisé par le Creapt, renvoie à des situations, fonctions, dénominations et positions hiérarchiques très diversifiées. Loin de disparaître, comme pourrait le laisser penser une tendance répandue à la suppression des niveaux hiérarchiques, l’encadrement concerne un nombre de plus en plus élevé de personnes au sein des entreprises, dans la production comme dans les services. Les encadrants sont aux prises avec les multiples tensions d’organisation qui attendent beaucoup d’entre eux. Ils sont responsables du suivi du travail d’une équipe dans plusieurs dimensions : efficacité, santé et sécurité du personnel. Ils ont aussi en charge la production d’indicateurs censés permettre tout à la fois de contrôler le travail et d’en rendre compte pour alimenter les mesures de performance. Ils gèrent encore des aspects relatifs à la réalisation de la production, tout en assurant un travail d’organisation et d’articulation entre différents niveaux de décision. Leur situation est d’autant plus difficile qu’ils sont pris à la fois dans une injonction d’autonomie et dans une forte dépendance sociotechnique aux contraintes parfois rigides. Dans la période actuelle d’intensification du travail, ces questions se posent avec une acuité particulière, mais elles sont encore trop peu étudiées. Qu’en est-il du travail d’encadrement, dans des conditions où les attentes à l’égard de ceux qui l’exercent sont renforcées ? Qu’en est-il de leurs conditions d’emploi, de leur carrière et de leur parcours ? Dans les changements et les mutations des organisations, quel est le rôle de leur expérience

Savoirs partagés

Le partage des savoirs se décline sous différentes facettes dans ce numéro. Qu’il s’agisse de la prise en charge pluridisciplinaire des RPS ou du transfert aux novices des savoirs professionnels, le partage des savoirs est au cœur des pratiques professionnelles. On le retrouve également au centre du travail d’articulation des cadres de proximité dans l’horticulture. Le partage des savoirs entre disciplines permet aussi d’élargir la compréhension du rapport subjectif au travail dans le domaine de la construction au Brésil. Enfin, la fermeture au partage des savoirs peut entraîner de nombreux freins à la reconnaissance par les employeurs de leur responsabilité face aux maladies professionnelles, comme dans le cas des cancers professionnels en France