Interest in arcobacters in veterinary and human public health has increased since the first report of the isolation of arcobacters from food of animal origin. Since then, studies worldwide have reported the occurrence of arcobacters on food and in food production animals and have highlighted possible transmission, especially of Arcobacter butzleri, to the human population. In humans, arcobacters are associated with enteritis and septicemia. To assess their clinical relevance for humans and animals, evaluation of potential virulence factors is required. However, up to now, little has been known about the mechanisms of pathogenicity. Because of their close phylogenetic affiliation to the food-borne pathogen Campylobacter and their similar clinical manifestations, the presence of nine putative Campylobacter virulence genes (cadF, ciaB, cj1349, hecA, hecB, irgA, mviN, pldA, and tlyA) previously identified in the recent Arcobacter butzleri ATCC 49616 genome sequence was determined in a large set of human and animal Arcobacter butzleri, Arcobacter cryaerophilus, and Arcobacter skirrowii strains after the development of rapid and accurate PCR assays and confirmed by sequencing and dot blot hybridization.A rcobacters are increasingly being isolated from a wide range of food products all over the world. These Gram-negative bacteria have been classified into the family Campylobacteraceae (35), although a recent annotation of the Arcobacter butzleri genome suggests a closer phylogenetic relation to Sulfurimonas denitrificans and Wolinella succinogenes, both members of the Helicobacteraceae, as well as to the deep-sea vent Epsilonproteobacteria members Sulfurovum and Nitratiruptor (26). At present, 13 Arcobacter species have been characterized, of which 6 were isolated from mammals. In humans, A. butzleri is predominantly associated with enteritis and septicemia (24,30,46), though Arcobacter cryaerophilus and Arcobacter skirrowii have also been isolated from diarrheal stool specimens (21,33,44). The other three species, Arcobacter cibarius (15), Arcobacter thereius (14), and Arcobacter trophiarum (4) are present in farm animals and on food of animal origin but have not yet been isolated from human specimens.Contaminated drinking water is identified as a major source of human Arcobacter infection in developing regions (1), whereas in industrialized countries, infections are assumed to be food-borne. Close contact with pets and person-to-person transmission are the other potential risk factors (9, 36). Arcobacters seem to be commonly present on food of animal origin, with the highest prevalence reported for poultry followed by pork and beef (38,42). The origin of the contamination on poultry products is still debated (39), but for pork and beef, feces transmitted during the slaughter process is regarded as the initial source of contamination (40, 44).The A. butzleri ATCC 49616 genome revealed that this strain has putative virulence determinants such as genes cadF and cj1349, coding for fibronectin binding proteins; the invasi...
Campylobacteriosis is the most frequently reported foodborne disease in the industrialized world, mainly through consumption of contaminated chicken meat. To date, no information is available on the primary infection sources of poultry. In this study, the ability of five Campylobacter jejuni strains with different invasion potential towards Caco-2 cells to survive and replicate in the protozoan Acanthamoeba castellanii was tested under simulated in situ conditions (i.e. chicken broiler houses). Results indicate that environmental conditions play a crucial role in C. jejuni-A. castellanii interactions. Co-culture in general did not result in an increase of either bacteria or amoebae. However, co-culture with Acanthamoeba did result in a delayed decline and an increased long-term survival of Campylobacter. Bacterial strain-specific effects were observed, with higher survival rates for low-invasive strains. The presence of C. jejuni in general did not affect A. castellanii viability, except at 37 1C under microaerobic conditions, where the presence of the reference and low-invasive Campylobacter strains resulted in a significant decline in amoebal viability. Confocal laser scanning microscopy revealed that intra-amoebal campylobacters were not always colocated with acidic organelles, suggesting potential bacterial interference with digestive processes. As Acanthamoeba enhances the persistence of C. jejuni, the presence of the amoeba in broiler house environments may have important implications for the ecology and epidemiology of this food pathogen.
Aspergillus fumigatus and free-living amoebae are common inhabitants of soil. Mechanisms of A. fumigatus to circumvent the amoeba's digestion may facilitate overcoming the vertebrate macrophage defence mechanisms. We performed co-culture experiments using A. fumigatus conidia and the amoeba Acanthamoeba castellanii. Approximately 25% of the amoebae ingested A. fumigatus conidia after 1 h of contact. During intra-amoebal passage, part of the ingested conidia was able to escape the food vacuole and to germinate inside the cytoplasm of A. castellanii. Fungal release into the extra-protozoan environment by exocytosis of conidia or by germination was observed with light and transmission electron microscopy. These processes resulted in structural changes in A. castellanii, leading to amoebal permeabilization without cell lysis. In conclusion, A. castellanii internalizes A. fumigatus conidia, resulting in fungal intracellular germination and subsequent amoebal death. As such, this interaction highly resembles that of A. fumigatus with mammalian and avian macrophages. This suggests that A. fumigatus virulence mechanisms to evade macrophage killing may be acquired by co-evolutionary interactions among A. fumigatus and environmental amoebae.
Free-living protozoa (FLP) are ubiquitous in natural ecosystems where they play an important role in the reduction of bacterial biomass and the regeneration of nutrients. However, it has been shown that some species such as Acanthamoeba castellanii, Acanthamoeba polyphaga, and Tetrahymena pyriformis can act as hosts of pathogenic bacteria. There is a growing concern that FLP might contribute to the maintenance of bacterial pathogens in the environment. In addition to survival and/or replication of bacterial pathogens in FLP, resistance to antimicrobial agents and increased virulence of bacteria after passage through protozoa have been reported. This review presents an overview of FLP in food-associated environments and on foods, and discusses bacterial interactions with FLP, with focus on the foodborne pathogens Campylobacter jejuni, Salmonella spp., Escherichia coli O157:H7, and Listeria monocytogenes. The consequences of these microbial interactions to food safety are evaluated.
The diversity of free-living protozoa in five meat-cutting plants was determined. Light microscopy after enrichment culturing was combined with sequencing of PCR-amplified, denaturing gradient gel electrophoresis (DGGE)-separated 18S rRNA gene fragments, which was used as a fast screening method. The general results of the survey showed that a protozoan community of amoebae, ciliates, and flagellates was present in all of the plants. Protozoa were detected mainly in floor drains, in standing water on the floor, on soiled bars of cutting tables, on plastic pallets, and in out-of-use hot water knife sanitizers, but they were also detected on surfaces which come into direct contact with meat, such as conveyer belts, working surfaces of cutting tables, and needles of a meat tenderizer. After 7 days of incubation at refrigerator temperature, protozoa were detected in about one-half of the enrichment cultures. Based on microscopic observations, 61 morphospecies were found, and Bodo saltans, Bodo spp., Epistylis spp., Glaucoma scintillans, Petalomonas spp., Prodiscophrya collini, and Vannella sp. were the most frequently encountered identified organisms. Sequencing of DGGE bands resulted in identification of a total of 49 phylotypes, including representatives of the Amoebozoa, Chromalveolata, Excavata, Opisthokonta, and Rhizaria. Sequences of small heterotrophic flagellates were affiliated mainly with the Alveolata (Apicomplexa), Stramenopiles (Chrysophyceae), and Rhizaria (Cercozoa). This survey showed that there is high protozoan species richness in meat-cutting plants and that the species included species related to known hosts of food-borne pathogens.
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