A PCR-restriction fragment length polymorphism (RFLP) method was developed in order to screen a large number of strains for impaired adhesion to epithelial cells due to expression of truncated InlA. inlA polymorphism was analyzed by PCR-RFLP in order to correlate inlA PCR-RFLP profiles and production of truncated InlA. Thirty-seven Listeria monocytogenes strains isolated from various sources, including five noninvasive and two invasive reference strains, were screened. Two endonucleases (AluI and Tsp509I) were used, and they generated five composite profiles. Thirteen L. monocytogenes isolates were characterized by two specific PCR-RFLP profiles similar to PCR-RFLP profiles of noninvasive reference strains previously described as strains that produce truncated InlA. Ten of the 13 isolates showed low abilities to invade human epithelial Caco-2 cells. However, 4 of the 13 isolates were able to invade Caco-2 cells like reference strains containing complete InlA. Sequencing of inlA and Western blot analysis confirmed that truncated InlA was expressed in the 10 L. monocytogenes strains which were isolated from food. This PCR-RFLP method allowed us to identify 10 new strains expressing a truncated internalin. Based on the results obtained in this study, the PCR-RFLP method seems to be an interesting method for rapidly screening L. monocytogenes strains deficient in the ability to invade Caco-2 cells when a sizeable number of strains are studied.
Two human faeces carriage isolates of Listeria monocytogenes (H1 and H2) were compared to reference strains (ScottA and LO28) with regard to their lethality in 14-day-old chick embryos, their haemolytic and phospholipase (phosphatidylcholine-phospholipase C and phosphatidylinositol-phospholipase C) activities and their invasiveness towards Caco-2 cells. Experimental infection of chick embryos allowed discrimination of the strains into those exhibiting high virulence (ScottA and H2), those exhibiting slightly attenuated virulence (LO28) and those exhibiting low virulence (H1). A similar percentage mortality and time to death for embryos was observed when they were infected with H2 as was seen with infection by the reference strain ScottA. Therefore, human carriage strain H2 was considered potentially pathogenic. In contrast to H2 and ScottA, H1 exhibited low virulence. Using the tissue-culture cell-line model, it was found that carriage strain H1 was unable to enter Caco-2 cells efficiently, even though it was similar to the virulent strains in terms of the enzymic activities involved in pathogenicity. Detection of the internalins InlA and InlB, involved in the internalization of L. monocytogenes in the host cells, by immunoblot indicated that a truncated form of InlA was produced by H1. Taken together, these data provide a starting point for the study of the behaviour of two types of human faeces carriage strains and their characterization.
Fourteen human carriage Listeria monocytogenes isolates were compared to sporadic and epidemic-associated human strains in order to ascertain the pathogenic behavior of these unrecognized asymptomatic strains. Experimental infection of 14-day-old chick embryos revealed that the majority of the carriage strains were attenuated for virulence. Of the 10 attenuated carriage strains, 5 were affected in their invasion capacities in vitro. Western blot analysis with antibody directed against InlA, the surface protein implicated in the internalization in host cells, allowed correlation between the ability of the carriage strains to enter Caco-2 cells and InlA expression. Indeed, these five carriage strains produced truncated forms of InlA. Four of the five truncated forms of InlA had an apparent molecular mass of 47 kDa. In order to assess the existence of a genetic lineage, partial sequences of inlA gene of these four strains were compared and revealed that they had a high degree of sequence conservation at the gene (99.86%) and amino acid (100%) levels. Comparison of their nucleotide sequences with that of the corresponding segment of inlA from EGD-e and Scott A strains, taken as epidemic references, showed more divergence. Taken together, these observations suggest the presence of specific traits that characterize L. monocytogenes strains isolated during asymptomatic carriage. Some of these traits could provide some explanations about the determinants that make them unable to cause systemic human infection.
To investigate if the primary function of the Agr system of Listeria monocytogenes is to monitor cell density, we followed Agr expression in batch cultures, in which the autoinducer concentration was uniform, and in biofilms. Expression was heterogeneous, suggesting that the primary function of Agr is not to monitor population density.Quorum sensing (QS) is the mechanism by which bacteria secrete signaling molecules called autoinducers that are sensed by neighboring cells in a population (30). The binding of these autoinducers to cognate receptors results in transcriptional regulation of gene expression. So far, for the species Listeria monocytogenes, one QS system, mediated by the agrBDCA operon, has been described (2, 7). Deletion of agrD or agrA results in impairment of major adaptive strategies, such as biofilm development (22, 23) and virulence (2, 21).Historically, the term QS was coined to illustrate that accumulation of autoinducers enables a coordinated control of gene expression resulting in a population-wide phenotype switch when the population reaches a threshold or quorum (6,8,18). However, recent reports indicate that adaptive functions of QS can be diverse and are not limited to population density sensing (20).For example, phenotypic heterogeneity of QS-regulated traits was reported in biofilms. Several subpopulations with distinct phenotypes organize Bacillus subtilis biofilms (13,14). Extracellular DNA release during the sessile growth of Enterococcus faecalis is directed by a fratricidal mechanism triggered by a quorum-responsive subpopulation (26). Heterogeneity was also observed in QS-regulated bioluminescence of Vibrio harveyi (1).Recent reports showed that confocal laser scanning microscopy (CLSM) associated with fluorescent reporter fusions may be used to trace the spatiotemporal expression of specific genes at a single-cell level within the overall biofilm structure (9, 12). When we traced Agr expression in biofilms, we detected green fluorescent protein (GFP) mainly in a network of elongated chains reminiscent of scaffoldings that surrounded densely populated microcolonies (22). This heterogeneous expression was surprising; indeed, maximum expression was expected within microcolonies, where the autoinducer concentration is maximum (19).Thus, the question of whether the function of this QS system was primarily to monitor population density arose. In order to test this hypothesis, a P agr -gfp fusion was integrated upstream of the agr locus of the L. monocytogenes EGD-e genetic background. This construct was designed to develop Agr expression reporters without affecting expression of the downstream agrBDCA operon (22).We followed GFP fluorescence by flow cytometry and microscopy during growth in batch homogenized liquid cultures, which represents environmental conditions prone to facilitate responses to cell density (confined cultures and no diffusion). Cells were collected by centrifugation (10 min at 8,000 ϫ g), washed, and diluted in 150 mM filtered NaCl solution before flow cytometry a...
Listeria monocytogenes is a food-borne, opportunistic, bacterial pathogen causing a wide spectrum of diseases, including meningitis, septicemia, abortion, and gastroenteritis, in humans and animals. Among the 13 L. monocytogenes serovars described, human listeriosis is mostly associated with strains of serovars 4b, 1/2b, and 1/2a. Within the species L. monocytogenes, three phylogenetic lineages are described. Serovar 1/2a belongs to phylogenetic lineage I, while serovars 4b and 1/2b group in phylogenetic lineage II. To explore the role of gene expression in the adaptation of L. monocytogenes strains of these two major lineages to different environments, as well as in virulence, we performed whole-genome expression profiling of six L. monocytogenes isolates of serovars 4b, 1/2b, and 1/2a of distinct origins, using a newly constructed Listeria multigenome DNA array. Comparison of the global gene expression profiles revealed differences among strains. The expression profiles of two strains having distinct 50% lethal doses, as assessed in the mouse model, were further analyzed. Gene ontology term enrichment analysis of the differentially expressed genes identified differences in protein-, nucleic acid-, carbon metabolism-, and virulence-related gene expression. Comparison of the expression profiles of the core genomes of all strains revealed differences between the two lineages with respect to cell wall synthesis, the stress-related sigma B regulon and virulence-related genes. These findings suggest different patterns of interaction with host cells and the environment, key factors for host colonization and survival in the environment.Listeria monocytogenes is a gram-positive, facultative, intracellular bacterium that causes severe food-borne infections, such as gastroenteritis, septicemia, abortion, and meningitis, in humans and animals (60). L. monocytogenes is able to cross the intestinal barrier, the blood-brain barrier, and the fetoplacental barrier and to invade and replicate inside epithelial and professional phagocytic cells. L. monocytogenes is widely present in nature, and it has also been isolated from numerous animals, including cattle, sheep, and goats (21). Furthermore, L. monocytogenes has the important capacity to adapt to and survive in extreme environments, such as high salt concentration (10% NaCl), a broad pH range (from 4.5 to 9.0), and a wide temperature range. Its ability to grow at temperatures between Ϫ1°C and 45°C increases the risk of contamination in dairy products, meats, seafood, and other processed food products via selective enrichment during refrigeration. Listeria can also survive long periods of drying and freezing with subsequent thawing (38, 54). L. monocytogenes is an environmental bacterium living, for example, on decomposing plants. However, the presence of virulence factors, which have most probably been acquired by a common ancestor through horizontal gene transfer (for reviews see references 7 and 56), allows L. monocytogenes to infect humans and other mammalian hosts. Most ...
The resistance to 14 antiseptic-disinfectant and dye compounds of 208 strains of Listeria (132 L. monocytogenes, 63 L. innocua, 8 L. seeligeri, 1 L. ivanovii, 1 L. welshimeri, and 3 Listeria spp.) was tested by the agar-dilution procedure. The Listeria strains were isolated from different varieties of foods, environments of cheese dairies, humans, and wild birds. A total of 14 (6.7%) Listeria strains (12 L. monocytogenes and 2 L. innocua) were resistant to benzalkonium chloride, hexamidine diisethionate, and ethidium bromide. This multiple resistance was observed more frequently from strains of Listeria spp. detected on carcasses of poultry (47%) than strains isolated from human listeriosis cases or carriers (11.5%), red meats (10%), cheeses (5.4%), wild birds (0.9%), and environments of cheese dairies (0%). Among resistant strains, 10 groups of strains (71.5%) were differentiated by serogroup, phage typing, and sensitivity or resistance to cadmium. Extrachromosomal DNA was found in all resistant strains and was transferred at a high frequency among Listeria spp. (8.7 x 10(-6) to 1 x 10(-3) transconjugant CFUs per one donor CFU). These resistances were also transferable between L. monocytogenes and Staphylococcus aureus with similar transfer frequencies (7.8 x 10(-6) to 1 x 10(-4) and between strains of Staphylococcus aureus with similar transfer frequencies from 8 x 10(-7) to 3.3 x 10(-6). These results suggest that emergence of this multiple resistance in Listeria spp. could be due to acquisition of a replicon originating in staphylocci.
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