OBJECTIVES: To undertake a multicenter study to evaluate the Biotest legionella urinary antigen enzyme immunoassay (EIA) performance against those EIAs already in use in 14 European laboratories. METHODS: Each laboratory examined urine specimens from appropriate patients using both their current assay and the Biotest EIA. Each examined: a standard panel of 12 coded urine samples (distributed by Biotest); a panel of 10 coded urine samples provided as part of a European external quality assurance (EQA) scheme; urine samples from patients with proven legionnaires' disease (LD); urine samples from patients with pneumonia of microbiologically proven cause other than LD; and urine samples submitted for routine examination. Thus, the performance of the Biotest assay (in comparison with current EIAs), its specificity and utility, and the inter-laboratory agreement were assessed. RESULTS: Inter-laboratory agreement was excellent, with all participants obtaining the expected results for 20 of 22 coded urine specimens. Specificity, determined using 123 specimens from patients with infections of known etiology, was 100%. The Biotest EIA gave positive results in 86% of specimens which had been positive in the laboratories' current EIAs, and in 94.6% of those specimens which were positive for Legionella pneumophila serogroup 1. CONCLUSION: The Biotest EIA is simple to use and specific and the results obtained in different laboratories show excellent agreement. The assay compares well existing EIAs, at least for L. pneumophila serogroup 1
Two proteins were purified from Listeria monocytogenes cell wall using detergent extraction, Superose 6 gel chromatography. Mono Q cation-exchange chromatography and Superose 12 gel chromatography. Proteins were shown to form complexes of ca. 300 kDa and pI 4.7. These complexes could not be dissociated in 6 M urea, however, during SDS-PAGE 79 and 39 kDa monomers were formed. Immunoblot analysis showed that the proteins under investigation were common to all listerial strains tested, but were absent in strains of other bacteria. We propose that the proteins investigated here could serve as immunoserological markers for Listeria.
Introduction. Listeriosis is a foodborne infection, especially dangerous for people in at-risk groups. Susceptibility to listeria infection is determined by a complex of reasons: environmental factors, host immune status, and pathogen virulence. The susceptibility to listeriosis can also be aggravated by previous infections, especially viral infections, which demonstrate a steadily increasing number of identified pathogens.The aim of our study was to present molecular and genetic characterization of pathogens causing sporadic invasive listeriosis in a megalopolis, primarily during the peak of influenza and ARVI incidence.Materials and methods. Listeria monocytogenes isolates were collected from 18 hospitalized patients at hospitals in Moscow, from November 2018 to October 2019. The first comparison group was represented by isolates from food products and fish preserves. The second comparison group included previously examined environmental isolates. The clinical isolates were examined by using multilocus sequence typing techniques, including the standard MLST scheme extended by loci of internalin genes. Isolates of the autochthonous genotype (ST7) were compared through whole-genome sequencing and subsequent analysis of the core genome (cgMLST).Results. In cases of invasive listeriosis, 44% of isolates were isolated from patients with listeriosis; 27% of isolates were obtained from patients with meningitis. L. monocytogenes of phylogenetic lineage II prevailed in these groups of cases that occurred when the epidemic threshold for influenza was crossed during the 2018/2019 season. Listeria pneumonia identified in the senior age group occurred during the season of autumn ARVI and was primarily caused by L. monocytogenes of phylogenetic lineage I. The examination of genomes of ST7 isolates demonstrated identity between the core genomes of bacteria isolated from the mother-infant pair. Out of ST7 food isolates most closely related to the clinical ones was the isolate from meat (23 locus differences, the common deletion in the MFS transporter locus). Analyzing invasive listeriosis, the comparison between the list of the identified genotypes and the data from European countries showed that each country had its own specific range of genotypes, though ST7 was detected in all the examined samples.Conclusions. Along with the monitoring of food manufacturing and storage, timely vaccination against seasonal respiratory infections and use of personal protective equipment in public spaces can reduce the risk of listeriosis incidence in at-risk groups.
Activated charcoal has been previously shown to induce in vitro expression of virulence factors by Listeria monocytogenes. In trying to elucidate the nature of the charcoal action, we found that the treatment of brain heart infusion medium with activated charcoal followed by charcoal removal does not result in an increase of virulence factor expression. At the same time, the addition of fresh charcoal to the charcoal-treated medium induces expression, suggesting that the effect of activated charcoal cannot be explained only by changes in medium composition. In addition, we observed that activated charcoal induced expression of virulence factors even when L. monocytogenes was physically separated from charcoal particles by either a nitrocellulose membrane or a thin layer of agar. We propose that the interaction of charcoal with some listerial product(s) might be responsible for the effect observed.
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