Your search keyword '"Monique Lejay-Collin"' showing total 11 results

1. Rapid emergence of extensively drug-resistant Shigella sonnei in France

Author

Sophie Lefèvre, Elisabeth Njamkepo, Sarah Feldman, Corinne Ruckly, Isabelle Carle, Monique Lejay-Collin, Laëtitia Fabre, Iman Yassine, Lise Frézal, Maria Pardos de la Gandara, Arnaud Fontanet, and François-Xavier Weill

Subjects

Science

Abstract

There have been increasing reports of extensively drug-resistant (XDR) Shigella sonnei infections in recent years. In this laboratory surveillance study from France, the authors document the rise of XDR isolates from 2005 to 2021 and perform whole genome sequencing to investigate their genomic diversity and evolutionary history.

Published

2023

2. Population structure analysis and laboratory monitoring of Shigella by core-genome multilocus sequence typing

Author

Iman Yassine, Sophie Lefèvre, Elisabeth E. Hansen, Corinne Ruckly, Isabelle Carle, Monique Lejay-Collin, Laëtitia Fabre, Rayane Rafei, Dominique Clermont, Maria Pardos de la Gandara, Fouad Dabboussi, Nicholas R. Thomson, and François-Xavier Weill

Subjects

Science

Abstract

Lab-based surveillance of Shigella has traditionally been based on serotyping but increasing availability of whole genome sequencing could enable higher resolution typing. Here, the authors apply a core genome multilocus sequence typing scheme to Shigella sequence data and describe its population structure.

Published

2022

3. ShigaPass: an in silico tool predicting Shigella serotypes from whole-genome sequencing assemblies

Author

Iman Yassine, Elisabeth E. Hansen, Sophie Lefèvre, Corinne Ruckly, Isabelle Carle, Monique Lejay-Collin, Laetitia Fabre, Rayane Rafei, Maria Pardos de la Gandara, Fouad Daboussi, Ahmad Shahin, François-Xavier Weill, Bactéries pathogènes entériques (BPE), Institut Pasteur [Paris] (IP)-Université Paris Cité (UPCité), Centre National de Référence - National Reference Center Escherichia coli, Shigella et Salmonella (CNR - laboratoire coordonnateur), Lebanese University [Beirut] (LU), Institut Pasteur, Santé Publique France, the Fondation Le Roch-Les Mousquetaires, and E.H. was funded by a Fulbright Research Award.

Subjects

MESH: Multilocus Sequence Typing, whole-genome sequencing, [SDV]Life Sciences [q-bio], MESH: Serotyping, Shigella, MESH: Serogroup, General Medicine, ShigaPass, MESH: Shigella, in silico serotyping, MESH: O Antigens

Abstract

Shigella is one of the commonest causes of diarrhoea worldwide and a major public health problem. Shigella serotyping is based on a standardized scheme that splits Shigella strains into four serogroups and 60 serotypes on the basis of biochemical tests and O-antigen structures. This conventional serotyping method is laborious, time-consuming, impossible to automate, and requires a high level of expertise. Whole-genome sequencing (WGS) is becoming more affordable and is now used for routine surveillance, opening up possibilities for the development of much-needed accurate rapid typing methods. Here, we describe ShigaPass, a new in silico tool for predicting Shigella serotypes from WGS assemblies on the basis of rfb gene cluster DNA sequences, phage and plasmid-encoded O-antigen modification genes, seven housekeeping genes (EnteroBase’s MLST scheme), fliC alleles and clustered regularly interspaced short palindromic repeats (CRISPR) spacers. Using 4879 genomes, including 4716 reference strains and clinical isolates of Shigella characterized with a panel of biochemical tests and serotyped by slide agglutination, we show here that ShigaPass outperforms all existing in silico tools, particularly for the identification of Shigella boydii and Shigella dysenteriae serotypes, with a correct serotype assignment rate of 98.5 % and a sensitivity rate (i.e. ability to make any prediction) of 100 %.

Published

2023

4. Population structure analysis and laboratory monitoring of Shigella with a standardised core-genome multilocus sequence typing scheme

Author

Corinne Ruckly, Laetitia Fabre, Maria Pardos de la Gandara, Elisabeth Elin Hansen, Rayane Rafei, Fouad Dabboussi, Nicholas R. Thomson, Iman Yassine, Isabelle Carle, Dominique Clermont, Monique Lejay-Collin, François-Xavier Weill, and Sophie Lefèvre

Subjects

Genetics, Serotype, Horizontal gene transfer, Population structure, medicine, Bacillary dysentery, Multilocus sequence typing, Shigella, Typing, Biology, medicine.disease_cause, medicine.disease, Genome

Abstract

The laboratory surveillance of bacillary dysentery is based on a standardised Shigella typing scheme that classifies Shigella strains into four serogroups and more than 50 serotypes on the basis of biochemical tests and lipopolysaccharide O-antigen serotyping. Real-time genomic surveillance of Shigella infections has been implemented in several countries, but without the use of a standardised typing scheme. We studied over 4,000 reference strains and clinical isolates of Shigella, covering all serotypes, with both the current serotyping scheme and the standardised EnteroBase core-genome multilocus sequence typing scheme (cgMLST). The Shigella genomes were grouped into eight phylogenetically distinct clusters, within the E. coli species. The cgMLST hierarchical clustering (HC) analysis at different levels of resolution (HC2000 to HC400) recognised the natural groupings for Shigella. By contrast, the serotyping scheme was affected by horizontal gene transfer, leading to a conflation of genetically unrelated Shigella strains and a separation of genetically related strains. The use of this cgMLST scheme will enhance the laboratory surveillance of Shigella infections.

Published

2021

5. Erratum: Global phylogeography and evolutionary history of Shigella dysenteriae type 1

Author

Elisabeth Njamkepo, Nizar Fawal, Alicia Tran-Dien, Jane Hawkey, Nancy Strockbine, Claire Jenkins, Kaisar A. Talukder, Raymond Bercion, Konstantin Kuleshov, Renáta Kolínská, Julie E. Russell, Lidia Kaftyreva, Marie Accou-Demartin, Andreas Karas, Olivier Vandenberg, Alison E. Mather, Carl J. Mason, Andrew J. Page, Thandavarayan Ramamurthy, Chantal Bizet, Andrzej Gamian, Isabelle Carle, Amy Gassama Sow, Christiane Bouchier, Astrid Louise Wester, Monique Lejay-Collin, Marie-Christine Fonkoua, Simon Le Hello, Martin J. Blaser, Cecilia Jernberg, Corinne Ruckly, Audrey Mérens, Anne-Laure Page, Martin Aslett, Peter Roggentin, Angelika Fruth, Erick Denamur, Malabi Venkatesan, Hervé Bercovier, Ladaporn Bodhidatta, Chien-Shun Chiou, Dominique Clermont, Bianca Colonna, Svetlana Egorova, Gururaja P. Pazhani, Analia V. Ezernitchi, Ghislaine Guigon, Simon R. Harris, Hidemasa Izumiya, Agnieszka Korzeniowska-Kowal, Anna Lutyńska, Malika Gouali, Francine Grimont, Céline Langendorf, Monika Marejková, Lorea A.M. Peterson, Guillermo Perez-Perez, Antoinette Ngandjio, Alexander Podkolzin, Erika Souche, Mariia Makarova, German A. Shipulin, Changyun Ye, Helena Žemličková, Mária Herpay, Patrick A. D. Grimont, Julian Parkhill, Philippe Sansonetti, Kathryn E. Holt, Sylvain Brisse, Nicholas R. Thomson, and François-Xavier Weill

Subjects

Microbiology (medical), Immunology, Genetics, Cell Biology, Applied Microbiology and Biotechnology, Microbiology

Published

2016

6. Identification of a group of shigella-like isolates as Shigella boydii 20

Author

Sylvie Issenhuth, Monique Lejay-Collin, Isabelle Carle, Patrick A. D. Grimont, Kaisar A. Talukder, Karine Le Roux, and Francine Grimont

Subjects

Microbiology (medical), Serotype, Shigella boydii, Genotype, Virulence Factors, Antibiotic sensitivity, Virulence, Enterotoxin, medicine.disease_cause, Polymerase Chain Reaction, Ribotyping, Microbiology, Enterotoxins, Escherichia coli, medicine, Humans, Shigella, Serotyping, Dysentery, Bacillary, biology, General Medicine, biology.organism_classification, Antibodies, Bacterial, DNA Fingerprinting, Enterobacteriaceae, Virology, Anti-Bacterial Agents, Bacterial Typing Techniques, DNA Transposable Elements, France, Polymorphism, Restriction Fragment Length

Abstract

Infections by Shigella species are an important cause of diarrhoeal disease worldwide. Of 4198 Shigella isolates received by the French National Reference Centre for Escherichia coli and Shigella, 180 from patients with diarrhoea and dysentery in 2000–2004 did not react with any available polyclonal rabbit antisera used to identify the established Shigella serogroups. This study describes the molecular and phenotypic characteristics of these isolates in seroagglutination tests, molecular serotyping (rfb-RFLP and fliC-RFLP), ribotyping, detection of invasivity and enterotoxins genes, and antibiotic sensitivity. All isolates gave biochemical reactions typical of Shigella boydii, were mannitol-positive and indole-negative. They all carried invasion-associated genes, enterotoxin 2 [ShET-2] and an IS630 sequence. They had a unique ribotype that was distinct from all other Shigella and E. coli patterns. Further characterization by rfb-RFLP clearly distinguished this serogroup from all other Shigella or E. coli O-groups. The fliC-RFLP pattern corresponded to P4, an F-pattern which is associated with 10 different serogroups of S. boydii. A new antiserum prepared against strain 00-977 agglutinated all 180 isolates and cross-agglutination and absorption studies with anti-00-977 serum and anti-CDC 99-4528 (reference for the newly described S. boydii serogroup 20) serum showed identical antigenic structure. Furthermore, strains 00-977 and CDC 99-4528 had the same molecular serotype, ribotype and virulence genes.

Published

2007

7. International nomenclature for Corynebacterium diphtheriae ribotypes

Author

I K Mazurova, Francine Grimont, Androulla Efstratiou, Corinne Ruckly, Béatrice Regnault, Sylvie Martin-Delautre, Monique Lejay-Collin, Aruni De Zoysa, and Patrick A. D. Grimont

Subjects

Corynebacterium diphtheriae, Corynebacteriaceae, biology, General Medicine, biology.organism_classification, Ribotyping, Microbiology, Terminology as Topic, Genotype, Deoxyribonucleases, Type II Site-Specific, Molecular Biology, Nomenclature, Algorithms, Software, Bacteria

Abstract

The nomenclature of Corynebacterium diphtheriae ribotypes is presented. A total of 86 ribotypes obtained after BstEII digestion were given a geographic name chosen to reflect the place where one of the strains was isolated or studied.

Published

2004

8. Genotypic and Phenotypic Characteristics of Corynebacterium diphtheriae Strains Isolated from Patients in Belarus during an Epidemic Period

Author

Francine Grimont, Androulla Efstratiou, Valentina Kolodkina, Leonid P. Titov, Angela Diaconescu, Alina Dronina, Aruni De Zoysa, Constantin Andronescu, Patrick A. D. Grimont, Byanca Marin, and Monique Lejay-Collin

Subjects

DNA, Bacterial, Microbiology (medical), Genotype, Republic of Belarus, Epidemiology, Statistics as Topic, medicine.disease_cause, Ribotyping, Microbiology, Bacteriophage, medicine, Humans, Diphtheria Toxin, Bacteriophage Typing, Phage typing, Corynebacterium diphtheriae, Diphtheria toxin, biology, Toxin, Diphtheria, medicine.disease, biology.organism_classification, Virology, Bacterial Typing Techniques, Phenotype

Abstract

One hundred two Corynebacterium diphtheriae strains (93 of the gravis biotype and nine of the mitis biotype) isolated from clinical cases during the Belarus diphtheria epidemic were characterized by biotyping, toxigenicity testing by the Elek test and an indirect hemagglutination assay, phage typing, and ribotyping. The gravis biotype strains were characterized as high and medium toxin producers, and strains of biotype mitis were characterized as low and medium toxin producers. Most strains (82 of 102) were distributed among five phage types. Seventy-two strains (64 of the gravis biotype and 8 of the mitis biotype) belonged to phage type VI ls5,34add. Hybridization of genomic DNA digested with Bst EII and Pvu II revealed five ribotype patterns, namely, D1, D4, D6, D7, and D13. The majority of gravis biotype strains belonged to ribotypes D1 (49 of 93) and D4 (33 of 93) and included one clonal group of C . diphtheriae . This clone predominated in all regions in Belarus. There was a statistical association between ribotypes and phage types but not between ribotypes and levels of toxin production.

Published

2003

9. Oligonucleotide probe for the visualization of Escherichiacoli/Escherichia fergusonii cells by in situ hybridization:specificity and potential applications

Author

Sylvie Martin-Delautre, Monique Lejay-Collin, Martine Lefevre, Béatrice Regnault, and Patrick A. D. Grimont

Subjects

Escherichia, In situ, Meat, In situ hybridization, Urine, Microbiology, Stain, Species Specificity, Escherichia coli, Humans, Molecular Biology, In Situ Hybridization, Fluorescence, biology, Escherichia fergusonii, General Medicine, Ribosomal RNA, biology.organism_classification, Molecular biology, Enterobacteriaceae, Microscopy, Fluorescence, Biochemistry, Food Microbiology, Female, Oligonucleotide Probes, Water Microbiology, Molecular probe, Oligomer restriction

Abstract

There are several occasions when enumeration of Escherichia coli cells is needed. These include examination of urine specimens and water or food samples. Present methods rely on growth in more or less selective media (colony-forming units on agar or the most probable number method using liquid media). Unfortunately, no really selective medium with 100% efficiency of plating is available for E. coli. A 24-mer oligonucleotide probe (Colinsitu), complementary to a piece of 16S ribosomal ribonucleic acid, has been tested for specifically visualizing E. coli cells by in situ hybridization and epifluorescence microscopy. The fluorescent dye-labeled probe was able to stain cells of E. coli, Shigella spp. and E. fergusonii. Shigella spp. are known to belong to the E. coli genomospecies and E. fergusonii is the nomenspecies closest to E. coli by DNA–DNA hybridization. The probe did not stain any strain of 169 other genomospecies of the family Enterobacteriaceae or of a few other species frequently encountered in the environment. Revivification without cell division allowed the visualization of E. coli cells in contaminated water. In situ hybridization using the Colinsitu probe is a potential tool for the confirmation of (atypical) E. coli in reference centers and the rapid (3–6 h) detection and enumeration of E. coli in urine specimens, contaminated water and food. More work is needed to include in situ hybridization in laboratory routine.

Published

2000

10. Evaluation of CHROMagar STEC and STEC O104 chromogenic agar media for detection of Shiga Toxin-producing Escherichia coli in stool specimens

Author

Corinne Ruckly, François-Xavier Weill, Monique Lejay-Collin, Malika Gouali, Isabelle Carle, Centre National de Référence - National Reference Center Escherichia coli, Shigella et Salmonella (CNR-ESS), Institut Pasteur [Paris] (IP), The French National Reference Center for E. coli,Shigella, and Salmonella is funded by the Institut Pasteur and the Institut de Veille Sanitaire., and Institut Pasteur [Paris]

Subjects

Microbiology (medical), Serotype, Adult, food.ingredient, Adolescent, [SDV]Life Sciences [q-bio], medicine.disease_cause, Sensitivity and Specificity, Microbiology, Agar plate, 03 medical and health sciences, Feces, food, fluids and secretions, Predictive Value of Tests, Bacteriology, medicine, Agar, Humans, Child, Escherichia coli, Escherichia coli Infections, 030304 developmental biology, 0303 health sciences, Bacteriological Techniques, biology, Shiga-Toxigenic Escherichia coli, 030306 microbiology, Chromogenic, Shiga toxin, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses, 3. Good health, Culture Media, Chromogenic Compounds, Child, Preschool, biology.protein, bacteria

Abstract

The performance of CHROMagar STEC and CHROMagar STEC O104 (CHROMagar Microbiology, Paris, France) media for the detection of Shiga toxin-producing Escherichia coli (STEC) was assessed with 329 stool specimens collected over 14 months from patients with suspected STEC infections (June 2011 to August 2012). The CHROMagar STEC medium, after an enrichment broth step, allowed the recovery of the STEC strain from 32 of the 39 (82.1%) Shiga toxin-positive stool specimens, whereas the standard procedure involving Drigalski agar allowed the recovery of only three additional STEC strains. The isolates that grew on CHROMagar STEC medium belonged to 15 serotypes, including the prevalent non-sorbitol-fermenting (NSF) O157:H7, O26:H11, and O104:H4 serotypes. The sensitivity, specificity, and positive and negative predictive values for the CHROMagar STEC medium were between 89.1% and 91.4%, 83.7% and 86.7%, 40% and 51.3%, and 98% and 98.8%, respectively, depending on whether or not stx -negative eae -positive E. coli was considered atypical enteropathogenic E. coli (EPEC) or STEC that had lost Shiga toxin genes during infection. In conclusion, the good performance of CHROMagar STEC agar medium, in particular, the high negative predictive value, and its capacity to identify NSF O157:H7 as well as common non-O157 STEC may be useful for clinical bacteriology, public health, and reference laboratories; it could be used in addition to a method targeting Shiga toxins (detection of stx genes by PCR, immunodetection of Shiga toxins in stool specimens, or Vero cell cytotoxicity assay) as an alternative to O157 culture medium. This combined approach should allow rapid visualization of both putative O157 and non-O157 STEC colonies for subsequent characterization, essential for real-time surveillance of STEC infections and investigations of outbreaks.

Published

2013

11. Endemic, epidemic clone of Salmonella enterica serovar typhi harboring a single multidrug-resistant plasmid in Vietnam between 1995 and 2002

Author

Thi Vinh Nguyen, Francine Grimont, M R Scavizzi, Thi Anh Hong Le, Patrick A. D. Grimont, Thuy Long Hoang, and Monique Lejay-Collin

Subjects

Serotype, Microbiology (medical), Time Factors, Biology, Salmonella typhi, Typhoid fever, Microbiology, Ribotyping, Plasmid, Ampicillin, Drug Resistance, Multiple, Bacterial, medicine, Humans, Typhoid Fever, Phage typing, Errata, Bacteriology, biochemical phenomena, metabolism, and nutrition, medicine.disease, bacterial infections and mycoses, Virology, Electrophoresis, Gel, Pulsed-Field, Multiple drug resistance, Vietnam, Conjugation, Genetic, bacteria, medicine.drug, Plasmids

Abstract

Salmonella enterica serovar Typhi strains resistant to ampicillin, chloramphenicol, tetracyclines, streptomycin, and cotrimoxazole, isolated from sporadic cases and minor outbreaks in Vietnam between 1995 and 2002, were typed and compared. Plasmid fingerprinting, Vi bacteriophage typing, XbaI pulsed-field gel electrophoresis, and PstI ribotyping showed that endemic, epidemic multidrug-resistant typhoid fever was due, for at least 74.1% of the isolates, to one or two clones of serovar Typhi harboring a single resistance plasmid. PstI ribotyping was used as a basic technique to ensure that a serovar Typhi expansion was clonal.

Published

2004