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3. Bacteriophages in sewage: abundance, roles, and applications

Author

Elisenda Ballesté, Anicet R Blanch, Maite Muniesa, Cristina García-Aljaro, Lorena Rodríguez-Rubio, Julia Martín-Díaz, Miriam Pascual-Benito, and J Jofre

Subjects
Sewage, Aigües residuals, Bacteriophages, General Medicine, Bacteriòfags
Abstract

The raw sewage that flows through sewage systems contains a complex microbial community whose main source is the human gut microbiome, with bacteriophages being as abundant as bacteria or even more so. Phages that infect common strains of the human gut bacteriome and transient bacterial pathogens have been isolated in raw sewage, as have other phages corresponding to non-sewage inputs. Although human gut phages do not seem to replicate during their transit through the sewers, they predominate at the entrance of wastewater treatment plants, inside which the dominant populations of bacteria and phages undergo a swift change. The sheer abundance of phages in the sewage virome prompts several questions, some of which are addressed in this review. There is growing concern about their potential role in the horizontal transfer of genes, including those related with bacterial pathogenicity and antibiotic resistance. On the other hand, some phages that infect human gut bacteria are being used as indicators of fecal/viral water pollution and as source tracking markers and have been introduced in water quality legislation. Other potential applications of enteric phages to control bacterial pathogens in sewage or undesirable bacteria that impede the efficacy of wastewater treatments, including biofilm formation on membranes, are still being researched.

Published
2022
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5. Global phylogeography and ancient evolution of the widespread human gut virus crAssphage

Author

Steven R. Head, Emma Billings, Stephen Wandro, Jane M. Carlton, Alexandra Zhernakova, A. Murat Eren, Zhe Xue Quan, Anders S. Nilsson, Gyu Sung Cho, Udi Qimron, Martin M. Kowalewski, John Shimashita, Gillian A.O. Rice, Frank Møller Aarestrup, Elyse Stachler, Vito Adrian Cantu, Linsey C. Marr, Alessandro Rossi, Angela McCann, Colin Hill, Cristina García-Aljaro, Kristen M. Gulino, David A. Lipson, Rene S. Hendriksen, Bryan A. White, Bas E. Dutilh, Bashir Mukhtar Elwasila, Karla Mazankova, Alexander V. Tyakht, Julia M. Maritz, Ronan Strain, Rodrigo De la Iglesia, Ramy K. Aziz, Kyle Levi, Alan Twaddle, Alejandro Reyes Muñoz, Katelyn McNair, Alejandro A. Vega, Nathaniel J. Dominy, Abigail E. Asangba, Robert Edwards, Rasha Odeh, Olivia D. Nigro, Gunduz Ahmadov, Raúl R. Raya, Nam Nguyen, Charles M. A. P. Franz, Nicole Trefault, Adán Ramírez-Rojas, Michael P. Doane, Randall E. Junge, Patrick A. de Jonge, Jingyuan Fu, Taylor O'Connell, Mike Cranfield, German Tapia, Heikki Hyöty, Nicolás A. Villagra, Cisca Wijmenga, Henrike Zschach, Megan M. Morris, Franklin L. Nobrega, Elena N. Ilina, David Thomas McCarthy, Daniel Cazares, Silvia Monteiro, Lawrence Mugisha, Daniel A. Cuevas, Horst Neve, Przemyslaw Decewicz, John M. Haggerty, Ricardo Santos, Deepak Kumaresan, Shahar Molshanski-Mor, Andrew S. Whiteley, Benjamin Moreira-Grez, Rebecca M. Stumpf, Katrine Whiteson, Holly M. Norman, Jeremy J. Barr, Peter C. Fineran, Jeroen Wagemans, Samuel L. Díaz Muñoz, Kim Reasor, Elizabeth A. Dinsdale, Mitchell T. Irwin, Aaron J. Prussin, Mohammadali Khan Mirzaei, Maite Muniesa, Christelle Desnues, Montserrat Llagostera, Rob Lavigne, Abeer Alassaf, Tess Condeff, Petra Rainetova, María Mercedes Zambrano, Adrian Cazares, Elodie Ghedin, Alexander Kurilshikov, Lukasz Dziewit, Thomas C. Jeffries, Mary Ann Ugochi Ibekwe, Eugenia S. Lisitsyna, Juan Jofre, Pedro J. Torres, Maria Ohaeri, Mariana Piuri, Andrew Oliver, Steven R. Leigh, Ondrej Cinek, Stan J. J. Brouns, Josefa Antón, Pilar Cortés, Kyle Bibby, Lars C. Stene, Pablo Vinuesa, Scott T. Kelley, San Diego State University (SDSU), Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET), Microbes évolution phylogénie et infections (MEPHI), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Institut méditerranéen d'océanologie (MIO), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS), Laboratory of Gene Technology, Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Monash University [Clayton], University Medical Center Groningen [Groningen] (UMCG), Centro de Investigación Oceanográfica en el Pacífico Sur Oriental (COPAS), Universidad de Concepción - University of Concepcion [Chile], Dartmouth College [Hanover], Marine Biological Laboratory (MBL), University of Chicago, Department of Safety and Quality of Fruit and Vegetables, Federal Research Institute for Nutrition and Food, Department of Parasite and Virus Genomics, The Institute for Genomic Research (TIGR), The Scripps Research Institute [La Jolla, San Diego], Danmarks Tekniske Universitet = Technical University of Denmark (DTU), Queen's University [Belfast] (QUB), Hawkesbury Institute for the Environment [Richmond] (HIE), Western Sydney University, CREW - Center for Research on the English-speaking World - EA 4399 (CREW), Université Sorbonne Nouvelle - Paris 3, School of Microbiology, University College Cork (UCC), Université du Cap-Vert, université du Cap-Vert, Department of Microbiology [University of Barcelona], Dept Microbiol & Biotechnol, Max Rubner Inst, Department of Pharmaceutical Biosciences, Uppsala University, University of Manchester [Manchester], Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Getulio Vargas Foundation, Centro Geofísico de Canarias, Instituto Geografico Nacional, Laboratorio de Patogénesis Molecular y Antimicrobianos, Facultad de Medicina , Universidad Andres Bello, University of Illinois, University of Illinois System, National Severe Storms Laboratory (NSSL), National Oceanic and Atmospheric Administration (NOAA), Department of Medical Genetics, HMNC Brain Health, Utrecht University [Utrecht], Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU), Universidad de Concepción [Chile], The SCRIPPS Research Institute (SCRIPPS), University of California [Los Angeles] (UCLA), University of California-University of California, Technical University of Denmark [Lyngby] (DTU), Biomolecular Imaging and Proteomics, National Center for Mass Spectrometry Imaging, Uppsala University, Universidad de Alicante. Departamento de Fisiología, Genética y Microbiología, Ecología Microbiana Molecular, Theoretical Biology and Bioinformatics, Sub Bioinformatics, Groningen Institute for Gastro Intestinal Genetics and Immunology (3GI), Translational Immunology Groningen (TRIGR), and Center for Liver, Digestive and Metabolic Diseases (CLDM)

Subjects
DYNAMICS, Male, BACTERIAL, ACCURACY, Lineage (evolution), Filogeografia, Microbiología, Applied Microbiology and Biotechnology, Genome, Biological Coevolution, MULTIPLE SEQUENCE ALIGNMENT, TRACKING, Feces, Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14], Bacteriophages, Viral, Clade, Phylogeny, ComputingMilieux_MISCELLANEOUS, 2. Zero hunger, 0303 health sciences, Environmental microbiology, [SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE], crAssphage, READ ALIGNMENT, GENOME, Phylogeography, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, Female, Life Sciences & Biomedicine, Primates, Microbiology (medical), Lineage (genetic), Evolution, Immunology, Coronacrisis-Taverne, Microbiota intestinal, BIOLOGY, Biology, Microbiology, Virus, DNA sequencing, Article, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, SDG 3 - Good Health and Well-being, Phylogenetics, Genetics, Animals, Humans, Human virome, ALGORITHM, Microbiome, Genomes, Gastrointestinal microbiome, 030304 developmental biology, [SDV.EE.SANT]Life Sciences [q-bio]/Ecology, environment/Health, Science & Technology, Widespread human gut virus, Bacteroidetes, 030306 microbiology, Genetic Variation, DNA, Cell Biology, biology.organism_classification, Gastrointestinal Microbiome, MICROBIOME, Evolutionary biology, DNA, Viral
Abstract

Microbiomes are vast communities of microorganisms and viruses that populate all natural ecosystems. Viruses have been considered to be the most variable component of microbiomes, as supported by virome surveys and examples of high genomic mosaicism. However, recent evidence suggests that the human gut virome is remarkably stable compared with that of other environments. Here, we investigate the origin, evolution and epidemiology of crAssphage, a widespread human gut virus. Through a global collaboration, we obtained DNA sequences of crAssphage from more than one-third of the world's countries and showed that the phylogeography of crAssphage is locally clustered within countries, cities and individuals. We also found fully colinear crAssphage-like genomes in both Old-World and New-World primates, suggesting that the association of crAssphage with primates may be millions of years old. Finally, by exploiting a large cohort of more than 1,000 individuals, we tested whether crAssphage is associated with bacterial taxonomic groups of the gut microbiome, diverse human health parameters and a wide range of dietary factors. We identified strong correlations with different clades of bacteria that are related to Bacteroidetes and weak associations with several diet categories, but no significant association with health or disease. We conclude that crAssphage is a benign cosmopolitan virus that may have coevolved with the human lineage and is an integral part of the normal human gut virome. ispartof: NATURE MICROBIOLOGY vol:4 issue:10 pages:1727-1736 ispartof: location:England status: published

Published
2019
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6. Editorial: Shiga Toxin-Converting Bacteriophages

Author

Grzegorz, Węgrzyn and Maite, Muniesa

Subjects
Editorial, bacteriophages, enterohemorrhagic Escherichia coli, phage development, phage evolution, Shiga toxin, Microbiology
Published
2021

7. Isolation and Characterization of Shiga Toxin Bacteriophages

Author

Lorena, Rodríguez-Rubio and Maite, Muniesa

Subjects
Shiga-Toxigenic Escherichia coli, Bacteriophages, Real-Time Polymerase Chain Reaction, Escherichia coli Infections, Shiga Toxin
Abstract

Shiga toxin (Stx) phages can be induced from Stx-producing Escherichia coli strains (STEC) or can be isolated as free virions from different samples. Here we describe methods used for the detection, enumeration, and isolation of Stx bacteriophages. Stx phages are temperate phages located in the genome of STEC. Their induction from the host strain cultures is achieved by different inducing agents, mitomycin C being one of the most commonly used. Detection of infectious Stx phages requires the production of visible plaques in a confluent lawn of the host strain using a double agar layer method. However, as the plaques produced by Stx phages are often barely visible and there is a possibility that non-Stx phages can also be induced from the strain, a hybridization step should be added to recognize and properly enumerate the lysis plaques generated after induction. Molecular methods can also be used to identify and enumerate Stx phages. Real-time quantitative PCR (qPCR) is the most accurate method for absolute quantification, although it cannot determine the infectivity of Stx phages. qPCR can also be useful for the detection of free Stx phage virions in different sample types.Stx phages induced from lysogenic bacterial strains can be purified by cesium chloride density gradients; this protocol also helps to specifically discriminate Stx phages from other prophages present in the genome of the host strain by selecting the phages expressing the Stx gene. High titer suspensions of Stx phages obtained after induction of large volumes of bacterial cultures and lysate concentration permits phage characterization by electron microscopy studies and genomic analysis.

Published
2021

8. Modeling human pollution in water bodies using somatic coliphages and bacteriophages that infect Bacteroides thetaiotaomicron strain GA17

Author

Javier Méndez, Maite Muniesa, Elisenda Ballesté, Francisco Lucena, Antonio Monleon, Pere López, Cristina García-Aljaro, Miriam Pascual-Benito, and Anicet R. Blanch

Subjects
Pollution, Environmental Engineering, Strain (chemistry), Somatic cell, Classification procedure, media_common.quotation_subject, Water Pollution, Water, General Medicine, Computational biology, Management, Monitoring, Policy and Law, Biology, biology.organism_classification, Coliphages, Bacteriophage, Bacteroides thetaiotaomicron, Feces, Humans, Bacteriophages, Water Microbiology, Waste Management and Disposal, Microbial source tracking, media_common, Environmental Monitoring
Abstract

The ability to detect human fecal pollution in water is of great importance when assessing the associated health risks. Many microbial source tracking (MST) markers have been proposed to determine the origin of fecal pollution, but their application remains challenging. A range of factors, not yet sufficiently analyzed, may affect MST markers in the environment, such as dilution and inactivation processes. In this work, a statistical framework based on Monte Carlo simulations and non-linear regression was used to develop a classification procedure for use in MST studies. The predictive model tested uses only two parameters: somatic coliphages (SOMCPH), as an index of general fecal pollution, and human host-specific bacteriophages that infect Bacteroides thetaiotaomicron strain GA17 (GA17PH). Taking into account bacteriophage dilution and differential inactivation, the threshold concentration of SOMCPH was calculated to be around 500 PFU/100 mL for a limit of detection of 10 PFU/100 mL. However, this threshold can be lowered by increasing the analyzed volume sample, which in turn lowers the limit of detection. The resulting model is sufficiently accurate for application in practical cases involving MST and could be easily used with markers other than those tested here.

Published
2021

9. Bacteriophages immunomodulate the response of monocytes

Author

Germán Soriano, Silvia Vidal, Pedro Blanco-Picazo, Juan C. Nieto, Lorena Rodríguez-Rubio, Ferran Navarro, Elisabet Cantó, Maite Muniesa, Maria Poca, Carlos Zamora, and Lidia Perea

Subjects
0301 basic medicine, Lipopolysaccharides, Cirrosi hepàtica, Cirrhosis, Neutrophils, viruses, Butanols, Lipopolysaccharide Receptors, Biology, General Biochemistry, Genetics and Molecular Biology, Monocytes, 03 medical and health sciences, Interferon-gamma, 0302 clinical medicine, Immune system, Phagocytosis, Immunity, medicine, Humans, Bacteriophages, Polymyxin B, Original Research, Tumor Necrosis Factor-alpha, cirrhosis, HLA-DR Antigens, medicine.disease, Bacteriòfags, immunity, Phenotype, Interleukin-10, Immunitat, 030104 developmental biology, Hepatic cirrhosis, 030220 oncology & carcinogenesis, Immunology, Function (biology), Biomarkers
Abstract

Bacteriophages are present in fluids from cirrhosis patients. However, their effect on the immune response is unknown. In this work, we explore the role of phages in the phenotype, function, and cytokine production of monocytes. We stimulated healthy monocytes with five different butanol-purified phage suspensions infective for Gram-negative and Gram-positive bacteria. We studied the expression of the monocyte markers involved in lipopolysaccharide recognition (LPS; CD14), antigen presentation (HLA-DR) and co-stimulation (CD86), and the concentration of induced cytokines (TNF-α, IFN-α, and IL-10) by phages. To confirm the direct role of phages without the interference of contaminating soluble LPS in phage suspensions, polymyxin B was added to the cell cultures. Phagocytosis experiments were assessed by flow cytometry using labeled phage suspensions. We observed that butanol-purified phages reduced the surface levels of CD14 and CD86 in monocytes and increased the secreted levels of TNF-α and IL-10 compared with the control sample containing only butanol buffer. All phage suspensions showed downregulation of HLA-DR expression but only Staphylococcus aureus phage contaminated with Escherichia coli reached statistical significance. The addition of polymyxin B did not restore the monocytic response induced by phages, suggesting that the effect was not caused by the presence of LPS. Monocytes were able to phagocyte phages in a dose- and time-dependent manner. To conclude, the phagocytosis of butanol-purified phages altered the phenotype and cytokine production of monocytes suggesting they become tolerogenic.

Published
2021

10. Bacteriophages as fecal pollution indicators

Author

Lorena Rodríguez-Rubio, Daniel Toribio-Avedillo, Anicet R. Blanch, and Maite Muniesa

Subjects
0301 basic medicine, Pollution, Microbiological Techniques, bacteriophages, media_common.quotation_subject, 030106 microbiology, Indicator bacteria, Review, 010501 environmental sciences, Biology, medicine.disease_cause, 01 natural sciences, Microbiology, 03 medical and health sciences, Feces, Virology, medicine, Enumeration, Animals, Humans, Bacteriophages, Escherichia coli, Pathogen, 0105 earth and related environmental sciences, media_common, Environmental Indicators, indicator, Excrements, Bacteriòfags, QR1-502, Infectious Diseases, Contaminació, fecal pollution, Environmental Pollution, Environmental Monitoring
Abstract

Bacteriophages are promising tools for the detection of fecal pollution in different environments, and particularly for viral pathogen risk assessment. Having similar morphological and biological characteristics, bacteriophages mimic the fate and transport of enteric viruses. Enteric bacteriophages, especially phages infecting Escherichia coli (coliphages), have been proposed as alternatives or complements to fecal indicator bacteria. Here, we provide a general overview of the potential use of enteric bacteriophages as fecal and viral indicators in different environments, as well as the available methods for their detection and enumeration, and the regulations for their application.

Published
2021

11. Isolation and Characterization of Shiga Toxin Bacteriophages

Author

Maite Muniesa and Lorena Rodríguez-Rubio

Subjects
Infectivity, 0303 health sciences, biology, 030306 microbiology, Chemistry, viruses, Shiga toxin, biology.organism_classification, medicine.disease_cause, Microbiology, Siphoviridae, 03 medical and health sciences, Transduction (genetics), Podoviridae, hemic and lymphatic diseases, Lysogenic cycle, biology.protein, medicine, Escherichia coli, Prophage, 030304 developmental biology
Abstract

Shiga toxin (Stx) phages can be induced from Stx-producing Escherichia coli strains (STEC) or can be isolated as free virions from different samples. Here we describe methods used for the detection, enumeration, and isolation of Stx bacteriophages. Stx phages are temperate phages located in the genome of STEC. Their induction from the host strain cultures is achieved by different inducing agents, mitomycin C being one of the most commonly used. Detection of infectious Stx phages requires the production of visible plaques in a confluent lawn of the host strain using a double agar layer method. However, as the plaques produced by Stx phages are often barely visible and there is a possibility that non-Stx phages can also be induced from the strain, a hybridization step should be added to recognize and properly enumerate the lysis plaques generated after induction. Molecular methods can also be used to identify and enumerate Stx phages. Real-time quantitative PCR (qPCR) is the most accurate method for absolute quantification, although it cannot determine the infectivity of Stx phages. qPCR can also be useful for the detection of free Stx phage virions in different sample types.Stx phages induced from lysogenic bacterial strains can be purified by cesium chloride density gradients; this protocol also helps to specifically discriminate Stx phages from other prophages present in the genome of the host strain by selecting the phages expressing the Stx gene. High titer suspensions of Stx phages obtained after induction of large volumes of bacterial cultures and lysate concentration permits phage characterization by electron microscopy studies and genomic analysis.

Published
2021
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12. Population genomics and antimicrobial resistance dynamics of Escherichia coli in wastewater and river environments

Author

Natalia Montero, William Calero-Cáceres, Jose F. Delgado-Blas, Cristina M. Ovejero, Maite Muniesa, M. Pilar Garcillán-Barcia, David M. Aanensen, Sophia David, Bruno Gonzalez-Zorn, Fernando de la Cruz, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía y Competitividad (España), European Commission, and Universidad de Cantabria

Subjects
Water microbiology, QH301-705.5, Immunology, Medicine (miscellaneous), Wastewater, Biology, medicine.disease_cause, Antimicrobial resistance, Bacteris, Article, General Biochemistry, Genetics and Molecular Biology, Population genomics, Microbial ecology, 03 medical and health sciences, Antibiotic resistance, Plasmid, Rivers, Drug Resistance, Bacterial, Escherichia coli, medicine, Immunologia, Biology (General), Gene, Bacterial genomics, 030304 developmental biology, Genetics, 0303 health sciences, Resistance (ecology), Bacteria, 030306 microbiology, Aquatic ecosystem, Genetic Variation, 6. Clean water, Anti-Bacterial Agents, Spain, 13. Climate action, Metagenomics, Adaptation, General Agricultural and Biological Sciences, human activities, Genome, Bacterial, Plasmids
Abstract

© The Author(s) 2021., Aquatic environments are key niches for the emergence, evolution and dissemination of antimicrobial resistance. However, the population diversity and the genetic elements that drive the dynamics of resistant bacteria in different aquatic environments are still largely unknown. The aim of this study was to understand the population genomics and evolutionary events of Escherichia coli resistant to clinically important antibiotics including aminoglycosides, in anthropogenic and natural water ecosystems. Here we show that less different E. coli sequence types (STs) are identified in wastewater than in rivers, albeit more resistant to antibiotics, and with significantly more plasmids/cell (6.36 vs 3.72). However, the genomic diversity within E. coli STs in both aquatic environments is similar. Wastewater environments favor the selection of conserved chromosomal structures associated with diverse flexible plasmids, unraveling promiscuous interplasmidic resistance genes flux. On the contrary, the key driver for river E. coli adaptation is a mutable chromosome along with few plasmid types shared between diverse STs harboring a limited resistance gene content., Work carried out in the Institute of Biomedicine and Biotechnology (IBBTEC) was funded by the Ministry of Economy and Competitiveness (grant BFU2017-86378-P). The work was supported by the Spanish Ministry of Economy and Competitiveness (MINECO BES-2015-073164) and the European Union’s Horizon 2020 Research and Innovation Programme (grant 773830, OH-EJP-H2020-JRP-AMR-2-WORLDCOM).

Published
2021

13. Extensive antimicrobial resistance mobilization via multicopy plasmid encapsidation mediated by temperate phages

Author

Lorena Rodríguez-Rubio, Carlos Serna, Manuel Ares-Arroyo, Bosco R Matamoros, Jose F Delgado-Blas, Natalia Montero, Cristina Bernabe-Balas, Emilia F Wedel, Irene S Mendez, Maite Muniesa, Bruno Gonzalez-Zorn

Abstract

Objectives: To investigate the relevance of multicopy plasmids in antimicrobial resistance and assess their mobilization mediated by phage particles Methods: Several databases with complete sequences of plasmids and annotated genes were analysed. The 16S methyltransferase gene armA conferring high-level aminoglycoside resistance was used as a marker in eight different plasmids, from different incompatibility groups, and with differing sizes and plasmid copy numbers. All plasmids were transformed into Escherichia coli bearing one of four different lysogenic phages. Upon induction, encapsidation of armA in phage particles was evaluated using qRT–PCR and Southern blotting. Results: Multicopy plasmids carry a vast set of emerging clinically important antimicrobial resistance genes. However, 60% of these plasmids do not bear mobility (MOB) genes. When carried on these multicopy plasmids, mobilization of a marker gene armA into phage capsids was up to 10000 times more frequent than when it was encoded by a large plasmid with a low copy number. Conclusions: Multicopy plasmids and phages, two major mobile genetic elements (MGE) in bacteria, represent a novel high-efficiency transmission route of antimicrobial resistance genes that deserves further investigation. ARDIG

Published
2020

14. Analysis of a phase-variable restriction modification system of the human gut symbiont Bacteroides fragilis

Author

Nadav Ben-Assa, Richard J. Roberts, Michael J. Coyne, Jonathan Livny, Maite Muniesa, Naama Geva-Zatorsky, Laurie E. Comstock, William P. Robins, Vincent J. Carey, Juan Jofre, Shaqed Carasso, Tal Gefen, and Alexey Fomenkov

Subjects
AcademicSubjects/SCI00010, ADN, Locus (genetics), Genoma humà, Bacteris, Transcriptome, Bacteroides fragilis, 03 medical and health sciences, Mice, Bacterial Proteins, Genetics, Animals, Humans, DNA Restriction-Modification Enzymes, Gene, Molecular Biology, 030304 developmental biology, 0303 health sciences, Human genome, Bacteria, biology, 030302 biochemistry & molecular biology, Bacteroidetes, Promoter, DNA, biology.organism_classification, Gastrointestinal Microbiome, Mutation, Restriction modification system, Single molecule real time sequencing
Abstract

The genomes of gut Bacteroidales contain numerous invertible regions, many of which contain promoters that dictate phase-variable synthesis of surface molecules such as polysaccharides, fimbriae, and outer surface proteins. Here, we characterize a different type of phase-variable system of Bacteroides fragilis, a Type I restriction modification system (R-M). We show that reversible DNA inversions within this R-M locus leads to the generation of eight specificity proteins with distinct recognition sites. In vitro grown bacteria have a different proportion of specificity gene combinations at the expression locus than bacteria isolated from the mammalian gut. By creating mutants, each able to produce only one specificity protein from this region, we identified the R-M recognition sites of four of these S-proteins using SMRT sequencing. Transcriptome analysis revealed that the locked specificity mutants, whether grown in vitro or isolated from the mammalian gut, have distinct transcriptional profiles, likely creating different phenotypes, one of which was confirmed. Genomic analyses of diverse strains of Bacteroidetes from both host-associated and environmental sources reveal the ubiquity of phase-variable R-M systems in this phylum.

Published
2020

15. Efficacy of daily hygiene routine using cleansing wipes in the reduction of eyelid bacterial load

Author

Clara Gómez-Gómez, Javier Méndez, and Maite Muniesa

Abstract

Background- This study aims to evaluate the efficacy of using a cleansing eyelid wipe to reduce microbial load in healthy subjects. Methods- A single-center, prospective study was conducted. Twenty healthy subjects were assigned to wipe their periocular area (eyelid, eyelashes and lid margin) twice a day with a commercial sterile wipe for 5 consecutive days. Bacterial load (total aerobic bacteria and Staphylococcus genus) was recovered from the same wipes and was measured on day 1, 3 and 5, with day 1 serving as an internal control. Both eyes were assessed independently, resulting in a total of 40 samples. Microbial evaluation was performed by culture on Tryptone Soy Agar (TSA) and Mannitol Salt Agar (MSA) plates. Results- Positive and negative controls rendered expected results thus validating this innovative extraction procedure. Microbial growth on both media revealed that the great majority of microorganisms detected belong to the genus Staphylococcus. Bacterial load reduction was significant (Mann-Whitney test p < 0.05) for both microorganisms between days 1 to 3, days 3 to 5 and days 1 to 5. Measurements at day 3 revealed a reduction on bacterial load of total aerobes and Staphylococcus spp. by 58.7% and 56.5% respectively. Moreover, on day 5, bacterial load showed a mean reduction of 80.8% and 82.7% on total aerobes and Staphylococcus spp. respectively. Furthermore, on day 5, 42.5% of the eyes showed ≥ 90% reduction in total aerobes and 42.5% for Staphylococcus spp. On the third day 25% of the volunteers showed ≥ 90% reduction of aerobes microbial load at least in one eye and the percentage was 15% for Staphylococcus spp. On the fifth day those values arise to 50% for total aerobes and 65% for Staphylococcus spp.Conclusions- The study demonstrates the efficacy of the eyelid hygiene with commercial cleansing wipes in significantly reducing (p < 0.05) bacterial load in the periocular area after 3 days of use, with further reduction on the fifth day. Therefore, these wipes could be recommended in situations in which adequate of palpebral hygiene is needed.

Published
2020
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16. Comparison of Commensal and Clinical Isolates for Diversity of Plasmids in Escherichia coli and Klebsiella pneumoniae

Author

Juan José González-López, Judith Rodríguez-Navarro, Paula Espinal, Jordi Vila, Ferran Navarro, Juan Carlos Hurtado, Elisenda Miró, Albert Moreno, Maite Muniesa, and Maryury Brown-Jaque

Subjects
Klebsiella pneumoniae, medicine.disease_cause, beta-Lactamases, plasmid epidemiology, Epidemiology and Surveillance, Microbiology, Feces, 03 medical and health sciences, Plasmid, Antibiotic resistance, Enterobacteriaceae, Bacterial Proteins, Drug Resistance, Bacterial, Escherichia coli, medicine, Humans, Pharmacology (medical), antimicrobial resistance, Replicon, 030304 developmental biology, Pharmacology, 0303 health sciences, biology, 030306 microbiology, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Infectious Diseases, pMLST, replicon, Multilocus Sequence Typing, Plasmids
Abstract

In this study, the plasmid content of clinical and commensal strains was analyzed and compared. The replicon profile was similar in both populations, except for L, M, A/C, and N (detected only in clinical strains) and HI1 (only in commensal strains). Although I1 and F were the most frequent replicons, only IncI1, sequence type 12 (ST12) was associated with bla CMY-2 in both populations. In contrast, the widespread resistant IncF plasmids were not linked to a single epidemic plasmid.

Published
2020
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17. Fast and easy methods for the detection of coliphages

Author

Anicet R. Blanch, Maite Muniesa, Juan Jofre, and Francisco Lucena

Subjects
Microbiology (medical), Microbiological Techniques, 0303 health sciences, Biosolids, biology, 030306 microbiology, Computer science, biology.organism_classification, Microbiology, Coliphages, United States, 03 medical and health sciences, Feces, Risk analysis (engineering), Water Quality, Coliphage, Water quality, United States Environmental Protection Agency, International standardization, Water Microbiology, Molecular Biology, 030304 developmental biology
Abstract

Somatic and F-specific coliphages are gaining ground as indicators of fecal/viral pollution. Guidelines and regulations worldwide for monitoring water, biosolids and food are including them as parameters to assess quality and treatment efficiency. Robust methods to detect and quantify both groups of phages in water samples have been launched by agencies such as the International Standardization Organization (ISO) and the USA Environmental Protection Agency (USEPA). Although these methods have proved readily implementable in routine microbiology laboratories, faster and more user-friendly protocols will be highly welcome if coliphage detection becomes routine in water quality analysis. We here provide an overview of new approaches seeking to facilitate the detection of infectious coliphages included in guidelines and regulations. The improvements achieved suggest that streamlined kits able to provide results in a few hours at very reasonable costs will become available in the near future. The potential of molecular procedures and methods based on microelectronic sensors is also briefly discussed.

Published
2020

18. Beyond the canonical strategies of horizontal gene transfer in prokaryotes

Author

Cristina García-Aljaro, Elisenda Ballesté, and Maite Muniesa

Subjects
0301 basic medicine, Microbiology (medical), Genetics, Bacteria, Gene Transfer, Horizontal, 030106 microbiology, Computational biology, Biology, Microbiology, Interspersed Repetitive Sequences, 03 medical and health sciences, Transduction (genetics), Infectious Diseases, Plasmid, Prokaryotic Cells, Horizontal gene transfer, Mobile genetic elements, Bacterial dna
Abstract

Efforts to identify and characterize strategies for horizontal gene transfer (HGT) in prokaryotes could have overlooked some mechanisms that do not entirely fit in with the canonical ones most often described (conjugation of plasmids, phage transduction and transformation). The difficulty in distinguishing the different HGT strategies could have contributed to underestimate their real extent. Here we review non classical HGT strategies: some that require mobile genetic elements (MGEs) and others independent of MGE. Among those strategies that require MGEs, there is a range of newly reported, hybrid and intermediate MGEs mobilizing only their own DNA, others that mobilize preferentially bacterial DNA, or both. Considering HGT strategies independent of MGE, a few are even not restricted to DNA transfer, but can also mobilize other molecules. This review considers those HGT strategies that are less commonly dealt with in the literature. The real impact of these elements could, in some conditions, be more relevant than previously thought.

Published
2017
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19. The occurrence of antibiotic resistance genes in a Mediterranean river and their persistence in the riverbed sediment

Author

William Calero-Cáceres, Maite Muniesa, Julia Martín-Díaz, and Javier Méndez

Subjects
0301 basic medicine, Pollution, Mediterranean climate, Geologic Sediments, Genes, Viral, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Genetic Vectors, 010501 environmental sciences, Biology, Toxicology, 01 natural sciences, Persistence (computer science), 03 medical and health sciences, Rivers, Abundance (ecology), Drug Resistance, Bacterial, Bacteriophages, Natural reservoir, 0105 earth and related environmental sciences, media_common, Ecology, Aquatic ecosystem, Sediment, General Medicine, Water resources, 030104 developmental biology, Genes, Bacterial, Spain, Seasons
Abstract

The spread of antibiotic resistance genes (ARGs) in the environment is a serious concern. Bacterial ARGs can spread via different mobile genetic elements as phage particles, which thereby emerge as novel vectors for environmental dissemination. To assess how climate events, such as heavy rains or water scarcity, could affect the spread of ARGs, it is necessary to know their prevalence and abundance in aquatic environments as well as the potential reservoirs from which they could become mobile. This study evaluates the occurrence of ARGs in the water and sediment of a Mediterranean river. Six clinically relevant ARGs (blaTEM, blaCTX-M, qnrA, qnrS, mecA and sul1) were quantified by qPCR in the bacterial and phage fractions of 69 water and 70 sediment samples from the River Llobregat (NE Spain), collected during both dry and rainy periods. blaTEM and sul1 were the most prevalent and abundant ARGs; the others were more variable. Significant seasonal differences in ARG prevalences and abundances were observed. Since ARGs were detected in the sediment, the persistence of the most abundant ARGs naturally occurring in that sediment (blaTEM and sul1) was evaluated under three conditions. No ARG inactivation occurred in fresh sediment over 14 days; while the ARGs declined by less than 2 log10 units over 35 days in semi-dry and dry sediment. The occurrence of ARGs in water and sediment is influenced by seasonal conditions and they can be mobilized by bacteria and phage particles. In sediment, ARGs persist for long periods and hence sediment can be a natural reservoir of ARGs, from where they can spread and cause the emergence of new resistant strains.

Published
2017
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20. Are Phages Parasites or Symbionts of Bacteria?

Author

Maite Muniesa, Lorena Rodríguez-Rubio, and Pedro Blanco-Picazo

Subjects
Bacterial lysis, Transduction (genetics), Symbiosis, viruses, Direct observation, CRISPR, Natural enemies, Biology, biology.organism_classification, Antimicrobial, Bacteria, Microbiology
Abstract

Bacteria and phages have co-existed for several billions of years. The direct observation of their relationship, and the evidence that phages cause bacterial lysis and death, has led researchers to believe that phages and bacteria are natural enemies and that phages can be applied as antimicrobial agents. However, phages are also known to provide various benefits for their bacterial hosts, and on many occasions the phage-host interaction resembles a symbiotic relationship. In this chapter, we evaluate findings in different bacterial genera and their associated phages to assess if phages should be considered as bacterial parasites or symbiotic organisms.

Published
2020
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21. Investigation on the evolution of Shiga Toxin-converting phages based on whole genome sequencing

Author

Maite Muniesa, Rosangela Tozzoli, Valeria Michelacci, Paola Chiani, Adán Martínez-Velázquez, Pablo Quirós, Michele Zuppi, and Stefano Morabito

Subjects
Microbiology (medical), Bacterial toxins, Toxines bacterianes, lcsh:QR1-502, Virulence, phages, Genome, Microbiology, lcsh:Microbiology, 03 medical and health sciences, fluids and secretions, STX2, hemic and lymphatic diseases, evolution, Bacteriophages, Haemorrhagic colitis, Gene, 030304 developmental biology, Original Research, Whole genome sequencing, Genetics, 0303 health sciences, biology, 030306 microbiology, Shiga toxin, Genomics, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses, Bacteriòfags, Genòmica, Shiga toxin producing, biology.protein, bacteria, ecology, Stx2, WGS
Abstract

Bacteriophages are pivotal elements in the dissemination of virulence genes. The main virulence determinants of Shiga Toxin producing E. coli, Shiga Toxins (Stx), are encoded by genes localized in the genome of lambdoid bacteriophages. Stx comprise two antigenically different types, Stx1 and Stx2, further divided into subtypes. Among these, certain Stx2 subtypes appear to be more commonly occurring in the most severe forms of the STEC disease, haemorrhagic colitis and haemolytic uremic syndrome (HUS). This study aimed at obtaining insights on the evolution of Stx2 bacteriophages, due to their relevance in public health, and we report here on the analysis of the genomic structure of Stx2 converting phages in relation with the known reservoir of the E. coli strains harboring them. Stx2-converting phages conveying the genes encoding different stx2 subtypes have been isolated from STEC strains and their whole genomes have been sequenced, analyzed and compared to those of other Stx2 phages available in the public domain. The phages' regions containing the stx2 genes have been analyzed in depth allowing to make inference on the possible mechanisms of selection and maintenance of certain Stx2 phages in the reservoir. The "stx regions" of different stx2 gene subtypes grouped into three different evolutionary lines in the comparative analysis, reflecting the frequency with which these subtypes are found in different animal niches, suggesting that the colonization of specific reservoir by STEC strains could be influenced by the Stx phage that they carry. Noteworthy, we could identify the presence of nanS-p gene exclusively in the "stx regions" of the phages identified in STEC strains commonly found in cattle. As a matter of fact, this gene encodes an esterase capable of metabolizing sialic acids produced by submaxillary glands of bovines and present in great quantities in their gastrointestinal tract.

Published
2020

22. Extensive antimicrobial resistance mobilization via multicopy plasmid encapsidation mediated by temperate phages

Author

Natalia Montero, Maite Muniesa, Bosco R. Matamoros, Jose F. Delgado-Blas, Cristina Bernabe-Balas, Bruno Gonzalez-Zorn, Manuel Ares-Arroyo, Irene S Mendez, Emilia F Wedel, Carlos Serna, and Lorena Rodríguez-Rubio

Subjects
Microbiology (medical), Biology, medicine.disease_cause, Bacteris, Marker gene, 03 medical and health sciences, Plasmid, Lysogenic cycle, Drug Resistance, Bacterial, Escherichia coli, medicine, AcademicSubjects/MED00740, Bacteriophages, Pharmacology (medical), Gene, Original Research, 030304 developmental biology, Southern blot, Pharmacology, Genetics, 0303 health sciences, Bacteria, 030306 microbiology, Anti-Bacterial Agents, AcademicSubjects/MED00290, Infectious Diseases, Plasmidis, Mobile genetic elements, AcademicSubjects/MED00230, Low copy number, Plasmids
Abstract

ObjectivesTo investigate the relevance of multicopy plasmids in antimicrobial resistance and assess their mobilization mediated by phage particlesMethodsSeveral databases with complete sequences of plasmids and annotated genes were analysed. The 16S methyltransferase gene armA conferring high-level aminoglycoside resistance was used as a marker in eight different plasmids, from different incompatibility groups, and with differing sizes and plasmid copy numbers. All plasmids were transformed into Escherichia coli bearing one of four different lysogenic phages. Upon induction, encapsidation of armA in phage particles was evaluated using qRT–PCR and Southern blotting.ResultsMulticopy plasmids carry a vast set of emerging clinically important antimicrobial resistance genes. However, 60% of these plasmids do not bear mobility (MOB) genes. When carried on these multicopy plasmids, mobilization of a marker gene armA into phage capsids was up to 10000 times more frequent than when it was encoded by a large plasmid with a low copy number.ConclusionsMulticopy plasmids and phages, two major mobile genetic elements (MGE) in bacteria, represent a novel high-efficiency transmission route of antimicrobial resistance genes that deserves further investigation.

Published
2020
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23. Evaluation of New Components in Modified Scholten's Medium for the Detection of Somatic Coliphages

Author

Daniel Toribio-Avedillo, Javier Méndez, Anicet R. Blanch, and Maite Muniesa

Subjects
0301 basic medicine, Virus Cultivation, Biosolids, biology, Epidemiology, Somatic cell, Health, Toxicology and Mutagenesis, 030106 microbiology, 010501 environmental sciences, Bacterial growth, biology.organism_classification, 01 natural sciences, Coliphages, Dilution, Culture Media, Bacteriophage, 03 medical and health sciences, Virology, Enumeration, Escherichia coli, Coliphage, Bacteriophages, Food science, 0105 earth and related environmental sciences, Food Science
Abstract

Enteric bacteriophages (somatic coliphages, F-specific coliphages or both together) are now recognized as useful viral indicators in water, shellfish, and biosolids and are being progressively included in national and international sanitary regulations. Among them, somatic coliphages have an advantage in that they usually outnumber F-RNA coliphages in water environments. Their enumeration using Modified Scholten’s (MS) media, following the ISO 10705-2 standard for the growth of Escherichia coli host strain WG5, is highly efficient and a common practice worldwide. These media contain a high concentration of nutrients, which may be modified to save costs without loss of bacterial growth host efficiency. This study explored reducing the concentration of nutrients in the current formulation and/or incorporating new components to improve the host bacterial growth and/or the enumeration of somatic coliphages at an affordable analytical cost. A twofold dilution of the original MS media was found not to affect the bacterial growth rate. The addition of combinations of assayed compounds to twofold diluted MS media slightly enhanced its analytical performance without altering bacterial growth. By generating savings in both cost and time while maintaining optimal results, media dilution could be applied to design new simple applications for coliphage enumeration.

Published
2019

24. Bacteriophage Isolation and Characterization: Phages of Escherichia coli

Author

Maite Muniesa and Juan Jofre

Subjects
0303 health sciences, biology, Strain (chemistry), 030306 microbiology, Chemistry, Virulence, medicine.disease_cause, biology.organism_classification, Microbiology, Bacteriophage, Temperateness, 03 medical and health sciences, Lytic cycle, Lysogenic cycle, medicine, Escherichia coli, Bacteria, 030304 developmental biology
Abstract

Here we introduce methods for the detection, enumeration, and isolation of bacteriophages from Escherichia coli. In bacteria, horizontal gene transfer may be mediated by virulent and temperate phages. Strict virulent phages, able to propagate in a suitable strain following the lytic pathway, can be isolated directly from different natural environments. In temperate phages, the lytic cycle must be activated, and phages are detected after their induction. In both cases, detection is based on the production of visible plaques in a confluent lawn of the host strain using a double agar layer method. Further purification and characterization are achieved by density gradients, electron microscopy studies, and genomic analysis. This straightforward methodology can be applied to the detection, enumeration, and isolation of bacteriophages from any bacterial species, using the appropriate host strain, media, and culture conditions.

Published
2019
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25. Bacteriophage Isolation and Characterization: Phages of Escherichia coli

Author

Juan, Jofre and Maite, Muniesa

Subjects
Bacteriolysis, Chlorides, Sewage, Host-Pathogen Interactions, Centrifugation, Density Gradient, Environmental Microbiology, Escherichia coli, Cesium, Bacteriophages, Viral Plaque Assay
Abstract

Here we introduce methods for the detection, enumeration, and isolation of bacteriophages from Escherichia coli. In bacteria, horizontal gene transfer may be mediated by virulent and temperate phages. Strict virulent phages, able to propagate in a suitable strain following the lytic pathway, can be isolated directly from different natural environments. In temperate phages, the lytic cycle must be activated, and phages are detected after their induction. In both cases, detection is based on the production of visible plaques in a confluent lawn of the host strain using a double agar layer method. Further purification and characterization are achieved by density gradients, electron microscopy studies, and genomic analysis. This straightforward methodology can be applied to the detection, enumeration, and isolation of bacteriophages from any bacterial species, using the appropriate host strain, media, and culture conditions.

Published
2019

26. Persistence of naturally occurring antibiotic resistance genes in the bacteria and bacteriophage fractions of wastewater

Author

Maite Muniesa and William Calero-Cáceres

Subjects
0301 basic medicine, Environmental Engineering, 030106 microbiology, Wastewater, medicine.disease_cause, Mesocosm, Microbiology, Persistence (computer science), Bacteriophage, 03 medical and health sciences, Antibiotic resistance, medicine, Bacteriophages, Waste Management and Disposal, Escherichia coli, Water Science and Technology, Civil and Structural Engineering, Bacteria, biology, Ecological Modeling, Drug Resistance, Microbial, biology.organism_classification, Pollution, Anti-Bacterial Agents, Genes, Bacterial, Mobile genetic elements
Abstract

The emergence and prevalence of antibiotic resistance genes (ARGs) in the environment is a serious global health concern. ARGs from bacteria can be mobilized by mobile genetic elements, and recent studies indicate that phages and phage-derived particles, among others, could play a role in the spread of ARGs through the environment. ARGs are abundant in the bacterial and bacteriophage fractions of water bodies and for successful transfer of the ARGs, their persistence in these environments is crucial. In this study, three ARGs (blaTEM, blaCTX-M and sul1) that naturally occur in the bacterial and phage fractions of raw wastewater were used to evaluate the persistence of ARGs at different temperatures (4 °C, 22 °C and 37 °C) and pH values (3, 7 and 9), as well as after various disinfection treatments (thermal treatment, chlorination and UV) and natural inactivation in a mesocosm. Gene copies (GC) were quantified by qPCR; then the logarithmic reduction and significance of the differences between their numbers were evaluated. The ARGs persisted for a long time with minimal reductions after all the treatments. In general, they showed greater persistence in the bacteriophage fraction than in the bacterial fraction. Comparisons showed that the ARGs persisted under conditions that reduced culturable Escherichia coli and infectious coliphages below the limit of detection. The prevalence of ARGs, particularly in the bacteriophage fraction, poses the threat of the spread of ARGs and their incorporation into a new bacterial background that could lead to the emergence of new resistant clones.

Published
2016
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27. F-specific coliphage detection by the Bluephage method

Author

Maite Muniesa, Daniel Toribio-Avedillo, Julia Martín-Díaz, Pedro Blanco-Picazo, and Anicet R. Blanch

Subjects
Environmental Engineering, Lysis, 0208 environmental biotechnology, 02 engineering and technology, 010501 environmental sciences, medicine.disease_cause, Coliphages, 01 natural sciences, Incubation period, Microbiology, Bacteriophage, Feces, Most probable number, Escherichia coli, medicine, Bacteriophages, Coliphage, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, Strain (chemistry), biology, Chemistry, Ecological Modeling, biology.organism_classification, Pollution, 020801 environmental engineering, Salmonella enterica, Water Microbiology
Abstract

F-specific coliphages have been proposed as viral indicators of fecal pollution. These intestinal phages infect cells through the F-pili of the host strains used for their detection, Escherichia coli HS/FAmp in the US-EPA standard method and Salmonella enterica WG49 in the ISO method. The recently designed Bluephage protocol allows the rapid detection of as low as one somatic coliphage in a working day. The current study describes a new Bluephage method designed to exclusively detect F-specific phages. It employs two new host strains, CB14 and CB16, which detect the same number of F-specific phages as their respective parental strains HS and WG49. In the Bluephage method, when the strain is lysed by bacteriophage infection, the yellow medium turns blue. As low as one F-specific phage was detected in 3 to 5 hours by this approach and when the sample contained high phage concentrations, results were obtained in less than 3 hours. The F-specific Bluephage method can be used with different sample volumes and allows phage quantification by the most probable number technique. Strain CB14 performed more consistently than CB16, with comparable detection efficiency after increasing the incubation time to 50 minutes without shaking.

Published
2020
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28. Infectious phage particles packaging antibiotic resistance genes found in meat products and chicken feces

Author

Maite Muniesa, Pedro Blanco-Picazo, Maryury Brown-Jaque, Lorena Rodríguez-Rubio, Clara Gómez-Gómez, Pablo Quirós, Marta Cerdà-Cuéllar, Producció Animal, and Sanitat Animal

Subjects
0301 basic medicine, Food Safety, Genes, Viral, lcsh:Medicine, Microorganismes, medicine.disease_cause, Antimicrobial resistance, chemistry.chemical_compound, Feces, Bacteriophages, lcsh:Science, Multidisciplinary, biology, Seguretat alimentària, Escherichia coli Proteins, food and beverages, Bacteriòfags, Anti-Bacterial Agents, Meat Products, Meat, 030106 microbiology, Pollastres, Article, beta-Lactamases, Microbiology, 03 medical and health sciences, Antibiotic resistance, Drug Resistance, Bacterial, medicine, Escherichia coli, Animals, Gene, Resistència als medicaments, Host (biology), lcsh:R, Food security, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses, biology.organism_classification, 030104 developmental biology, chemistry, Genes, Bacterial, DNA, Viral, lcsh:Q, Cattle, Chickens, Bacteria, DNA, Antibiotic resistance genes
Abstract

This work was supported by the Spanish Ministerio de Innovación y Ciencia (AGL2016-75536-P), the Agencia Estatal de Investigación (AEI) and the European regional fund (ERF), the Generalitat de Catalunya (2017SGR170) and the Centre de Referència en Biotecnologia (XeRBa). CERCA Programme from the Generalitat de Catalunya is also acknowledged. M.B.-J. has a grant from COLCIENCIAS (Republic of Colombia). P.B.-P. has a grant from the Spanish Ministry of Economy, Industry and Competitiveness (BES-2017-081296). L.R.-R. is supported by the Beatriu de Pinos postdoctoral programme of the Government of Catalonia's Secretariat for Universities and Research of the Ministry of Economy and Knowledge. Altres ajuts: MICITT/AGL2016-75536-P Bacteriophages can package part of their host's genetic material, including antibiotic resistance genes (ARGs), contributing to a rapid dissemination of resistances among bacteria. Phage particles containing ARGs were evaluated in meat, pork, beef and chicken minced meat, and ham and mortadella, purchased in local retailer. Ten ARGs (bla, bla, bla, bla, bla, qnrA, qnrS, mecA, armA and sul1) were analyzed by qPCR in the phage DNA fraction. The genes were quantified, before and after propagation experiments in Escherichia coli, to evaluate the ability of ARG-carrying phage particles to infect and propagate in a bacterial host. According to microbiological parameters, all samples were acceptable for consumption. ARGs were detected in most of the samples after particle propagation indicating that at least part of the isolated phage particles were infectious, being sul1the most abundant ARG in all the matrices followed by β-lactamase genes. ARGs were also found in the phage DNA fraction of thirty-seven archive chicken cecal samples, confirming chicken fecal microbiota as an important ARG reservoir and the plausible origin of the particles found in meat. Phages are vehicles for gene transmission in meat that should not be underestimated as a risk factor in the global crisis of antibiotic resistance.

Published
2019

30. Faecal phageome of healthy individuals: presence of antibiotic resistance genes and variations caused by ciprofloxacin treatment

Author

Dietmar Fernández-Orth, Paula Espinal, Ferran Navarro, Elisenda Miró, Maryury Brown-Jaque, Maite Muniesa, Juan José González-López, Judith Rodríguez-Navarro, and Lorena Rodríguez-Rubio

Subjects
Adult, 0301 basic medicine, Microbiology (medical), 030106 microbiology, Myoviridae, Drug resistance, Siphoviridae, Real-Time Polymerase Chain Reaction, Microbiology, law.invention, Bacteriophage, Feces, 03 medical and health sciences, 0302 clinical medicine, Plasmid, Caudovirales, Ciprofloxacin, law, Drug Resistance, Bacterial, Humans, Bacteriophages, Pharmacology (medical), 030212 general & internal medicine, Polymerase chain reaction, Aged, Pharmacology, biology, High-Throughput Nucleotide Sequencing, Middle Aged, biology.organism_classification, Biota, Healthy Volunteers, Anti-Bacterial Agents, Infectious Diseases, Genes, Bacterial, DNA, Viral, Mobile genetic elements
Abstract

Objectives Antimicrobial resistance genes (ARGs) can be transferred by means of mobile genetic elements, which play a critical role in the dissemination of resistance in the bacterial community. ARG transmission within mobile genetic elements has been reported in plasmids and transposons but less frequently in bacteriophages. Here, the bacteriophage fraction of seven human faecal samples was purified and deep-sequenced to detect the presence of ARGs in the phage particles. Methods Seven faecal samples (five from healthy individuals and two from a patient before and after receiving ciprofloxacin treatment) were used to extract phage DNA, which was purified and then sequenced in a MiSeq (Illumina). Generated reads were checked for quality and assembled, and then the generated contigs analysed with Kraken, PHASTER, VirSorter and Prokka. Some genes were also validated by quantitative PCR. Results Analysis of the purified phage DNA by Kraken identified from 4 to 266 viruses in the samples. The viral fraction corresponded mainly to the order Caudovirales, including phages from the Siphoviridae and Myoviridae families. Bacterial genes associated with antimicrobial resistance were detected in the viral DNA, as confirmed by quantitative PCR. Higher densities of ARG-carrying phage particles were observed in the post- versus pre-ciprofloxacin treatment sample. Conclusions The finding of ARGs in phage particles supports the description of phages as mobile elements contributing to the dissemination of bacterial antibiotic resistance and suggests ciprofloxacin treatment may play a role in the release of ARG-carrying particles, thereby increasing resistance.

Published
2019

31. Modulation of Enterohaemorrhagic

Author

Grégory, Jubelin, Mickaël, Desvaux, Stephanie, Schüller, Lucie, Etienne-Mesmin, Maite, Muniesa, and Stéphanie, Blanquet-Diot

Subjects
virulence factors, EHEC, Review, in vitro GI models
Abstract

Enterohaemorrhagic Escherichia coli (EHEC) is a major foodborne pathogen responsible for human diseases ranging from diarrhoea to life-threatening complications. Survival of the pathogen and modulation of virulence gene expression along the human gastrointestinal tract (GIT) are key features in bacterial pathogenesis, but remain poorly described, due to a paucity of relevant model systems. This review will provide an overview of the in vitro and in vivo studies investigating the effect of abiotic (e.g., gastric acid, bile, low oxygen concentration or fluid shear) and biotic (e.g., gut microbiota, short chain fatty acids or host hormones) parameters of the human gut on EHEC survival and/or virulence (especially in relation with motility, adhesion and toxin production). Despite their relevance, these studies display important limitations considering the complexity of the human digestive environment. These include the evaluation of only one single digestive parameter at a time, lack of dynamic flux and compartmentalization, and the absence of a complex human gut microbiota. In a last part of the review, we will discuss how dynamic multi-compartmental in vitro models of the human gut represent a novel platform for elucidating spatial and temporal modulation of EHEC survival and virulence along the GIT, and provide new insights into EHEC pathogenesis.

Published
2018

32. Heterogeneity in phage induction enables the survival of the lysogenic population

Author

Maite Muniesa, Alexandre Martínez-Castillo, Elisenda Ballesté, Lejla Imamovic, and Cristina García-Aljaro

Subjects
0301 basic medicine, education.field_of_study, biology, viruses, Population, Shiga toxin, biochemical phenomena, metabolism, and nutrition, medicine.disease_cause, Microbiology, Temperateness, 03 medical and health sciences, 030104 developmental biology, Lytic cycle, Lysogen, Lysogenic cycle, biology.protein, medicine, bacteria, education, Escherichia coli, rpoS, Ecology, Evolution, Behavior and Systematics
Abstract

Lysogeny by temperate phages provides novel functions for bacteria and shelter for phages. However, under conditions that activate the phage lytic cycle, the benefit of lysogeny becomes a paradox that poses a threat for bacterial population survival. Using Escherichia coli lysogens for Shiga toxin (Stx) phages as model, we demonstrate how lysogenic bacterial populations circumvent extinction after phage induction. A fraction of cells maintains lysogeny, allowing population survival, whereas the other fraction of cells lyse, increasing Stx production and spreading Stx phages. The uninduced cells were still lysogenic for the Stx phage and equally able to induce phages as the original cells, suggesting heterogeneity of the E. coli lysogenic population. The bacterial population can modulate phage induction under stress conditions by the stress regulator RpoS. Cells overexpressing RpoS reduce Stx phage induction and compete with and survive better than cells with baseline RpoS levels. Our observations suggest that population heterogeneity in phage induction could be widespread among other bacterial genera and we propose this is a mechanism positively selected to prevent the extinction of the lysogenic population that can be modulated by environmental conditions.

Published
2016
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33. Free Shiga toxin 1-encoding bacteriophages are less prevalent than Shiga toxin 2 phages in extraintestinal environments

Author

Maite Muniesa, Alexandre Martínez-Castillo, Ferran Grau-Leal, and Pablo Quirós

Subjects
Infectivity, biology, viruses, Shiga toxin, medicine.disease_cause, Microbiology, Virology, chemistry.chemical_compound, fluids and secretions, chemistry, Lytic cycle, STX2, biology.protein, medicine, Gene, Soil microbiology, Escherichia coli, Ecology, Evolution, Behavior and Systematics, DNA
Abstract

Stx bacteriophages are involved in the pathogenicity of Stx-producing Escherichia coli. Induction of the Stx phage lytic cycle increases Stx expression and releases Stx phages that reach extracellular environments. Stx phage family comprises different phages that harbour any stx subtype. Stx2 is closely related with severe disease and therefore previous studies focused on free Stx2 phages in extraintestinal environments. To provide similar information regarding Stx1 phages, we evaluate free Stx1 phages in 357 samples of human and animal wastewater, faeces, river water, soil, sludge and food. Our method, based on quantification of stx1 in the DNA from the viral fraction, was validated using electron microscopy counting of phages and infectivity. The overall prevalence of Stx1 phages was very low: 7.6% of positive samples and values below 3 × 10(3) GC (gene copies) ml(-1) . These results contrast starkly with the abundance of Stx2 phages in the samples (68.4%). This environmental scarcity of free Stx1 phages is attributed to their lower rates of induction and the fact that Stx1 does not require phage induction to be expressed because it possesses an independent promoter. The implications of the low prevalence of free Stx1 phages for the emergence of new pathogenic strains in the environment are discussed.

Published
2015
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34. BaeSR, Involved in Envelope Stress Response, Protects against Lysogenic Conversion by Shiga Toxin 2-Encoding Phages

Author

Maite Muniesa, Alexandre Martínez-Castillo, Carmen Benavides, and Lejla Imamovic

Subjects
viruses, Immunology, Mutant, medicine.disease_cause, Coliphages, Shiga Toxin 2, Microbiology, law.invention, Bacterial Proteins, Lysogen, Multienzyme Complexes, Stress, Physiological, STX2, law, Lysogenic cycle, Gene expression, Phosphoprotein Phosphatases, medicine, Lysogeny, Escherichia coli, Genetics, Shiga-Toxigenic Escherichia coli, biology, Escherichia coli Proteins, Gene Transfer Techniques, Shiga toxin, Bacterial Infections, Infectious Diseases, Trans-Activators, biology.protein, Recombinant DNA, Parasitology, Protein Kinases, Bacterial Outer Membrane Proteins, Signal Transduction, Transcription Factors
Abstract

Infection and lysogenic conversion with Shiga toxin-encoding bacteriophages (Stx phages) drive the emergence of new Shiga toxin-producing Escherichia coli strains. Phage attachment to the bacterial surface is the first stage of phage infection. Envelope perturbation causes activation of envelope stress responses in bacterial cells. Although many external factors are known to activate envelope stress responses, the role of these responses in the phage-bacterium interaction remains unexplored. Here, we investigate the link between three envelope signaling systems in E. coli (RcsBC, CpxAR, and BaeSR) and Stx2 phage infection by determining the success of bacterial lysogenic conversion. For this purpose, E. coli DH5α wild-type (WT) and mutant strains lacking RcsBC, CpxAR, or BaeSR signaling systems were incubated with a recombinant Stx2 phage (933W). Notably, the number of lysogens obtained with the BaeSR mutant was 5 log 10 units higher than with the WT, and the same differences were observed when using 7 different Stx2 phages. To assess whether the membrane receptor used by Stx phages, BamA, was involved in the differences observed, bamA gene expression was monitored by reverse transcription-quantitative PCR (RT-qPCR) in all host strains. A 4-fold-higher bamA expression level was observed in the BaeSR mutant than in the WT strain, suggesting that differential expression of the receptor used by Stx phages accounted for the increase in the number of lysogenization events. Establishing the link between the role of stress responses and phage infection has important implications for understanding the factors affecting lysogenic conversion, which drives the emergence of new pathogenic clones.

Published
2015
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35. Predicting fecal sources in waters with diverse pollution loads using general and molecular host-specific indicators and applying machine learning methods

Author

Lluís A. Belanche-Muñoz, David Sánchez, Arnau Casanovas-Massana, Maite Muniesa, Marta Gómez-Doñate, Anicet R. Blanch, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, and Universitat Politècnica de Catalunya. SOCO - Soft Computing

Subjects
Pollution, Microbial source tracking, Informàtica::Intel·ligència artificial::Aprenentatge automàtic [Àrees temàtiques de la UPC], Environmental Engineering, media_common.quotation_subject, Aigua -- Contaminació, Fecal pollution, Management, Monitoring, Policy and Law, Biology, Real-Time Polymerase Chain Reaction, Machine learning, computer.software_genre, Coliphages, Feces, Artificial Intelligence, Aprenentatge automàtic, Bacteroides, Bacteriophages, Waste Management and Disposal, Host specific, media_common, Bifidobacterium, Desenvolupament humà i sostenible::Degradació ambiental::Contaminació de l’aigua [Àrees temàtiques de la UPC], Bacterial pollution of water, Bacteria, business.industry, Water Pollution, General Medicine, Contamination, biology.organism_classification, Bifidobacterium dentium, Fecal coliform, Water -- Pollution, Genetic marker, Artificial intelligence, Water Microbiology, business, computer, Software, Environmental Monitoring
Abstract

In this study we use a machine learning software (Ichnaea) to generate predictive models for water samples with different concentrations of fecal contamination (point source, moderate and low). We applied several MST methods (host-specific Bacteroides phages, mitochondrial DNA genetic markers, Bifidobacterium adolescentis and Bifidobacterium dentium markers, and bifidobacterial host-specific qPCR), and general indicators (Escherichia colt, enterococci and somatic coliphages) to evaluate the source of contamination in the samples. The results provided data to the Ichnaea software, that evaluated the performance of each method in the different scenarios and determined the source of the contamination. Almost all MST methods in this study determined correctly the origin of fecal contamination at point source and in moderate concentration samples. When the dilution of the fecal pollution increased (below 3 log(10) CPU E. coli/100 ml) some of these indicators (bifidobacterial host-specific qPCR, some mitochondrial markers or B. dentium marker) were not suitable because their concentrations decreased below the detection limit. Using the data from source point samples, the software Ichnaea produced models for waters with low levels of fecal pollution. These models included some MST methods, on the basis of their best performance, that were used to determine the source of pollution in this area. Regardless the methods selected, that could vary depending on the scenario, inductive machine learning methods are a promising tool in MST studies and may represent a leap forward in solving MST cases.

Published
2015
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36. Spread of bacterial genomes in packaged particles

Author

Maryury Brown-Jaque, Maite Muniesa, and Pablo Quirós

Subjects
0301 basic medicine, Microbiology (medical), Genetics, Bacteria, Gene Transfer, Horizontal, Genetic Vectors, Bacterial genome size, Biology, biology.organism_classification, Microbiology, 03 medical and health sciences, 030104 developmental biology, Horizontal gene transfer, Humans, Bacteriophages, Mobile genetic elements, Genome, Bacterial
Abstract

Department of Microbiology, University of Barcelona, Diagonal 645, Annex, Floor 0, 08028 Barcelona, Spain *Author for correspondence: Tel.: +34 93 403 9386; Fax: +34 93 403 9047; mmuniesa@ub.edu

Published
2016
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37. Closed genome and comparative phylogenetic analysis of the clinical multidrug resistant Shigella sonnei strain 866

Author

Anna Allué-Guardia, Maite Muniesa, Mark Eppinger, Sara S. K. Koenig, James L. Bono, Pablo Quirós, and Universitat de Barcelona

Subjects
0301 basic medicine, DNA, Bacterial, Tetracycline, 030106 microbiology, Shigella sonnei, Biology, medicine.disease_cause, Infections, Bacteris, Microbiology, 03 medical and health sciences, Plasmid, Antibiotic resistance, Drug Resistance, Multiple, Bacterial, Genetics, medicine, Humans, Shigella, Genomes, Escherichia coli, Ecology, Evolution, Behavior and Systematics, Phylogeny, Dysentery, Bacillary, Resistència als medicaments, whole genome sequencing, Bacteria, Shigella sonnei strain 866, Infeccions, 3. Good health, Anti-Bacterial Agents, Genome Report, Multiple drug resistance, 030104 developmental biology, Drug resistance, Mobile genetic elements, comparative phylogenomics, multidrug resistance (MDR), Genome, Bacterial, medicine.drug, Plasmids
Abstract

Shigella sonnei is responsible for the majority of shigellosis infections in the US with over 500,000 cases reported annually. Here, we present the complete genome of the clinical multidrug resistant (MDR) strain 866, which is highly susceptible to bacteriophage infections. The strain has a circular chromosome of 4.85 Mb and carries a 113 kb MDR plasmid. This IncB/O/K/Z-type plasmid, termed p866, confers resistance to five different classes of antibiotics including ß-lactamase, sulfonamide, tetracycline, aminoglycoside, and trimethoprim. Comparative analysis of the plasmid architecture and gene inventory revealed that p866 shares its plasmid backbone with previously described IncB/O/K/Z-type Shigella spp. and Escherichia coli plasmids, but is differentiated by the insertion of antibiotic resistance cassettes, which we found associated with mobile genetic elements such as Tn3, Tn7, and Tn10. A whole genome-derived phylogenetic reconstruction showed the evolutionary relationships of S. sonnei strain 866 and the four established Shigella species, highlighting the clonal nature of S. sonnei.

Published
2018

38. Antibiotic resistance genes in phage particles isolated from human faeces and induced from clinical bacterial isolates

Author

Maite Muniesa, Elisenda Miró, William Calero-Cáceres, Ferran Navarro, Paula Espinal, Maryury Brown-Jaque, Thais Cornejo, Juan José González-López, Judith Rodríguez-Navarro, Juan Carlos Hurtado, and Universitat de Barcelona

Subjects
Male, 0301 basic medicine, Klebsiella pneumoniae, Antibiotic resistance, Antibiotics, medicine.disease_cause, Bacteriophage, Feces, Bacteriophages, Pharmacology (medical), Child, Aged, 80 and over, Faeces, General Medicine, Horizontal gene transfer, Middle Aged, Bacteriòfags, Healthy Volunteers, Infectious Diseases, Child, Preschool, Female, Sample collection, Adult, Microbiology (medical), Adolescent, medicine.drug_class, 030106 microbiology, Antibiòtics, Biology, Real-Time Polymerase Chain Reaction, Microbiology, Young Adult, 03 medical and health sciences, Transduction, Drug Resistance, Bacterial, Escherichia coli, medicine, Humans, Gene, Aged, Resistència als medicaments, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, bacterial infections and mycoses, 030104 developmental biology, Genes, Bacterial, Drug resistance, DNA, Viral
Abstract

Phage particles have emerged as elements with the potential to mobilise antibiotic resistance genes (ARGs) in different environments, including the intestinal habitat. This study aimed to determine the occurrence of ARGs in phage particles present in faecal matter and induced from strains isolated from faeces. Nine ARGs (bla(TEM), bla(CTX-M-1 group), bla(CTX-M-9 group), bla(OXA-48), qnrA, qnrS, mecA, sul1 and armA) were quantified by qPCR in the phage DNA fractions of 150 faecal samples obtained from healthy individuals who had not received antibiotic treatment or travelled abroad in the 3 months prior to sample collection. On the suspicion that the detected particles originated from bacterial flora, 82 Escherichia coli and Klebsiella pneumoniae isolates possessing at least one identified ARG (bla(TEM), bla(CTX-M-1 group), bla(CTX-M-9 group), armA, qnrA, qnrS and sul1) were isolated and their capacity to produce phage particles carrying these ARGs following induction was evaluated. Of 150 samples, 72.7% were positive for at least one ARG, with bla(TEM) and bla(CTX-M-9 group) being the most prevalent and abundant. Of the 82 isolates, 51 (62%) showed an increase in the number of copies of the respective ARG in the phage fraction following induction, with bla(TEM), bla(CTX-M-1 group), bla(CTX-M-9 group) and sul1 being the most abundant. Phages induced from the isolates were further purified and visualised using microscopy and their DNA showed ARG levels of up to 1010 gene copies/mL. This study highlights the abundance of phage particles harbouring ARGs and indicates that bacterial strains in the intestinal habitat could be source of these particles. (C) 2017 Elsevier B.V. and International Society of Chemotherapy. All rights reserved.

Published
2018

39. New approach for the simultaneous detection of somatic coliphages and F-specific RNA coliphages as indicators of fecal pollution

Author

Anicet R. Blanch, Daniel Toribio-Avedillo, Juan Jofre, Maite Muniesa, and Julia Martín-Díaz

Subjects
Virologia, Environmental Engineering, 010504 meteorology & atmospheric sciences, Somatic cell, Sewage, Fresh Water, RNA Phages, 010501 environmental sciences, medicine.disease_cause, Coliphages, 01 natural sciences, Virus, Microbiology, F Factor, Feces, Virology, Escherichia coli, medicine, Enumeration, Environmental Chemistry, Coliphage, Waste Management and Disposal, 0105 earth and related environmental sciences, Contaminació de l'aigua, biology, business.industry, Excrements, RNA, biology.organism_classification, Pollution, Genes, Bacterial, Water pollution, Norovirus, Water Microbiology, business, Environmental Monitoring, Plasmids
Abstract

Two groups of coliphages have been recently included in different water management policies as indicators of viral fecal pollution in water and food: somatic coliphages, which infect E. coli through cell wall receptors, and F-specific RNA coliphages, which infect through the F-pili. Somatic coliphages are more abundant in fecally contaminated waters, except reclaimed waters, those disinfected by UV irradiation, and some groundwater samples that show a higher level of F-specific coliphages. Somatic coliphages are morphologically similar to DNA enteric viruses while F-specific coliphages are similar to RNA viruses such as norovirus and hepatitis A viruses, which are the viral pathogens of concern in sewage. The use of strains sensitive to both types of phages has been proposed for total coliphage enumeration, thereby avoiding double analysis. The standardized methods available for coliphage detection are robust and cost-effective, but the introduction of ready-to-use methods would facilitate routine implementation in laboratories. The fastest available tool for somatic coliphage enumeration is the recently developed Bluephage, which uses a modified β-glucuronide-overexpressing E. coli strain unable to take up the glucuronide substrate. The overexpressed enzyme accumulates inside the bacterial cells until released by phage-induced cell lysis, whereupon it encounters its substrate and the medium changes from yellow to blue. The present method uses E. coli strain CB12, sensitive to somatic coliphages and F-specific coliphages due to the expression of the F-pili. The Bluephage approach incorporating CB12 detects both types of coliphages in a time range of 1:30 to 4:00 h, as assayed with coliphages from raw sewage, river water, sludge and mussels. This strategy can be applied to obtain qualitative and quantitative results and is applicable to microplates as well as to large sample volumes (100 ml). Moreover it can provide monitoring of water bodies at real time, as for example for ambient recreational beach monitoring.

Published
2018

40. Isolation of Bacteriophages of the Anaerobic Bacteria Bacteroides

Author

Cristina, García-Aljaro, Maite, Muniesa, and Juan, Jofre

Subjects
Feces, Animals, Bacteroides, Humans, Bacteriophages
Abstract

Here we describe the detection, enumeration, and isolation of bacteriophages infecting Bacteroides. The method is based on the infection of Bacteroides host strains and the production of visible plaques in a confluent lawn of the host strain using the double-layer agar method. This is a straightforward methodology that can be applied for the detection, enumeration and isolation of bacteriophages for other anaerobic bacteria, using an appropriate host strain and culture conditions. In the case of bacteriophages of Bacteroides the results can be obtained in less than 24 h, although the time could vary depending on the growth rate of the host strain.

Published
2017

41. Isolation of Bacteriophages of the Anaerobic Bacteria Bacteroides

Author

Maite Muniesa, Cristina García-Aljaro, and Juan Jofre

Subjects
0301 basic medicine, food.ingredient, Strain (chemistry), Host (biology), 030106 microbiology, food and beverages, Biology, biology.organism_classification, Isolation (microbiology), Microbiology, Bacteriophage, 03 medical and health sciences, food, Enumeration, Agar, Anaerobic bacteria, Bacteroides
Abstract

Here we describe the detection, enumeration, and isolation of bacteriophages infecting Bacteroides. The method is based on the infection of Bacteroides host strains and the production of visible plaques in a confluent lawn of the host strain using the double-layer agar method. This is a straightforward methodology that can be applied for the detection, enumeration and isolation of bacteriophages for other anaerobic bacteria, using an appropriate host strain and culture conditions. In the case of bacteriophages of Bacteroides the results can be obtained in less than 24 h, although the time could vary depending on the growth rate of the host strain.

Published
2017
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42. Erratum for Quirós et al., 'Improving Detection of Shiga Toxin-Producing Escherichia coli by Molecular Methods by Reducing the Interference of Free Shiga Toxin-Encoding Bacteriophages'

Author

Alexandre Martínez-Castillo, Maite Muniesa, and Pablo Quirós

Subjects
Ecology, biology.protein, Shiga toxin, Biology, Interference (genetic), Applied Microbiology and Biotechnology, Shiga toxin-producing Escherichia coli, Food Science, Biotechnology, Microbiology
Published
2017
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44. Bluephage: A rapid method for the detection of somatic coliphages used as indicators of fecal pollution in water

Author

Joan Jofre, Elisenda Ballesté, Francisco Lucena, Miriam Pascual-Benito, Anicet R. Blanch, Daniel Toribio-Avedillo, Maite Muniesa, and Lejla Imamovic

Subjects
0301 basic medicine, Environmental Engineering, Lysis, Somatic cell, Cost effectiveness, Microorganism, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Coliphages, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Feces, Water Quality, medicine, Escherichia coli, Coliphage, Food science, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, biology, Ecological Modeling, Water Pollution, Substrate (chemistry), Reproducibility of Results, Glucuronic acid, biology.organism_classification, Pollution, 030104 developmental biology, chemistry, Water Microbiology
Abstract

The use of somatic coliphages as indicators of fecal and viral pollution in water and food has great potential due to the reliability, reproducibility, speed and cost effectiveness of methods for their detection. Indeed, several countries already use this approach in their water management policies. Although standardized protocols for somatic coliphage detection are available, user-friendly commercial kits would facilitate their routine implementation in laboratories. The new method presented here allows detection of up to 1 somatic coliphage in under 3.5 h, well within one working day. The method is based on a modified Escherichia coli strain with knocked-out uidB and uidC genes, which encode the transport of glucuronic acid inside cells, and overexpressing uidA , which encodes the enzyme β-glucuronidase. The enzyme accumulated in the bacterial cells only has contact with its substrate after cell lysis, such as that caused by phages, since the strain cannot internalize the substrate. When the enzyme is released into the medium, which contains a chromogen analogous to glucuronic acid, it produces a change of color from yellow to dark blue. This microbiological method for the determination of fecal pollution via the detection of culturable microorganisms can be applied to diverse sample types and volumes for qualitative (presence/absence) and quantitative analysis and is the fastest reported to date.

Published
2017

45. Phages in the Human Body

Author

Ferran, Navarro and Maite, Muniesa

Subjects
metagenomics, virome, bacteriophages, diagnosis, Mini Review, homeostasis, human biomes, Microbiology
Abstract

Bacteriophages, viruses that infect bacteria, have re-emerged as powerful regulators of bacterial populations in natural ecosystems. Phages invade the human body, just as they do other natural environments, to such an extent that they are the most numerous group in the human virome. This was only revealed in recent metagenomic studies, despite the fact that the presence of phages in the human body was reported decades ago. The influence of the presence of phages in humans has yet to be evaluated; but as in marine environments, a clear role in the regulation of bacterial populations could be envisaged, that might have an impact on human health. Moreover, phages are excellent vehicles of genetic transfer, and they contribute to the evolution of bacterial cells in the human body by spreading and acquiring DNA horizontally. The abundance of phages in the human body does not pass unnoticed and the immune system reacts to them, although it is not clear to what extent. Finally, the presence of phages in human samples, which most of the time is not considered, can influence and bias microbiological and molecular results; and, in view of the evidences, some studies suggest that more attention needs to be paid to their interference.

Published
2017

46. Antibiotic resistance genes in bacterial and bacteriophage fractions of Tunisian and Spanish wastewaters as markers to compare the antibiotic resistance patterns in each population

Author

Marta Colomer-Lluch, Fatma Hmaied, Maite Muniesa, William Calero-Cáceres, Juan Jofre, and Sihem Jebri

Subjects
DNA, Bacterial, Genetic Markers, Tunisia, Genes, Viral, Population, Sewage, Quinolones, Wastewater, medicine.disease_cause, Polymerase Chain Reaction, beta-Lactamases, Microbiology, Bacteriophage, chemistry.chemical_compound, Antibiotic resistance, Drug Resistance, Bacterial, medicine, Bacteriophages, education, Gene, lcsh:Environmental sciences, General Environmental Science, lcsh:GE1-350, Sulfonamides, education.field_of_study, biology, business.industry, SCCmec, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses, biology.organism_classification, Anti-Bacterial Agents, chemistry, Genes, Bacterial, Spain, Staphylococcus aureus, DNA, Viral, business, DNA
Abstract

The emergence and increased prevalence of antibiotic resistance genes (ARGs) in the environment may pose a serious global health concern. This study evaluates the abundance of several ARGs in bacterial and bacteriophage DNA via real-time qPCR in samples from five different sampling points in Tunisia; three wastewater treatment plants (WWTP 1, 2 and 3) and wastewater from two abattoirs slaughtering different animals. Results are compared with those obtained in the Barcelona area, in northeast Spain.Eight ARGs were quantified by qPCR from total and phage DNA fraction from the samples. Three β-lactamases (blaTEM, blaCTX-M cluster 1 and blaCTX-M cluster 9), two quinolone resistance genes (qnrA and qnrS), the mecA gene that confers resistance to methicillin in Staphylococcus aureus, the emerging armA gene, conferring resistance to aminoglycosides and sul1, the most extended gene conferring resistance to sulfonamides, were evaluated.Sul1 and blaTEM were the most prevalent ARGs detected at all five Tunisian sampling points, similarly with the observations in Barcelona. blaCTX-M-9 was more prevalent than blaCTX-M-1 both in bacterial and DNA within phage particles in all samples analysed. mecA and armA were almost absent in Tunisian waters from human or animal origin in contrast with Barcelona that showed a medium prevalence. qnrA was more prevalent than qnrS in bacterial and phage DNA from all sampling points.In conclusion, our study shows that ARGs are found in the bacterial and is reflected in the phage DNA fraction of human and animal wastewaters. The densities of each ARGs vary depending on the ARGs shed by each population and is determined by the characteristics of each area. Thus, the evaluation of ARGs in wastewaters seems to be suitable as marker reflecting the antibiotic resistance patterns of a population. Keywords: Bacteriophages, Antibiotic resistance, β-lactamases, Quinolones, Sul1, Sewage water

Published
2014
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47. Exploiting the explosion of information associated with whole genome sequencing to tackle Shiga toxin-producing Escherichia coli (STEC) in global food production systems

Author

Jeffrey T. LeJeune, Nigel P. French, Timothy J. Dallman, Jim Bono, David A. Rasko, Pascal Delaquis, Henk Aarts, Norval J. C. Strachan, Eelco Franz, Lothar Beutin, Todd R. Callaway, Maite Muniesa, Mark Eppinger, Stefano Morabito, Kari S. Gobius, Jacek Osek, Bjørn-Arne Lindstedt, Scott A. Beatson, Shannon D. Manning, Ken J. Forbes, David L. Pearl, Victor P. J. Gannon, and Chad R. Laing

Subjects
Government, Shiga-Toxigenic Escherichia coli, Standardization, business.industry, Computer science, Software development, Sequence Analysis, DNA, General Medicine, World population, Food safety, Microbiology, Food Supply, Biotechnology, Risk analysis (engineering), Databases, Genetic, Food Microbiology, Food processing, Animals, Humans, Position paper, Food-Processing Industry, business, Risk assessment, Genome, Bacterial, Food Science
Abstract

The rates of foodborne disease caused by gastrointestinal pathogens continue to be a concern in both the developed and developing worlds. The growing world population, the increasing complexity of agri-food networks and the wide range of foods now associated with STEC are potential drivers for increased risk of human disease. It is vital that new developments in technology, such as whole genome sequencing (WGS), are effectively utilized to help address the issues associated with these pathogenic microorganisms. This position paper, arising from an OECD funded workshop, provides a brief overview of next generation sequencing technologies and software. It then uses the agent-host-environment paradigm as a basis to investigate the potential benefits and pitfalls of WGS in the examination of (1) the evolution and virulence of STEC, (2) epidemiology from bedside diagnostics to investigations of outbreaks and sporadic cases and (3) food protection from routine analysis of foodstuffs to global food networks. A number of key recommendations are made that include: validation and standardization of acquisition, processing and storage of sequence data including the development of an open access "WGSNET"; building up of sequence databases from both prospective and retrospective isolates; development of a suite of open-access software specific for STEC accessible to non-bioinformaticians that promotes understanding of both the computational and biological aspects of the problems at hand; prioritization of research funding to both produce and integrate genotypic and phenotypic information suitable for risk assessment; training to develop a supply of individuals working in bioinformatics/software development; training for clinicians, epidemiologists, the food industry and other stakeholders to ensure uptake of the technology and finally review of progress of implementation of WGS. Currently the benefits of WGS are being slowly teased out by academic, government, and industry or private sector researchers around the world. The next phase will require a coordinated international approach to ensure that it's potential to contribute to the challenge of STEC disease can be realized in a cost effective and timely manner.

Published
2014
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48. Identifying and analyzing bacteriophages in human fecal samples: what could we discover?

Author

Maite Muniesa and Juan Jofre

Subjects
Microbiology (medical), Ecological niche, Bacteria, Microbiota, Zoology, Biology, Complex ecosystem, Microbiology, Intestines, Feces, Human gut, Metagenomics, Horizontal gene transfer, Humans, Bacteriophages, Microbiome, Gene
Abstract

ABSTRACT: The human gut is a complex ecosystem, densely populated with microbes including enormous amounts of phages. Metagenomic studies indicate a great diversity of bacteriophages, and because of the variety of gut bacterial species, the human or animal gut is probably a perfect ecological niche for phages that can infect and propagate in their bacterial communities. In addition, some phages have the capacity to mobilize genes, as demonstrated by the enormous fraction of phage particles in feces that contain bacterial DNA. All these facts indicate that, through predation and horizontal gene transfer, bacteriophages play a key role in shaping the size, structure and function of intestinal microbiomes, although our understanding of their effects on gut bacterial populations is only just beginning.

Published
2014
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49. Persistence of Infectious Shiga Toxin-Encoding Bacteriophages after Disinfection Treatments

Author

Alexandre Martínez-Castillo, Maite Muniesa, and Anna Allué-Guardia

Subjects
Ultraviolet Rays, viruses, Microorganism, medicine.disease_cause, Coliphages, Applied Microbiology and Biotechnology, Shiga Toxin, Microbiology, Persistence (computer science), Transduction (genetics), Environmental Microbiology, medicine, Escherichia coli, Infectivity, Microbial Viability, Shiga-Toxigenic Escherichia coli, Ecology, biology, Temperature, Shiga toxin, Hydrogen-Ion Concentration, Virology, Disinfection, Food Microbiology, biology.protein, Virus Inactivation, Chlorine, After treatment, Disinfectants, Food Science, Biotechnology
Abstract

In Shiga toxin-producing Escherichia coli (STEC), induction of Shiga toxin-encoding bacteriophages (Stx phages) causes the release of free phages that can later be found in the environment. The ability of Stx phages to survive different inactivation conditions determines their prevalence in the environment, the risk of stx transduction, and the generation of new STEC strains. We evaluated the infectivity and genomes of two Stx phages (Φ534 and Φ557) under different conditions. Infectious Stx phages were stable at 4, 22, and 37°C and at pH 7 and 9 after 1 month of storage but were completely inactivated at pH 3. Infective Stx phages decreased moderately when treated with UV (2.2-log 10 reduction for an estimated UV dose of 178.2 mJ/cm 2 ) or after treatment at 60 and 68°C for 60 min (2.2- and 2.5-log 10 reductions, respectively) and were highly inactivated (3 log 10 ) by 10 ppm of chlorine in 1 min. Assays in a mesocosm showed lower inactivation of all microorganisms in winter than in summer. The number of Stx phage genomes did not decrease significantly in most cases, and STEC inactivation was higher than phage inactivation under all conditions. Moreover, Stx phages retained the ability to lysogenize E. coli after some of the treatments.

Published
2014
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50. Spread of mcr-1-carrying Enterobacteriaceae in sewage water from Spain

Author

Maite Muniesa, Bruno Gonzalez-Zorn, Jose F. Delgado-Blas, William Calero-Cáceres, and Cristina M. Ovejero

Subjects
0301 basic medicine, Microbiology (medical), Klebsiella pneumoniae, 030106 microbiology, Population, Sewage, Drug resistance, Microbial Sensitivity Tests, 010501 environmental sciences, 01 natural sciences, Polymerase Chain Reaction, Microbiology, 03 medical and health sciences, Drug Resistance, Bacterial, Pulsed-field gel electrophoresis, medicine, Escherichia coli, Animals, Humans, Pharmacology (medical), education, 0105 earth and related environmental sciences, Original Research, Pharmacology, education.field_of_study, biology, business.industry, Colistin, Escherichia coli Proteins, biology.organism_classification, Anti-Bacterial Agents, Electrophoresis, Gel, Pulsed-Field, Infectious Diseases, Spain, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Multilocus sequence typing, MCR-1, Transformation, Bacterial, business, Water Microbiology, hormones, hormone substitutes, and hormone antagonists, medicine.drug, Multilocus Sequence Typing, Plasmids
Abstract

Objectives The mobile colistin resistance gene mcr-1 has been identified worldwide in human and animal sources, while its occurrence in the environment is still largely unknown. The aim of this study was to investigate the presence of mcr-1 -harbouring Enterobacteriaceae in water samples obtained from rivers and waste water treatment plants in the area of Barcelona, Spain. Methods The presence of mcr-1 was detected by PCR. Bacterial identification was performed via MALDI-TOF MS. Resistance to colistin was determined by a broth dilution method. The epidemiological relationship between the positive isolates was assessed with PFGE and ST was determined by MLST. Plasmid characterization was performed by transformation experiments, antimicrobial susceptibility testing and incompatibility group PCR. Results Thirty MDR isolates bearing mcr-1 , 29 Escherichia coli (ST632 and ST479) and 1 Klebsiella pneumoniae (ST526), were identified in sewage from two different waste water treatment plants, whereas the gene was not found in river water. All isolates, including the K. pneumoniae , harboured bla CTX-M-55 and bla TEM-1 . mcr-1 was in all cases associated with an IncI2 plasmid, which only conferred resistance to colistin. mcr-1 was harboured by two predominant E. coli clones that were found in both waste water treatment plants. Conclusions This study showed a high occurrence of mcr-1 in the sewage of Barcelona, mainly due to the dissemination of two E. coli pulsotypes that are circulating in the population. The presence of mcr-1 in the environment is a cause for concern, and suggests high prevalence of mcr-1 in the community.

Published
2016

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