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4. Adeno-Associated Virus 2 and Human Adenovirus F41 in Wastewater during Outbreak of Severe Acute Hepatitis in Children, Ireland

Author

Martin, Niamh A., Gonzalez, Gabriel, Reynolds, Liam J., Bennett, Charlene, Campbell, Christine, Nolan, Tristan M., Byrne, Alannah, Fennema, Sanne, Holohan, Niamh, Kuntamukkula, Sailusha Ratnam, Sarwar, Natasha, Sala-Comorera, Laura, Dean, Jonathan, Urtasun-Elizari, Jose Maria, Hare, Daniel, Liddy, Emer, Joyce, Eadaoin, O'Sullivan, John J., Cuddihy, John M., McIntyre, Angeline M., Robinson, Eve P., Dahly, Darren, Fletcher, Nicola F., Cotter, Suzanne, Fitzpatrick, Emer, Carr, Michael J., De Gascun, Cillian F., and Meijer, Wim G.

Subjects
Epidemics -- Statistics -- Causes of -- Ireland, Hepatitis -- Statistics -- Causes of, Wastewater -- Health aspects, Communicable diseases in children -- Statistics -- Causes of, Pediatric research, Adenoviruses -- Identification and classification -- Environmental aspects, Health
Abstract

During April 5-July 8, 2022, the World Health Organization (WHO) received reports of 1,010 probable cases of severe acute hepatitis of unknown etiology (SAHUE) in young children from 35 countries [...]

Published
2023
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9. Bacterial and Bacteriophage Antibiotic Resistance in Marine Bathing Waters in Relation to Rivers and Urban Streams.

Author

Sala-Comorera, Laura, Nolan, Tristan M., Reynolds, Liam J., Venkatesh, Anjan, Cheung, Lily, Martin, Niamh A., Stephens, Jayne H., Gitto, Aurora, O'Hare, Gregory M. P., O'Sullivan, John J., and Meijer, Wim G.

Subjects
DRUG resistance in bacteria, SEAWATER, BACTERIOPHAGES, WATER pollution, RIVER pollution, MARINE pollution, DRUG resistance in microorganisms, HUMAN ecology
Abstract

Fecal pollution of surface water may introduce bacteria and bacteriophages harboring antibiotic resistance genes (ARGs) into the aquatic environment. Watercourses discharging into the marine environment, especially close to designated bathing waters, may expose recreational users to fecal pollution and therefore may increase the likelihood that they will be exposed to ARGs. This study compares the bacterial and bacteriophage ARG profiles of two rivers (River Tolka and Liffey) and two small urban streams (Elm Park and Trimleston Streams) that discharge close to two marine bathing waters in Dublin Bay. Despite the potential differences in pollution pressures experienced by these waterways, microbial source tracking analysis showed that the main source of pollution in both rivers and streams in the urban environment is human contamination. All ARGs included in this study, bla TEM , bla SHV , qnrS , and sul1 , were present in all four waterways in both the bacterial and bacteriophage fractions, displaying a similar ARG profile. We show that nearshore marine bathing waters are strongly influenced by urban rivers and streams discharging into these, since they shared a similar ARG profile. In comparison to rivers and streams, the levels of bacterial ARGs were significantly reduced in the marine environment. In contrast, the bacteriophage ARG levels in freshwater and the marine were not significantly different. Nearshore marine bathing waters could therefore be a potential reservoir of bacteriophages carrying ARGs. In addition to being considered potential additional fecal indicators organism, bacteriophages may also be viewed as indicators of the spread of antimicrobial resistance. [ABSTRACT FROM AUTHOR]

Published
2021
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10. Identifying Sources of Faecal Contamination in a Small Urban Stream Catchment: A Multiparametric Approach.

Author

Reynolds, Liam J., Martin, Niamh A., Sala-Comorera, Laura, Callanan, Kevin, Doyle, Padraig, O'Leary, Clare, Buggy, Paul, Nolan, Tristan M., O'Hare, Gregory M. P., O'Sullivan, John J., and Meijer, Wim G.

Subjects
POINT sources (Pollution), WATER pollution, WATER quality, SEVERE storms, CLUSTER analysis (Statistics)
Abstract

Small urban streams discharging in the proximity of bathing waters may significantly contribute to the deterioration of water quality, yet their impact may be overlooked. This study focuses on the Elm Park stream in the city of Dublin that is subject to faecal contamination by unidentified sources. The aim of the study was to identify a minimum number of "sentinel" sampling stations in an urban catchment that would provide the maximum amount of information regarding faecal pollution in the catchment. Thus, high-resolution sampling within the catchment was carried out over the course of 1 year at 11 stations. Faecal indicator bacteria were enumerated and microbial source tracking (MST) was employed to evaluate human pollution. In addition, ammonium, total oxidised nitrogen, and phosphorus levels were monitored to determine if these correlated with faecal indicator and the HF183 MST marker. In addition, the effect of severe weather events on water quality was assessed using automated sampling at one of the identified "sentinel" stations during baseflow and high flow conditions over a 24-h period. Our results show that this urban stream is at times highly contaminated by point source faecal pollution and that human faecal pollution is pervasive in the catchment. Correlations between ammonium concentrations and faecal indicator bacteria (FIB) as well as the human MST marker were observed during the study. Cluster analysis identified four "sentinel" stations that provide sufficient information on faecal pollution in the stream, thus reducing the geographical complexity of the catchment. Furthermore, ammonium levels strongly correlated with FIB and the human HF183 MST marker under high flow conditions at key "sentinel" stations. This work demonstrates the effectiveness of pairing MST, faecal indicators, and ammonium monitoring to identify "sentinel" stations that could be more rapidly assessed using real-time ammonium readouts to assess remediation efforts. [ABSTRACT FROM AUTHOR]

Published
2021
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11. Reduced Susceptibility to Antiseptics Is Conferred by Heterologous Housekeeping Genes

Author

Tansirichaiya, Supathep, Reynolds, Liam J., Cristarella, Gianmarco, Wong, Li Chin, Rosendahl, Kimie, and Roberts, Adam

Subjects
qw_51, qv_250, qw_45
Abstract

Antimicrobial resistance is common in the microbial inhabitants of the human oral cavity. Antimicrobials are commonly encountered by oral microbes as they are present in our diet, both naturally and anthropogenically, and also used in oral healthcare products and amalgam fillings. We aimed to determine the presence of genes in the oral microbiome conferring reduced susceptibility to common antimicrobials. From an Escherichia coli library, 12,277 clones were screened and ten clones with reduced susceptibility to triclosan were identified. The genes responsible for this phenotype were identified as fabI, originating from a variety of different bacteria. The gene fabI encodes an enoyl-acyl carrier protein reductase (ENR), which is essential for fatty acid synthesis in bacteria. Triclosan binds to ENR, preventing fatty acid synthesis. By introducing the inserts containing fabI, ENR is likely overexpressed in E. coli, reducing the inhibitory effect of triclosan. Another clone was found to have reduced susceptibility to cetyltrimethylammonium bromide and cetylpyridinium chloride. This phenotype was conferred by a UDP-4 glucose-epimerase gene, galE, homologous to one from Veillonella parvula. The product of galE is involved in lipopolysaccharide production. Analysis of the E. coli host cell surface showed that the charge was more positive in the presence of galE, which likely reduces the binding of these positively charged antiseptics to the bacteria. This is the first time galE has been shown to confer resistance against quaternary ammonium compounds and represents a novel, epimerase-based, global cell adaptation, which confers resistance to cationic antimicrobials.

Published
2018

12. Efflux in the Oral Metagenome: The Discovery of a Novel Tetracycline and Tigecycline ABC Transporter.

Author

Reynolds, Liam J., Roberts, Adam P., and Anjum, Muna F.

Subjects
ANTIBIOTICS, DRUG resistance in bacteria, TETRACYCLINE
Abstract

Antibiotic resistance in human bacterial pathogens and commensals is threatening our ability to treat infections and conduct common medical procedures. As novel antibiotics are discovered and marketed it is important that we understand how resistance to them may arise and know what environments may act as reservoirs for such resistance genes. In this study a tetracycline and tigecycline resistant clone was identified by screening a human saliva metagenomic library in Escherichia coli EPI300 on agar containing 5 µg/ml tetracycline. Sequencing of the DNA insert present within the tetracycline resistant clone revealed it to contain a 7,765 bp fragment harboring novel ABC half transporter genes, tetAB(60). Mutagenesis studies performed on these genes confirmed that they were responsible for the tetracycline and tigecycline resistance phenotypes. Growth studies performed using E. coli EPI300 clones that harbored either the wild type, the mutated, or none of these genes indicated that there was a fitness cost associated with presence of these genes, with the isolate harboring both genes exhibiting a significantly slower growth than control strains. Given the emergence of E. coli strains that are sensitive only to tigecycline and doxycycline it is concerning that such a resistance mechanism has been identified in the human oral cavity. [ABSTRACT FROM AUTHOR]

Published
2016
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13. SARS-CoV-2 variant trends in Ireland: Wastewater-based epidemiology and clinical surveillance.

Author

Reynolds, Liam J., Gonzalez, Gabriel, Sala-Comorera, Laura, Martin, Niamh A., Byrne, Alannah, Fennema, Sanne, Holohan, Niamh, Kuntamukkula, Sailusha Ratnam, Sarwar, Natasha, Nolan, Tristan M., Stephens, Jayne H., Whitty, Megan, Bennett, Charlene, Luu, Quynh, Morley, Ursula, Yandle, Zoe, Dean, Jonathan, Joyce, Eadaoin, O'Sullivan, John J., and Cuddihy, John M.

Published
2022
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14. Coprostanol as a Population Biomarker for SARS-CoV-2 Wastewater Surveillance Studies.

Author

Reynolds, Liam J., Sala-Comorera, Laura, Khan, Mohd Faheem, Martin, Niamh A., Whitty, Megan, Stephens, Jayne H., Nolan, Tristan M., Joyce, Eadaoin, Fletcher, Nicola F., Murphy, Cormac D., and Meijer, Wim G.

Subjects
SARS-CoV-2, SEWAGE disposal plants, VIRUSES, SEWAGE purification, SEWAGE, BIOMARKERS, PLANT size
Abstract

Wastewater surveillance is a cost-effective tool for monitoring SARS-CoV-2 transmission in a community. However, challenges remain with regard to interpretating such studies, not least in how to compare SARS-CoV-2 levels between different-sized wastewater treatment plants. Viral faecal indicators, including crAssphage and pepper mild mottle virus, have been proposed as population biomarkers to normalise SARS-CoV-2 levels in wastewater. However, as these indicators exhibit variability between individuals and may not be excreted by everyone, their utility as population biomarkers may be limited. Coprostanol, meanwhile, is a bacterial metabolite of cholesterol which is excreted by all individuals. In this study, composite influent samples were collected from a large- and medium-sized wastewater treatment plant in Dublin, Ireland and SARS-CoV-2 N1, crAssphage, pepper mild mottle virus, HF183 and coprostanol levels were determined. SARS-CoV-2 N1 RNA was detected and quantified in all samples from both treatment plants. Regardless of treatment plant size, coprostanol levels exhibited the lowest variation in composite influent samples, while crAssphage exhibited the greatest variation. Moreover, the strongest correlations were observed between SARS-CoV-2 levels and national and Dublin COVID-19 cases when levels were normalised to coprostanol. This work demonstrates the usefulness of coprostanol as a population biomarker for wastewater surveillance studies. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Correlation between antimicrobial resistance and faecal contamination in small urban streams and bathing waters.

Author

Reynolds, Liam J., Sala-Comorera, Laura, Martin, Niamh A., Nolan, Tristan M., Stephens, Jayne H., Gitto, Aurora, O'Hare, Gregory M.P., O'Sullivan, John J., and Meijer, Wim G.

Abstract

Antibiotic resistance represents the greatest challenge to healthcare systems around the world. As antibiotic resistance genes (ARGs) are shed in faeces, many studies have focused on how wastewater effluent contributes to ARG pollution in rivers. However, small urban streams and bathing waters not impacted by treated wastewater have received little attention though they may be important reservoirs of ARGs. The main objective of this study was to assess the extent to which ARG and faecal pollution impact small urban streams and bathing waters and to determine if there is a relationship between these contaminants. For one year, bi-monthly water samples were collected from two urban streams and Dublin city's three designated bathing waters. The Liffey Estuary, that receives treated wastewater, was also sampled. The sul1 , tet (O), qnrS , bla TEM , bla SHV and bla CTX-M ARGs were quantified. E. coli and intestinal enterococci levels were determined and the source of faecal pollution (human, dog, gull) quantified by microbial source tracking. Our results show that the Liffey Estuary, the urban streams and the bathing waters are highly impacted by ARGs and human faeces. There were clear correlations between all of the studied faecal indicators and ARGs in the Liffey Estuary. In the urban streams relationships were observed for only some of the ARGs and faecal indicators, which is likely a result of non-continuous sewage leaks and overflows to the streams. Similarly, only some ARGs correlated with faecal indicators in the urban bathing waters. The source of ARGs in the bathing waters is likely to be multifaceted as we detected sporadic dog and gull faecal markers. This study demonstrates that small urban streams and bathing waters are reservoirs of ARGs and that they may pose a previously unrecognised public health risk as they have the potential to transmit enteric pathogens and antibiotic resistance determinants. Unlabelled Image • All faecal indicators and ARGs correlated in the wastewater impacted Liffey Estuary • Urban streams were intermittently impacted by high levels of faecal indicators. • ARGs and faecal indicators sporadically correlate in small urban streams. • Faecal indicators and ARGs sporadically correlated in urban bathing waters. • Human, gull and dog source tracking markers were quantified in urban bathing waters. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Detection of a Novel, and Likely Ancestral, Tn916-Like Element from a Human Saliva Metagenomic Library.

Author

Reynolds, Liam J., Anjum, Muna F., and Roberts, Adam P.

Subjects
*TRANSPOSONS, *DRUG resistance in microorganisms, *SALIVA, *MODULAR construction, *GENE fusion, *TETRACYCLINE, *MOBILE genetic elements
Abstract

Tn916 is a conjugative transposon (CTn) and the first reported and most well characterised of the Tn916/Tn1545 family of CTns. Tn916-like elements have a characteristic modular structure and different members of this family have been identified based on similarities and variations in these modules. In addition to carrying genes encoding proteins required for their conjugation, Tn916-like elements also carry accessory, antimicrobial resistance genes; most commonly the tetracycline resistance gene, tet(M). Our study aimed to identify and characterise tetracycline resistance genes from the human saliva metagenome using a functional metagenomic approach. We identified a tetracycline-resistant clone, TT31, the sequencing of which revealed it to encode both tet(M) and tet(L). Comparison of the TT31 sequence with the accessory, regulation, and recombination modules of other Tn916-like elements indicated that a partial Tn916-like element encoding a truncated orf9 was cloned in TT31. Analysis indicated that a previous insertion within the truncated orf9 created the full length orf9 found in most Tn916-like transposons; demonstrating that orf9 is, in fact, the result of a gene fusion event. Thus, we hypothesise that the Tn916-like element cloned in TT31 likely represents an ancestral Tn916. [ABSTRACT FROM AUTHOR]

Published
2020
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18. Functional Metagenomic Screening for Antimicrobial Resistance in the Oral Microbiome.

Author

Tansirichaiya S, Reynolds LJ, and Roberts AP

Subjects
Anti-Bacterial Agents pharmacology, Bacteria drug effects, Bacteria genetics, Drug Resistance, Bacterial drug effects, Drug Resistance, Bacterial genetics, Humans, Metagenome, Metagenomics, Microbiota
Abstract

A large proportion of bacteria, from a multitude of environments, are not yet able to be grown in the laboratory, and therefore microbiological and molecular biological investigations of these bacteria are challenging. A way to circumvent this challenge is to analyze the metagenome, the entire collection of DNA molecules that can be isolated from a particular environment or sample. This collection of DNA molecules can be sequenced and assembled to determine what is present and infer functional potential, or used as a PCR template to detect known target DNA and potentially unknown regions of DNA nearby those targets; however assigning functions to new or conserved hypothetical, functionally cryptic, genes is difficult. Functional metagenomics allows researchers to determine which genes are responsible for selectable phenotypes, such as resistance to antimicrobials and metabolic capabilities, without the prerequisite needs to grow the bacteria containing those genes or to already know which genes are of interest. It is estimated that a third of the resident species of the human oral cavity is not yet cultivable and, together with the ease of sample acquisition, makes this metagenome particularly suited to functional metagenomic studies. Here we describe the methodology related to the collection of saliva samples, extraction of metagenomic DNA, construction of metagenomic libraries, as well as the description of functional assays that have previously led to the identification of new genes conferring antimicrobial resistance., (© 2021. Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2021
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19. Reduced Susceptibility to Antiseptics Is Conferred by Heterologous Housekeeping Genes.

Author

Tansirichaiya S, Reynolds LJ, Cristarella G, Wong LC, Rosendahl K, and Roberts AP

Subjects
Amino Acid Sequence, Cetrimonium, Cetrimonium Compounds pharmacology, Cetylpyridinium pharmacology, Clone Cells, Drug Resistance, Bacterial genetics, Enoyl-(Acyl-Carrier-Protein) Reductase (NADH) metabolism, Escherichia coli enzymology, Escherichia coli genetics, Escherichia coli Proteins metabolism, Fatty Acid Synthase, Type II genetics, Fatty Acid Synthase, Type II metabolism, Gastrointestinal Microbiome drug effects, Gastrointestinal Microbiome genetics, Humans, Microbial Sensitivity Tests, Mouth microbiology, Sequence Alignment, Sequence Homology, Amino Acid, Static Electricity, Triclosan pharmacology, UDPglucose 4-Epimerase metabolism, Veillonella drug effects, Veillonella enzymology, Veillonella genetics, Anti-Infective Agents, Local pharmacology, Enoyl-(Acyl-Carrier-Protein) Reductase (NADH) genetics, Escherichia coli drug effects, Escherichia coli Proteins genetics, Gene Expression Regulation, Bacterial, Genes, Essential, UDPglucose 4-Epimerase genetics
Abstract

Antimicrobial resistance is common in the microbial inhabitants of the human oral cavity. Antimicrobials are commonly encountered by oral microbes as they are present in our diet, both naturally and anthropogenically, and also used in oral healthcare products and amalgam fillings. We aimed to determine the presence of genes in the oral microbiome conferring reduced susceptibility to common antimicrobials. From an Escherichia coli library, 12,277 clones were screened and ten clones with reduced susceptibility to triclosan were identified. The genes responsible for this phenotype were identified as fabI, originating from a variety of different bacteria. The gene fabI encodes an enoyl-acyl carrier protein reductase (ENR), which is essential for fatty acid synthesis in bacteria. Triclosan binds to ENR, preventing fatty acid synthesis. By introducing the inserts containing fabI, ENR is likely overexpressed in E. coli, reducing the inhibitory effect of triclosan. Another clone was found to have reduced susceptibility to cetyltrimethylammonium bromide and cetylpyridinium chloride. This phenotype was conferred by a UDP-glucose 4-epimerase gene, galE, homologous to one from Veillonella parvula. The product of galE is involved in lipopolysaccharide production. Analysis of the E. coli host cell surface showed that the charge was more positive in the presence of galE, which likely reduces the binding of these positively charged antiseptics to the bacteria. This is the first time galE has been shown to confer resistance against quaternary ammonium compounds and represents a novel, epimerase-based, global cell adaptation, which confers resistance to cationic antimicrobials.

Published
2018
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