Your search keyword '"Findlay, Jacqueline"' showing total 37 results

1. Molecular analysis of metallo-beta-lactamase-producing Pseudomonas aeruginosa in Switzerland 2022–2023

Author

Findlay, Jacqueline, Raro, Otavio Hallal Ferreira, Poirel, Laurent, and Nordmann, Patrice

Published

2024

2. Dissemination of ArmA- and OXA-23-co-producing Acinetobacter baumannii Global Clone 2 in Switzerland, 2020–2021

Author

Findlay, Jacqueline, Nordmann, Patrice, Bouvier, Maxime, Kerbol, Auriane, and Poirel, Laurent

Published

2023

3. Plasmid-mediated fosfomycin resistance in Escherichia coli isolates of worldwide origin

Author

Findlay, Jacqueline, Sierra, Roberto, Raro, Otavio Hallal Ferreira, Aires-de-Sousa, Marta, Andrey, Diego O., and Nordmann, Patrice

Published

2023

4. In vitro-obtained meropenem-vaborbactam resistance mechanisms among clinical Klebsiella pneumoniae carbapenemase-producing K. pneumoniae isolates

Author

Findlay, Jacqueline, Poirel, Laurent, and Nordmann, Patrice

Published

2023

5. In vitro activity of sulbactam-durlobactam against carbapenem-resistant Acinetobacter baumannii and mechanisms of resistance

Author

Findlay, Jacqueline, Poirel, Laurent, Bouvier, Maxime, and Nordmann, Patrice

Published

2022

6. Evidence that faecal carriage of resistant Escherichia coli by 16-week-old dogs in the United Kingdom is associated with raw feeding

Author

Mounsey, Oliver, Wareham, Kezia, Hammond, Ashley, Findlay, Jacqueline, Gould, Virginia C., Morley, Katy, Cogan, Tristan A., Turner, Katy M.E., Avison, Matthew B., and Reyher, Kristen K.

Published

2022

7. Evaluating the Effects of SARS-CoV-2 Spike Mutation D614G on Transmissibility and Pathogenicity

Author

Koshy, Cherian, Wise, Emma, Cortes, Nick, Lynch, Jessica, Kidd, Stephen, Mori, Matilde, Fairley, Derek J., Curran, Tanya, McKenna, James P., Adams, Helen, Fraser, Christophe, Golubchik, Tanya, Bonsall, David, Moore, Catrin, Caddy, Sarah L., Khokhar, Fahad A., Wantoch, Michelle, Reynolds, Nicola, Warne, Ben, Maksimovic, Joshua, Spellman, Karla, McCluggage, Kathryn, John, Michaela, Beer, Robert, Afifi, Safiah, Morgan, Sian, Marchbank, Angela, Price, Anna, Kitchen, Christine, Gulliver, Huw, Merrick, Ian, Southgate, Joel, Guest, Martyn, Munn, Robert, Workman, Trudy, Connor, Thomas R., Fuller, William, Bresner, Catherine, Snell, Luke B., Charalampous, Themoula, Nebbia, Gaia, Batra, Rahul, Edgeworth, Jonathan, Robson, Samuel C., Beckett, Angela, Loveson, Katie F., Aanensen, David M., Underwood, Anthony P., Yeats, Corin A., Abudahab, Khalil, Taylor, Ben E.W., Menegazzo, Mirko, Clark, Gemma, Smith, Wendy, Khakh, Manjinder, Fleming, Vicki M., Lister, Michelle M., Howson-Wells, Hannah C., Berry, Louise, Boswell, Tim, Joseph, Amelia, Willingham, Iona, Bird, Paul, Helmer, Thomas, Fallon, Karlie, Holmes, Christopher, Tang, Julian, Raviprakash, Veena, Campbell, Sharon, Sheriff, Nicola, Loose, Matthew W., Holmes, Nadine, Moore, Christopher, Carlile, Matthew, Wright, Victoria, Sang, Fei, Debebe, Johnny, Coll, Francesc, Signell, Adrian W., Betancor, Gilberto, Wilson, Harry D., Feltwell, Theresa, Houldcroft, Charlotte J., Eldirdiri, Sahar, Kenyon, Anita, Davis, Thomas, Pybus, Oliver, du Plessis, Louis, Zarebski, Alex, Raghwani, Jayna, Kraemer, Moritz, Francois, Sarah, Attwood, Stephen, Vasylyeva, Tetyana, Torok, M. Estee, Hamilton, William L., Goodfellow, Ian G., Hall, Grant, Jahun, Aminu S., Chaudhry, Yasmin, Hosmillo, Myra, Pinckert, Malte L., Georgana, Iliana, Yakovleva, Anna, Meredith, Luke W., Moses, Samuel, Lowe, Hannah, Ryan, Felicity, Fisher, Chloe L., Awan, Ali R., Boyes, John, Breuer, Judith, Harris, Kathryn Ann, Brown, Julianne Rose, Shah, Divya, Atkinson, Laura, Lee, Jack C.D., Alcolea-Medina, Adela, Moore, Nathan, Cortes, Nicholas, Williams, Rebecca, Chapman, Michael R., Levett, Lisa J., Heaney, Judith, Smith, Darren L., Bashton, Matthew, Young, Gregory R., Allan, John, Loh, Joshua, Randell, Paul A., Cox, Alison, Madona, Pinglawathee, Holmes, Alison, Bolt, Frances, Price, James, Mookerjee, Siddharth, Rowan, Aileen, Taylor, Graham P., Ragonnet-Cronin, Manon, Nascimento, Fabricia F., Jorgensen, David, Siveroni, Igor, Johnson, Rob, Boyd, Olivia, Geidelberg, Lily, Volz, Erik M., Brunker, Kirstyn, Smollett, Katherine L., Loman, Nicholas J., Quick, Joshua, McMurray, Claire, Stockton, Joanne, Nicholls, Sam, Rowe, Will, Poplawski, Radoslaw, Martinez-Nunez, Rocio T., Mason, Jenifer, Robinson, Trevor I., O'Toole, Elaine, Watts, Joanne, Breen, Cassie, Cowell, Angela, Ludden, Catherine, Sluga, Graciela, Machin, Nicholas W., Ahmad, Shazaad S.Y., George, Ryan P., Halstead, Fenella, Sivaprakasam, Venkat, Thomson, Emma C., Shepherd, James G., Asamaphan, Patawee, Niebel, Marc O., Li, Kathy K., Shah, Rajiv N., Jesudason, Natasha G., Parr, Yasmin A., Tong, Lily, Broos, Alice, Mair, Daniel, Nichols, Jenna, Carmichael, Stephen N., Nomikou, Kyriaki, Aranday-Cortes, Elihu, Johnson, Natasha, Starinskij, Igor, da Silva Filipe, Ana, Robertson, David L., Orton, Richard J., Hughes, Joseph, Vattipally, Sreenu, Singer, Joshua B., Hale, Antony D., Macfarlane-Smith, Louissa R., Harper, Katherine L., Taha, Yusri, Payne, Brendan A.I., Burton-Fanning, Shirelle, Waugh, Sheila, Collins, Jennifer, Eltringham, Gary, Templeton, Kate E., McHugh, Martin P., Dewar, Rebecca, Wastenge, Elizabeth, Dervisevic, Samir, Stanley, Rachael, Prakash, Reenesh, Stuart, Claire, Elumogo, Ngozi, Sethi, Dheeraj K., Meader, Emma J., Coupland, Lindsay J., Potter, Will, Graham, Clive, Barton, Edward, Padgett, Debra, Scott, Garren, Swindells, Emma, Greenaway, Jane, Nelson, Andrew, Yew, Wen C., Resende Silva, Paola C., Andersson, Monique, Shaw, Robert, Peto, Timothy, Justice, Anita, Eyre, David, Crooke, Derrick, Hoosdally, Sarah, Sloan, Tim J., Duckworth, Nichola, Walsh, Sarah, Chauhan, Anoop J., Glaysher, Sharon, Bicknell, Kelly, Wyllie, Sarah, Butcher, Ethan, Elliott, Scott, Lloyd, Allyson, Impey, Robert, Levene, Nick, Monaghan, Lynn, Bradley, Declan T., Allara, Elias, Pearson, Clare, Muir, Peter, Vipond, Ian B., Hopes, Richard, Pymont, Hannah M., Hutchings, Stephanie, Curran, Martin D., Parmar, Surendra, Lackenby, Angie, Mbisa, Tamyo, Platt, Steven, Miah, Shahjahan, Bibby, David, Manso, Carmen, Hubb, Jonathan, Chand, Meera, Dabrera, Gavin, Ramsay, Mary, Bradshaw, Daniel, Thornton, Alicia, Myers, Richard, Schaefer, Ulf, Groves, Natalie, Gallagher, Eileen, Lee, David, Williams, David, Ellaby, Nicholas, Harrison, Ian, Hartman, Hassan, Manesis, Nikos, Patel, Vineet, Bishop, Chloe, Chalker, Vicki, Osman, Husam, Bosworth, Andrew, Robinson, Esther, Holden, Matthew T.G., Shaaban, Sharif, Birchley, Alec, Adams, Alexander, Davies, Alisha, Gaskin, Amy, Plimmer, Amy, Gatica-Wilcox, Bree, McKerr, Caoimhe, Moore, Catherine, Williams, Chris, Heyburn, David, De Lacy, Elen, Hilvers, Ember, Downing, Fatima, Shankar, Giri, Jones, Hannah, Asad, Hibo, Coombes, Jason, Watkins, Joanne, Evans, Johnathan M., Fina, Laia, Gifford, Laura, Gilbert, Lauren, Graham, Lee, Perry, Malorie, Morgan, Mari, Bull, Matthew, Cronin, Michelle, Pacchiarini, Nicole, Craine, Noel, Jones, Rachel, Howe, Robin, Corden, Sally, Rey, Sara, Kumziene-Summerhayes, Sara, Taylor, Sarah, Cottrell, Simon, Jones, Sophie, Edwards, Sue, O’Grady, Justin, Page, Andrew J., Wain, John, Webber, Mark A., Mather, Alison E., Baker, David J., Rudder, Steven, Yasir, Muhammad, Thomson, Nicholas M., Aydin, Alp, Tedim, Ana P., Kay, Gemma L., Trotter, Alexander J., Gilroy, Rachel A.J., Alikhan, Nabil-Fareed, de Oliveira Martins, Leonardo, Le-Viet, Thanh, Meadows, Lizzie, Kolyva, Anastasia, Diaz, Maria, Bell, Andrew, Gutierrez, Ana Victoria, Charles, Ian G., Adriaenssens, Evelien M., Kingsley, Robert A., Casey, Anna, Simpson, David A., Molnar, Zoltan, Thompson, Thomas, Acheson, Erwan, Masoli, Jane A.H., Knight, Bridget A., Hattersley, Andrew, Ellard, Sian, Auckland, Cressida, Mahungu, Tabitha W., Irish-Tavares, Dianne, Haque, Tanzina, Bourgeois, Yann, Scarlett, Garry P., Partridge, David G., Raza, Mohammad, Evans, Cariad, Johnson, Kate, Liggett, Steven, Baker, Paul, Essex, Sarah, Lyons, Ronan A., Caller, Laura G., Castellano, Sergi, Williams, Rachel J., Kristiansen, Mark, Roy, Sunando, Williams, Charlotte A., Dyal, Patricia L., Tutill, Helena J., Panchbhaya, Yasmin N., Forrest, Leysa M., Niola, Paola, Findlay, Jacqueline, Brooks, Tony T., Gavriil, Artemis, Mestek-Boukhibar, Lamia, Weeks, Sam, Pandey, Sarojini, Berry, Lisa, Jones, Katie, Richter, Alex, Beggs, Andrew, Smith, Colin P., Bucca, Giselda, Hesketh, Andrew R., Harrison, Ewan M., Peacock, Sharon J., Palmer, Sophie, Churcher, Carol M., Bellis, Katherine L., Girgis, Sophia T., Naydenova, Plamena, Blane, Beth, Sridhar, Sushmita, Ruis, Chris, Forrest, Sally, Cormie, Claire, Gill, Harmeet K., Dias, Joana, Higginson, Ellen E., Maes, Mailis, Young, Jamie, Kermack, Leanne M., Hadjirin, Nazreen F., Aggarwal, Dinesh, Griffith, Luke, Swingler, Tracey, Davidson, Rose K., Rambaut, Andrew, Williams, Thomas, Balcazar, Carlos E., Gallagher, Michael D., O'Toole, Áine, Rooke, Stefan, Jackson, Ben, Colquhoun, Rachel, Ashworth, Jordan, Hill, Verity, McCrone, J.T., Scher, Emily, Yu, Xiaoyu, Williamson, Kathleen A., Stanton, Thomas D., Michell, Stephen L., Bewshea, Claire M., Temperton, Ben, Michelsen, Michelle L., Warwick-Dugdale, Joanna, Manley, Robin, Farbos, Audrey, Harrison, James W., Sambles, Christine M., Studholme, David J., Jeffries, Aaron R., Darby, Alistair C., Hiscox, Julian A., Paterson, Steve, Iturriza-Gomara, Miren, Jackson, Kathryn A., Lucaci, Anita O., Vamos, Edith E., Hughes, Margaret, Rainbow, Lucille, Eccles, Richard, Nelson, Charlotte, Whitehead, Mark, Turtle, Lance, Haldenby, Sam T., Gregory, Richard, Gemmell, Matthew, Kwiatkowski, Dominic, de Silva, Thushan I., Smith, Nikki, Angyal, Adrienn, Lindsey, Benjamin B., Groves, Danielle C., Green, Luke R., Wang, Dennis, Freeman, Timothy M., Parker, Matthew D., Keeley, Alexander J., Parsons, Paul J., Tucker, Rachel M., Brown, Rebecca, Wyles, Matthew, Constantinidou, Chrystala, Unnikrishnan, Meera, Ott, Sascha, Cheng, Jeffrey K.J., Bridgewater, Hannah E., Frost, Lucy R., Taylor-Joyce, Grace, Stark, Richard, Baxter, Laura, Alam, Mohammad T., Brown, Paul E., McClure, Patrick C., Chappell, Joseph G., Tsoleridis, Theocharis, Ball, Jonathan, Grammatopoulos, Dimitris, Buck, David, Todd, John A., Green, Angie, Trebes, Amy, MacIntyre-Cockett, George, de Cesare, Mariateresa, Langford, Cordelia, Alderton, Alex, Amato, Roberto, Goncalves, Sonia, Jackson, David K., Johnston, Ian, Sillitoe, John, Palmer, Steve, Lawniczak, Mara, Berriman, Matt, Danesh, John, Livett, Rich, Shirley, Lesley, Farr, Ben, Quail, Mike, Thurston, Scott, Park, Naomi, Betteridge, Emma, Weldon, Danni, Goodwin, Scott, Nelson, Rachel, Beaver, Charlotte, Letchford, Laura, Jackson, David A., Foulser, Luke, McMinn, Liz, Prestwood, Liam, Kay, Sally, Kane, Leanne, Dorman, Matthew J., Martincorena, Inigo, Puethe, Christoph, Keatley, Jon-Paul, Tonkin-Hill, Gerry, Smith, Christen, Jamrozy, Dorota, Beale, Mathew A., Patel, Minal, Ariani, Cristina, Spencer-Chapman, Michael, Drury, Eleanor, Lo, Stephanie, Rajatileka, Shavanthi, Scott, Carol, James, Keith, Buddenborg, Sarah K., Berger, Duncan J., Patel, Gaurang, Garcia-Casado, Maria V., Dibling, Thomas, McGuigan, Samantha, Rogers, Hazel A., Hunter, Adam D., Souster, Emily, Neaverson, Alexandra S., Volz, Erik, McCrone, John T., O’Toole, Áine, Johnson, Robert, Rey, Sara M., Nicholls, Samuel M., Colquhoun, Rachel M., Shepherd, James, Pascall, David J., Shah, Rajiv, Jesudason, Natasha, Li, Kathy, Jarrett, Ruth, Goodfellow, Ian, and Pybus, Oliver G.

Published

2021

8. In vivo development of cefiderocol resistance in carbapenem-resistant Acinetobacter baumannii associated with the downregulation of a TonB-dependent siderophore receptor, PiuA.

Author

Findlay, Jacqueline, Bianco, Gabriele, Boattini, Matteo, and Nordmann, Patrice

Subjects

*CARBAPENEM-resistant bacteria, *ACINETOBACTER baumannii, *GENE expression, *DOWNREGULATION

Abstract

This article discusses the development of cefiderocol resistance in carbapenem-resistant Acinetobacter baumannii (CRAB) bacteria. CRAB is a leading cause of hospital-acquired infections and is often multidrug-resistant, making treatment challenging. Cefiderocol is a promising treatment option for CRAB infections, but resistance has been reported. The study describes the in vivo development of cefiderocol resistance in a CRAB isolate, which was mediated by a mutation in the promoter region of a specific receptor gene. The mutation resulted in decreased expression of the receptor and increased resistance to cefiderocol. The findings highlight the need for cautious use of cefiderocol to preserve its effectiveness. [Extracted from the article]

Published

2024

9. Modification of the penicillin-binding-protein 3 as a source of resistance to broad-spectrum cephalosporins in Escherichia coli.

Author

Freire, Samanta, Findlay, Jacqueline, Gruner, Eva, Bruderer, Vera, Nordmann, Patrice, and Poirel, Laurent

Subjects

*CEFTAZIDIME, *ESCHERICHIA coli, *BETA lactam antibiotics, *CEPHALOSPORINS, *LACTAMS, *CARBAPENEM-resistant bacteria, *WHOLE genome sequencing, *URINARY tract infections

Abstract

This article discusses the emergence of multidrug-resistant Gram-negative bacteria, specifically focusing on Escherichia coli (E. coli) strains that are resistant to broad-spectrum cephalosporins. The study examines a particular E. coli strain isolated from a patient in Switzerland and investigates the mechanisms behind its resistance. The researchers found that the resistance was not due to common mechanisms such as β-lactamases, but rather a modification in the penicillin-binding-protein 3 (PBP-3) sequence. The study highlights the importance of monitoring and understanding these resistance mechanisms, especially in high-risk multidrug-resistant clones like the one identified in this study. [Extracted from the article]

Published

2024

10. Multifactorial resistance mechanisms associated with resistance to ceftazidime-avibactam in clinical Pseudomonas aeruginosa isolates from Switzerland.

Author

Flury, Baharak Babouee, Bösch, Anja, Gisler, Valentin, Egli, Adrian, Seiffert, Salome N., Nolte, Oliver, and Findlay, Jacqueline

Subjects

PSEUDOMONAS aeruginosa, WHOLE genome sequencing, MULTIDRUG resistance, DRUG resistance in microorganisms, AGAR plates

Abstract

Background: Increasing reports of multidrug resistance (MDR) in clinical Pseudomonas aeruginosa have led to a necessity for new antimicrobials. Ceftazidime-avibactam (CZA) is indicated for use against MDR P. aeruginosa across a broad range of infection types and particularly those that are carbapenem resistant. This study sought to determine the molecular mechanisms of CZA and imipenem (IPM)-resistance in clinical P. aeruginosa isolates obtained from Swiss hospitals. Methods: Clinical P. aeruginosa isolates were obtained from inpatients in three hospitals in Switzerland. Susceptibility was determined by either antibiotic disc testing or broth microdilution according to EUCAST methodology. AmpC activity was determined using cloxacillin and efflux activity was determined using phenylalanine-arginine β-naphthylamide, in agar plates. Whole Genome Sequencing was performed on 18 clinical isolates. Sequence types (STs) and resistance genes were ascertained using the Centre for Genomic Epidemiology platform. Genes of interest were extracted from sequenced isolates and compared to reference strain P. aeruginosa PAO1. Results: Sixteen different STs were identified amongst the 18 isolates in this study indicating a high degree of genomic diversity. No carbapenemases were detected but one isolate did harbor the ESBL blaPER-1. Eight isolates were CZAresistant with MICs ranging from 16-64 mg/L, and the remaining ten isolates had either low/wildtype MICs (n=6; 1-2 mg/L) or elevated, but still susceptible, MICs (n=4; 4-8 mg/L). Ten isolates were IPM-resistant, seven of which had mutations resulting in truncations of OprD, and the remaining nine IPM-susceptible isolates had intact oprD genes. Within CZA-R isolates, and those with reduced susceptibility, mutations resulting in ampC derepression, OprD loss, mexAB overexpression and ESBL (blaPER-1) carriage were observed in various combinations and one harbored a truncation of the PBP4 dacB gene. Within the six isolates with wildtype-resistance levels, five had no mutations that would affect any antimicrobial resistance (AMR) genes of interest when compared to PAO1. Conclusion: This preliminary study highlights that CZA-resistance in P. aeruginosa is multifactorial and could be caused by the interplay between different resistance mechanisms including ESBL carriage, increased efflux, loss of permeability and derepression of its intrinsic ampC. [ABSTRACT FROM AUTHOR]

Published

2023

11. Resistance to ceftazidime-avibactam in a KPC-2–producing Klebsiella pneumoniae caused by the extended-spectrum beta-lactamase VEB-25.

Author

Findlay, Jacqueline, Poirel, Laurent, Bouvier, Maxime, Gaia, Valeria, and Nordmann, Patrice

Subjects

*BETA lactamases, *KLEBSIELLA pneumoniae

Abstract

Carbapenem-resistant Enterobacterales, including KPC-producing Klebsiella pneumoniae, represent a major threat to public health due to their rapid spread. The beta-lactam/beta-lactamase inhibitor (BL/BLI) combination ceftazidime-avibactam (CAZ-AVI) has recently been introduced and shown to exhibit excellent activity toward multidrug-resistant KPC-producing Enterobacterales strains. However, CAZ-AVI-resistant K. pneumoniae isolates are being increasingly reported, mostly corresponding to producers of KPC variants that confer resistance to CAZ-AVI but at a cost of carbapenem resistance. We have characterized here, both phenotypically and genotypically, a clinical CAZ-AVI- and carbapenem-resistant KPC-2 K. pneumoniae isolate co-producing the inhibitor-resistant extended-spectrum beta-lactamase VEB-25. [ABSTRACT FROM AUTHOR]

Published

2023

12. Epidemiology of Acinetobacter baumannii of animal origin

Author

Hamouda, Ahmed, Findlay, Jacqueline, Al Hassan, Leena, and Amyes, Sebastian G.B.

Published

2011

13. Evaluation of three commercial assays for rapid detection of genes encoding clinically relevant carbapenemases in cultured bacteria

Author

Findlay, Jacqueline, Hopkins, Katie L., Meunier, Daniele, and Woodford, Neil

Published

2015

14. Molecular analysis of OXA-48-producing Escherichia coli in Switzerland from 2019 to 2020.

Author

Findlay, Jacqueline, Perreten, Vincent, Poirel, Laurent, and Nordmann, Patrice

Subjects

*ESCHERICHIA coli, *NOSOCOMIAL infections, *KLEBSIELLA pneumoniae, *DRUG resistance in bacteria

Abstract

OXA-48-type ß-lactamases are the most prevalent carbapenemase-type in Enterobacterales in Switzerland, predominantly found in Escherichia coli and Klebsiella pneumoniae. Bacteria-producing OXA-48-type enzymes are endemic in some parts of the world, including Europe and North Africa, and are a frequent cause of nosocomial infections. Despite the emergence of numerous OXA-48-type variants, the original variant, OXA-48, remains the most prevalent in E. coli. This study describes the epidemiology of OXA-48-producing E. coli isolates submitted to the Swiss National Reference Center for Emerging Antibiotic Resistance (NARA) between January 2019 and December 2020. [ABSTRACT FROM AUTHOR]

Published

2022

15. Characterisation of a novel AmpC beta-lactamase, DHA-33, resistant to inhibition by cloxacillin.

Author

Findlay, Jacqueline, Poirel, Laurent, Cherkaoui, Abdessalam, Schrenzel, Jacques, and Nordmann, Patrice

Subjects

*ESCHERICHIA coli, *INFECTION control, *LACTAMS, *AGAR plates, *ENZYME inhibitors, *PRODUCTION methods, *AGAR

Abstract

Plasmid-encoded DHA-type AmpCs have been extensively reported in Enterobacterales. The expression of the genes encoding these plasmid-mediated enzymes are inducible and these enzymes are capable of conferring resistance to a wide spectrum of beta-lactams including penicillins and broad-spectrum cephalosporins. The identification of infections caused by AmpC-producing bacteria is a necessity, both for infection control/epidemiology purposes and to inform treatment choices. A common testing method for AmpC production in the clinical laboratory setting is to supplement Mueller-Hinton agar plates used for antibiotic disk diffusion with cloxacillin, a potent inhibitor of AmpC enzymes. Here we describe a novel DHA variant, produced by a clinical Escherichia coli isolate, which is resistant to cloxacillin inhibition. [ABSTRACT FROM AUTHOR]

Published

2024

16. Limited phylogenetic overlap between fluoroquinolone-resistant Escherichia coli isolated on dairy farms and those causing bacteriuria in humans living in the same geographical region.

Author

Mounsey, Oliver, Schubert, Hannah, Findlay, Jacqueline, Morley, Katy, Puddy, Emma F, Gould, Virginia C, North, Paul, Bowker, Karen E, Williams, O Martin, Williams, Philip B, Barrett, David C, Cogan, Tristan A, Turner, Katy M, MacGowan, Alasdair P, Reyher, Kristen K, and Avison, Matthew B

Subjects

DAIRY farms, ESCHERICHIA coli, BACTERIURIA, DAIRY farm management, ANIMAL herds, SINGLE nucleotide polymorphisms, HUMAN beings, RESEARCH, CATTLE, BIOLOGICAL evolution, ANIMAL experimentation, RESEARCH methodology, EVALUATION research, COMPARATIVE studies, ESCHERICHIA coli diseases, IMPACT of Event Scale, RESEARCH funding, QUINOLONE antibacterial agents, ANTIBIOTICS, PROBABILITY theory, PHARMACODYNAMICS

Abstract

Background: Our primary aim was to test whether cattle-associated fluoroquinolone-resistant (FQ-R) Escherichia coli found on dairy farms are closely phylogenetically related to those causing bacteriuria in humans living in the same 50 × 50 km geographical region suggestive of farm-human sharing. Another aim was to identify risk factors for the presence of FQ-R E. coli on dairy farms.Methods: FQ-R E. coli were isolated during 2017-18 from 42 dairy farms and from community urine samples. Forty-two cattle and 489 human urinary isolates were subjected to WGS, allowing phylogenetic comparisons. Risk factors were identified using a Bayesian regularization approach.Results: Of 489 FQ-R human isolates, 255 were also third-generation-cephalosporin-resistant, with strong genetic linkage between aac(6')Ib-cr and blaCTX-M-15. We identified possible farm-human sharing for pairs of ST744 and ST162 isolates, but minimal core genome SNP distances were larger between farm-human pairs of ST744 and ST162 isolates (71 and 63 SNPs, respectively) than between pairs of isolates from different farms (7 and 3 SNPs, respectively). Total farm fluoroquinolone use showed a positive association with the odds of isolating FQ-R E. coli, while total dry cow therapy use showed a negative association.Conclusions: This work suggests that FQ-R E. coli found on dairy farms have a limited impact on community bacteriuria within the local human population. Reducing fluoroquinolone use may reduce the on-farm prevalence of FQ-R E. coli and this reduction may be greater when dry cow therapy is targeted to the ecology of resistant E. coli on the farm. [ABSTRACT FROM AUTHOR]

Published

2021

17. In-Vitro Activity of Dimercaptosuccinic Acid in Combination with Carbapenems Against Carbapenem-Resistant Pseudomonas aeruginosa.

Author

Bouvier, Maxime, Freire, Samanta, Findlay, Jacqueline, and Nordmann, Patrice

Subjects

*CARBAPENEM-resistant bacteria, *PSEUDOMONAS aeruginosa, *LEAD poisoning, *MEROPENEM, *CARBAPENEMS

Abstract

Carbapenenemase producers, particularly the metallo-β-lactamase (MBL) types in Pseudomonas aeruginosa, have emerged as an urgent threat in health care settings. MBLs require zinc at their catalytic site and can be inhibited by dimercaptosuccinic acid (DMSA), a metal chelator known for the treatment of lead and mercury intoxication. Isogenic strains of wild-type and OprD-deleted P. aeruginosa PA14, were constructed, producing the MBLs VIM-2, NDM-1, SPM-1, IMP-1, and AIM-1, or the non-MBL carbapenemases, GES-5 and KPC-2. In addition, 59 previously characterized clinical isolates of P. aeruginosa producing different ß-lactamases (including carbapenemases), and with known outer-membrane porin OprD status, were utilized. Minimal inhibitory concentrations values of imipenem and meropenem, and DMSA combinations were determined, and time-kill assays were performed with PA14 expressing VIM-2. Results indicated a significant additive effect of DMSA (most effective at 3 mM) and carbapenems in recombinant and clinical strains of P. aeruginosa expressing MBLs, in particular against VIM producers, which are the most prevalent carbapenemases in P. aeruginosa. This effect was best evidenced with meropenem and in strains without OprD modification. DMSA shows promising efficacy, particularly in combination therapy with meropenem, for treating infections caused by MBL-producing P. aeruginosa. [ABSTRACT FROM AUTHOR]

Published

2025

18. New Delhi Metallo-β-Lactamase-Producing Enterobacterales Bacteria, Switzerland, 2019-2020.

Author

Findlay, Jacqueline, Poirel, Laurent, Kessler, Julie, Kronenberg, Andreas, and Nordmann, Patrice

Subjects

*KLEBSIELLA pneumoniae, *BACTERIA, *NUCLEOTIDE sequencing, *DRUG resistance in bacteria, *ESCHERICHIA coli, *CARBAPENEMASE, *RESEARCH, *RESEARCH methodology, *RNA, *MEDICAL cooperation, *EVALUATION research, *HYDROLASES, *COMPARATIVE studies, *MICROBIAL sensitivity tests

Abstract

Carbapenemase-producing Enterobacterales (CPE) bacteria are a critical global health concern; New Delhi metallo-β-lactamase (NDM) enzymes account for >25% of all CPE found in Switzerland. We characterized NDM-positive CPE submitted to the Swiss National Reference Center for Emerging Antibiotic Resistance during a 2-year period (January 2019-December 2020) phenotypically and by using whole-genome sequencing. Most isolates were either Klebsiella pneumoniae (59/141) or Escherichia coli (52/141), and >50% were obtained from screening swabs. Among the 108 sequenced isolates, NDM-1 was the most prevalent variant, occurring in 56 isolates, mostly K. pneumoniae (34/56); the next most prevalent was NDM-5, which occurred in 49 isolates, mostly E. coli (40/49). Fourteen isolates coproduced a second carbapenemase, predominantly an OXA-48-like enzyme, and almost one third of isolates produced a 16S rRNA methylase conferring panresistance to aminoglycosides. We identified successful plasmids and global lineages as major factors contributing to the increasing prevalence of NDMs in Switzerland. [ABSTRACT FROM AUTHOR]

Published

2021

19. Rapid detection of temocillin resistance in Enterobacterales.

Author

Findlay, Jacqueline, Poirel, Laurent, and Nordmann, Patrice

Subjects

*FOSFOMYCIN, *CARBAPENEM-resistant bacteria, *AGAR, *MUPIROCIN

Abstract

The temocillin test solution was prepared with 21.3 mg/L of temocillin and 150 µL was added into one well of a 96-well polystyrene plate; 150 µL of test solution without temocillin was added into a second well. Temocillin is a semi-synthetic 6- -methoxy derivative of ticarcillin, first developed in 1981.[1] Despite being developed over 40 years ago, temocillin's use as an antimicrobial agent was largely overlooked as a treatment option for infections caused by Gram-negative bacteria due to its poor activity against non-fermenters, including I Pseudomonas i spp. and I Acinetobacter i spp.[1] Temocillin has been demonstrated to have an affinity for penicillin-binding protein 3 in I Escherichia coli i [2] and remarkable stability against a plethora of -lactamases including ESBLs and AmpCs (both plasmid and chromosomal);[3],[4] however, it is not clinically useful against bacteria producing class B (e.g. NDM) or class D (e.g. OXA-48-type) carbapenemases, because those latter enzymes readily hydrolyse this antibiotic, often leading to high MICs of temocillin.[5] A recent study evaluating the use of temocillin against ESBL- and AmpC-producing Enterobacterales confirmed the excellent activity of temocillin, and the few high MICs observed were linked mostly to the carriage of multiple -lactamases by corresponding isolates rather than any single -lactamase type.[6] In recent years, a number of countries in Europe, including Belgium, France, Luxembourg and the UK, have revived the use of this antibiotic, predominantly for the treatment of urinary tract infections but also for bloodstream and lower respiratory tract infections.[7],[8] Subsequently, the surveillance of resistance to temocillin is essential and can be easily determined using either routine broth microdilution or disc diffusion testing; however, such tests require 18-24 h to achieve a result. [Extracted from the article]

Published

2023

20. Variability in carbapenemase activity of intrinsic OxaAb (OXA-51-like) β-lactamase enzymes in Acinetobacter baumannii.

Author

Takebayashi, Yuiko, Findlay, Jacqueline, Heesom, Kate J, Warburton, Philip J, Avison, Matthew B, and Evans, Benjamin A

Abstract

Objectives: To measure the variability in carbapenem susceptibility conferred by different OxaAb variants, characterize the molecular evolution of oxaAb and elucidate the contribution of OxaAb and other possible carbapenem resistance factors in the clinical isolates using WGS and LC-MS/MS.Methods: Antimicrobial susceptibility tests were performed on 10 clinical Acinetobacter baumannii isolates. Carbapenem MICs were evaluated for all oxaAb variants cloned into A. baumannii CIP70.10 and BM4547, with and without their natural promoters. Molecular evolution analysis of the oxaAb variants was performed using FastTree and SplitsTree4. Resistance determinants were studied in the clinical isolates using WGS and LC-MS/MS.Results: Only the OxaAb variants with I129L and L167V substitutions, OxaAb(82), OxaAb(83), OxaAb(107) and OxaAb(110) increased carbapenem MICs when expressed in susceptible A. baumannii backgrounds without an upstream IS element. Carbapenem resistance was conferred with the addition of their natural upstream ISAba1 promoter. LC-MS/MS analysis on the original clinical isolates confirmed overexpression of the four I129L and L167V variants. No other differences in expression levels of proteins commonly associated with carbapenem resistance were detected.Conclusions: Elevated carbapenem MICs were observed by expression of OxaAb variants carrying clinically prevalent substitutions I129L and L167V. To drive carbapenem resistance, these variants required overexpression by their upstream ISAba1 promoter. This study clearly demonstrates that a combination of IS-driven overexpression of oxaAb and the presence of particular amino acid substitutions in the active site to improve carbapenem capture is key in conferring carbapenem resistance in A. baumannii and other mechanisms are not required. [ABSTRACT FROM AUTHOR]

Published

2021

21. Molecular Epidemiology of Escherichia coli Producing CTX-M and pAmpC β-Lactamases from Dairy Farms Identifies a Dominant Plasmid Encoding CTX-M-32 but No Evidence for Transmission to Humans in the Same Geographical Region.

Author

Findlay, Jacqueline, Mounsey, Oliver, Lee, Winnie W. Y., Newbold, Nerissa, Morley, Katy, Schubert, Hannah, Gould, Virginia C., Cogan, Tristan A., Reyher, Kristen K., and Avison, Matthew B.

Subjects

*DAIRY farms, *MOLECULAR epidemiology, *ESCHERICHIA coli, *PLASMIDS, *POPULATION, *DRUG resistance in bacteria

Abstract

Third-generation cephalosporin resistance (3GC-R) in Escherichia coli is a rising problem in human and farmed-animal populations. We conducted wholegenome sequencing analysis of 138 representative 3GC-R isolates previously collected from dairy farms in southwest England and confirmed by PCR to carry acquired 3GC-R genes. This analysis identified blaCTX-M (131 isolates encoding CTX-M-1, -14, -15, -and 32 and the novel variant CTX-M-214), blaCMY-2 (6 isolates), and blaDHA-1 (1 isolate). A highly conserved plasmid was identified in 73 isolates, representing 27 E. coli sequence types. This novel ~220-kb IncHI2 plasmid carrying blaCTX-M-32 was sequenced to closure and designated pMOO-32. It was found experimentally to be stable in cattle and human transconjugant E. coli even in the absence of selective pressure and was found by multiplex PCR to be present on 26 study farms representing a remarkable range of transmission over 1,500 square kilometers. However, the plasmid was not found among human urinary E. coli isolates we recently characterized from people living in the same geographical location, collected in parallel with farm sampling. There were close relatives of two blaCTX-M plasmids circulating among eight human and two cattle isolates, and a closely related blaCMY-2 plasmid was found in one cattle and one human isolate. However, phylogenetic evidence of recent sharing of 3GC-R strains between farms and humans in the same region was not found. [ABSTRACT FROM AUTHOR]

Published

2021

22. A Multispecies Cluster of GES-5 Carbapenemase–Producing Enterobacterales Linked by a Geographically Disseminated Plasmid.

Author

Ellington, Matthew J, Davies, Frances, Jauneikaite, Elita, Hopkins, Katie L, Turton, Jane F, Adams, George, Pavlu, Jiri, Innes, Andrew J, Eades, Christopher, Brannigan, Eimear T, Findlay, Jacqueline, White, Leila, Bolt, Frances, Kadhani, Tokozani, Chow, Yimmy, Patel, Bharat, Mookerjee, Siddharth, Otter, Jonathan A, Sriskandan, Shiranee, and Woodford, Neil

Subjects

HOSPITALS, EPIDEMICS, EPIDEMIOLOGICAL research, GENOMES, POLYMERASE chain reaction, ROUTINE diagnostic tests, SEQUENCE analysis

Abstract

Background Early and accurate treatment of infections due to carbapenem-resistant organisms is facilitated by rapid diagnostics, but rare resistance mechanisms can compromise detection. One year after a Guiana Extended-Spectrum (GES)-5 carbapenemase–positive Klebsiella oxytoca infection was identified by whole-genome sequencing (WGS; later found to be part of a cluster of 3 cases), a cluster of 11 patients with GES-5–positive K. oxytoca was identified over 18 weeks in the same hospital. Methods Bacteria were identified by matrix-assisted laser desorption/ionization–time of flight mass spectrometry, antimicrobial susceptibility testing followed European Committee on Antimicrobial Susceptibility Testing guidelines. Ertapenem-resistant isolates were referred to Public Health England for characterization using polymerase chain reaction (PCR) detection of GES, pulsed-field gel electrophoresis (PFGE), and WGS for the second cluster. Results The identification of the first GES-5 K. oxytoca isolate was delayed, being identified by WGS. Implementation of a GES-gene PCR informed the occurrence of the second cluster in real time. In contrast to PFGE, WGS phylogenetic analysis refuted an epidemiological link between the 2 clusters; it also suggested a cascade of patient-to-patient transmission in the later cluster. A novel GES-5–encoding plasmid was present in K. oxytoca , Escherichia coli , and Enterobacter cloacae isolates from unlinked patients within the same hospital group and in human and wastewater isolates from 3 hospitals elsewhere in the United Kingdom. Conclusions Genomic sequencing revolutionized the epidemiological understanding of the clusters; it also underlined the risk of covert plasmid propagation in healthcare settings and revealed the national distribution of the resistance-encoding plasmid. Sequencing results also informed and led to the ongoing use of enhanced diagnostic tests for detecting carbapenemases locally and nationally. [ABSTRACT FROM AUTHOR]

Published

2020

23. Characterization of AmpC-hyperproducing Escherichia coli from humans and dairy farms collected in parallel in the same geographical region.

Author

Alzayn, Maryam, Findlay, Jacqueline, Schubert, Hannah, Mounsey, Oliver, Gould, Virginia C, Heesom, Kate J, Turner, Katy M, Barrett, David C, Reyher, Kristen K, and Avison, Matthew B

Subjects

*ESCHERICHIA coli, *POPULATION, *DAIRY farms, *LOGISTIC regression analysis, *REGRESSION analysis, *CEPHALOSPORINS, *DAIRY cattle

Abstract

Objectives: To characterize putative AmpC-hyperproducing third-generation cephalosporin-resistant E. coli from dairy farms and their phylogenetic relationships; to identify risk factors for their presence; and to assess evidence for their zoonotic transmission into the local human population.Methods: Proteomics was used to explain differences in antimicrobial susceptibility. WGS allowed phylogenetic analysis. Multilevel, multivariable logistic regression modelling was used to identify risk factors.Results: Increased use of amoxicillin/clavulanate was associated with an increased risk of finding AmpC hyperproducers on farms. Expansion of cephalosporin resistance in AmpC hyperproducers was seen in farm isolates with marR mutations (conferring cefoperazone resistance) or when AmpC was mutated (conferring fourth-generation cephalosporin and cefoperazone resistance). Phylogenetic analysis confirmed the dominance of ST88 amongst farm AmpC hyperproducers but there was no evidence for acquisition of farm isolates by members of the local human population.Conclusions: Clear evidence was found for recent farm-to-farm transmission of AmpC-hyperproducing E. coli and of adaptive mutations to expand resistance. Whilst there was no evidence of isolates entering the local human population, efforts to reduce third-generation cephalosporin resistance on dairy farms must address the high prevalence of AmpC hyperproducers. The finding that amoxicillin/clavulanate use was associated with an increased risk of finding AmpC hyperproducers is important because this is not currently categorized as a highest-priority critically important antimicrobial and so is not currently targeted for specific usage restrictions in the UK. [ABSTRACT FROM AUTHOR]

Published

2020

24. Characterization of cefotaxime-resistant urinary Escherichia coli from primary care in South-West England 2017-18.

Author

Findlay, Jacqueline, Gould, Virginia C, North, Paul, Bowker, Karen E, Williams, Martin O, MacGowan, Alasdair P, and Avison, Matthew B

Subjects

*COLISTIN, *PLASMIDS, *ESCHERICHIA coli, *PRIMARY care, *URINARY tract infections, *CEFOTAXIME, *BETA lactamases, *BACTERIAL proteins, *RESEARCH, *SEQUENCE analysis, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *PRIMARY health care, *HYDROLASES, *COMPARATIVE studies, *ESCHERICHIA coli diseases, *COMMUNITY-acquired infections, *DRUG resistance in microorganisms, *ANTIBIOTICS, *PHARMACODYNAMICS

Abstract

Objectives: Third-generation cephalosporin-resistant Escherichia coli from community-acquired urinary tract infections are increasingly reported worldwide. We sought to determine and characterize the mechanisms of cefotaxime resistance employed by urinary E. coli obtained from primary care, over 12 months, in Bristol and surrounding counties in South-West England.Methods: Cefalexin-resistant E. coli isolates were identified from GP-referred urine samples using disc susceptibility testing. Cefotaxime resistance was determined by subsequent plating onto MIC breakpoint plates. β-Lactamase genes were detected by PCR. WGS was performed on 225 isolates and analyses were performed using the Center for Genomic Epidemiology platform. Patient information provided by the referring general practices was reviewed.Results: Cefalexin-resistant E. coli (n=900) isolates were obtained from urines from 146 general practices. Following deduplication by patient approximately 69% (576/836) of isolates were cefotaxime resistant. WGS of 225 isolates identified that the most common cefotaxime-resistance mechanism was blaCTX-M carriage (185/225), followed by plasmid-mediated AmpCs (pAmpCs) (17/225), AmpC hyperproduction (13/225), ESBL blaSHV variants (6/225) or a combination of both blaCTX-M and pAmpC (4/225). Forty-four STs were identified, with ST131 representing 101/225 isolates, within which clade C2 was dominant (54/101). Ciprofloxacin resistance was observed in 128/225 (56.9%) of sequenced isolates, predominantly associated with fluoroquinolone-resistant clones ST131 and ST1193.Conclusions: Most cefalexin-resistant E. coli isolates were cefotaxime resistant, predominantly caused by blaCTX-M carriage. The correlation between cefotaxime resistance and ciprofloxacin resistance was largely attributable to the high-risk pandemic clones ST131 and ST1193. Localized epidemiological data provide greater resolution than regional data and can be valuable for informing treatment choices in the primary care setting. [ABSTRACT FROM AUTHOR]

Published

2020

25. Impact of OqxR loss of function on the envelope proteome of Klebsiella pneumoniae and susceptibility to antimicrobials.

Author

Ismah, Wan Ahmad Kamil Wan Nur, Takebayashi, Yuiko, Findlay, Jacqueline, Avison, Matthew B, Heesom, Kate J, and Wan Nur Ismah, Wan Ahmad Kamil

Subjects

KLEBSIELLA pneumoniae, PROTEOMICS, MICROBIAL sensitivity tests, BETA lactamases, GENETIC mutation, ANTIBIOTICS, BACTERIAL proteins, BETA lactam antibiotics, CELL physiology, COMPARATIVE studies, DRUG resistance in microorganisms, HYDROLASES, KLEBSIELLA, LIQUID chromatography, MASS spectrometry, RESEARCH methodology, MEDICAL cooperation, MEMBRANE proteins, RESEARCH, RESEARCH funding, EVALUATION research, KLEBSIELLA infections, MEMBRANE transport proteins, PHARMACODYNAMICS

Abstract

Background: In Klebsiella pneumoniae, loss-of-function mutations in the transcriptional repressors RamR and OqxR both have an impact on the production of efflux pumps and porins relevant to antimicrobial efflux/entry.Objectives: To define, in an otherwise isogenic background, the relative effects of OqxR and RamR loss-of-function mutations on envelope protein production, envelope permeability and antimicrobial susceptibility. We also investigated the clinical relevance of an OqxR loss-of-function mutation, particularly in the context of β-lactam susceptibility.Methods: Envelope permeability was estimated using a fluorescent dye accumulation assay. Antimicrobial susceptibility was measured using disc testing. Total envelope protein production was quantified using LC-MS/MS proteomics and quantitative RT-PCR was used to measure transcript levels.Results: Loss of RamR or OqxR reduced envelope permeability in K. pneumoniae by 45%-55% relative to the WT. RamR loss activated AcrAB efflux pump production ∼5-fold and this reduced β-lactam susceptibility, conferring ertapenem non-susceptibility even in the absence of a carbapenemase. In contrast, OqxR loss specifically activated OqxAB efflux pump production >10 000-fold. This reduced fluoroquinolone susceptibility but had little impact on β-lactam susceptibility even in the presence of a β-lactamase.Conclusions: Whilst OqxR loss and RamR loss are both seen in K. pneumoniae clinical isolates, only RamR loss significantly stimulates AcrAB efflux pump production. This means that only RamR mutants have significantly reduced β-lactamase-mediated β-lactam susceptibility and therefore represent a greater clinical threat. [ABSTRACT FROM AUTHOR]

Published

2018

26. Characterization of Carbapenemase-Producing Enterobacteriaceae from Patients in Amman, Jordan.

Author

Aqel, Amin Abdelfattah, Findlay, Jacqueline, Al-Maayteh, Mohammad, Al-Kaabneh, Awatef, Hopkins, Katie L., Alzoubi, Hamed, Masalha, Ibrahim, Turton, Jane, Woodford, Neil, and Ellington, Matthew J.

Subjects

*CARBAPENEMASE, *ENTEROBACTERIACEAE, *BACTERIAL diversity, *KLEBSIELLA pneumoniae, *PUBLIC health

Abstract

We sought to detect and determine the genetic diversity of carbapenemase-producing Enterobacteriaceae (CPE) isolated from clinical specimens in Amman, Jordan. From five hospitals, a total of 2,759 isolates had antimicrobial susceptibilities determined via Vitek II, of which 28 (1%) were carbapenem resistant. Species identifications were determined via matrix-assisted laser desorption ionization time-of-flight mass spectrometry and carbapenemase gene detection via real-time PCR indicated that 23 (82.1%) isolates were Klebsiella pneumoniae (OXA-48-like, n = 7; NDM, n = 14; OXA-48-like and NDM, n = 2), four (14.2%) were Enterobacter cloacae complex (NDM, n = 3 and VIM, n = 1), and one (3.5%) was Escherichia coli (NDM). Sequencing of carbapenemase gene amplicons from a subset of isolates identified blaNDM-1, blaOXA-48, and blaVIM-4 alleles. Strain typing detected seven different K. pneumoniae variable number tandem repeat types, consistent with mostly sporadic occurrences along with limited clonal spread. E. cloacae complex isolates were diverse by pulsed-field gel electrophoresis, with a maximum relatedness of 70%. Plasmid restriction fragment length polymorphism (pRFLP) revealed four distinct profiles associated with NDM-encoding plasmids that were positive for replicons of the FII(K)/FIB or FIB incompatibility (Inc) groups via PCR-based replicon typing. OXA-48-encoding IncL/M plasmids differed by two pRFLP bands. The results show diverse CPE produce OXA-48 and NDM-1 enzymes in Jordan and that the carbapenemase genes are distributed on diverse plasmids in Jordanian hospitals, with some limited evidence for related clusters occurring, emphasizing the need for strict infection control measures. [ABSTRACT FROM AUTHOR]

Published

2018

27. Envelope proteome changes driven by RamA overproduction in Klebsiella pneumoniae that enhance acquired β-lactam resistance.

Author

Jiménez-Castellanos, Juan-Carlos, Wan Nur Ismah, Wan Ahmad Kamil, Yuiko Takebayashi, Findlay, Jacqueline, Schneiders, Thamarai, Heesom, Kate J., Avison, Matthew B., and Takebayashi, Yuiko

Subjects

KLEBSIELLA pneumoniae, PROTEOMICS, BETA lactam antibiotics, DRUG resistance in bacteria, MICROBIAL sensitivity tests, LIQUID chromatography-mass spectrometry, PORINS (Proteins), THERAPEUTICS

Abstract

Objectives: In Klebsiella pneumoniae, overproduction of RamA results in reduced envelope permeability and reduced antimicrobial susceptibility but clinically relevant resistance is rarely observed. Here we have tested whether RamA overproduction can enhance acquired β-lactam resistance mechanisms in K. pneumoniae and have defined the envelope protein abundance changes upon RamA overproduction during growth in low and high osmolarity media.Methods: Envelope permeability was estimated using a fluorescent dye accumulation assay. β-Lactam susceptibility was measured using disc testing. Total envelope protein production was quantified using LC-MS/MS proteomics and transcript levels were quantified using real-time RT-PCR.Results: RamA overproduction enhanced β-lactamase-mediated β-lactam resistance, in some cases dramatically, without altering β-lactamase production. It increased production of efflux pumps and decreased OmpK35 porin production, though micF overexpression showed that OmpK35 reduction has little impact on envelope permeability. A survey of K. pneumoniae bloodstream isolates revealed ramA hyperexpression in 3 of 4 carbapenemase producers, 1 of 21 CTX-M producers and 2 of 19 strains not carrying CTX-M or carbapenemases.Conclusions: Whilst RamA is not a key mediator of antibiotic resistance in K. pneumoniae on its own, it is potentially important for enhancing the spectrum of acquired β-lactamase-mediated β-lactam resistance. LC-MS/MS proteomics analysis has revealed that this enhancement is achieved predominantly through activation of efflux pump production. [ABSTRACT FROM AUTHOR]

Published

2018

28. Covert dissemination of carbapenemase-producing Klebsiella pneumoniae (KPC) in a successfully controlled outbreak: long- and short-read whole-genome sequencing demonstrate multiple genetic modes of transmission.

Author

Martin, Jessica, Orsi, Nicolas M., Kirby, Andrew, Wilcox, Mark H., Young, Nicola, Stoesser, Nicole, Pankhurst, Louise, Navickaite, Indre, De Maio, Nicola, Eyre, David W., Phan, Hang T. T., Peto, Tim E. A., Walker, A. Sarah, Crook, Derrick W., Hill, Robert L. R., Hopkins, Katie L., Woodford, Neil, Findlay, Jacqueline, Turton, Jane F., and Toogood, Giles

Subjects

CARBAPENEMASE, KLEBSIELLA pneumoniae, NUCLEOTIDE sequencing, ENTEROBACTERIACEAE, INFECTION prevention

Abstract

Background: Carbapenemase-producing Enterobacteriaceae (CPE), including KPC-producing Klebsiella pneumoniae (KPC-Kpn), are an increasing threat to patient safety.Objectives: To use WGS to investigate the extent and complexity of carbapenemase gene dissemination in a controlled KPC outbreak.Materials and Methods: Enterobacteriaceae with reduced ertapenem susceptibility recovered from rectal screening swabs/clinical samples, during a 3 month KPC outbreak (2013-14), were investigated for carbapenemase production, antimicrobial susceptibility, variable-number-tandem-repeat profile and WGS [short-read (Illumina), long-read (MinION)]. Short-read sequences were used for MLST and plasmid/Tn4401 fingerprinting, and long-read sequence assemblies for plasmid identification. Phylogenetic analysis used IQTree followed by ClonalFrameML, and outbreak transmission dynamics were inferred using SCOTTI.Results: Twenty patients harboured KPC-positive isolates (6 infected, 14 colonized), and 23 distinct KPC-producing Enterobacteriaceae were identified. Four distinct KPC plasmids were characterized but of 20 KPC-Kpn (from six STs), 17 isolates shared a single pKpQIL-D2 KPC plasmid. All isolates had an identical transposon (Tn4401a), except one KPC-Kpn (ST661) with a single nucleotide variant. A sporadic case of KPC-Kpn (ST491) with Tn4401a-carrying pKpQIL-D2 plasmid was identified 10 months before the outbreak. This plasmid was later seen in two other species and other KPC-Kpn (ST14,ST661) including clonal spread of KPC-Kpn (ST661) from a symptomatic case to nine ward contacts.Conclusions: WGS of outbreak KPC isolates demonstrated blaKPC dissemination via horizontal transposition (Tn4401a), plasmid spread (pKpQIL-D2) and clonal spread (K. pneumoniae ST661). Despite rapid outbreak control, considerable dissemination of blaKPC still occurred among K. pneumoniae and other Enterobacteriaceae, emphasizing its high transmission potential and the need for enhanced control efforts. [ABSTRACT FROM AUTHOR]

Published

2017

29. FRI-2 carbapenemase-producing Enterobacter cloacae complex in the UK.

Author

Meunier, Danièle, Findlay, Jacqueline, Doumith, Michel, Godoy, Daniel, Perry, Claire, Pike, Rachel, Gronthoud, Firza, Shryane, Theresa, Poirel, Laurent, Welfare, William, Woodford, Neil, and Hopkins, Katie L.

Subjects

*ENTEROBACTER cloacae, *CARBAPENEMASE, *POLYMERASE chain reaction, *CARBAPENEMS, *IMIPENEM, *TAZOBACTAM, *MEDICAL care

Abstract

Objectives: Detection of rarer carbapenemases is challenging, as it requires molecular assays with comprehensive coverage or the use of phenotypic methods for the detection of carbapenemase activity. We describe a new class A carbapenemase, FRI-2, in an Enterobacter cloacae complex isolate following implementation of an in-house multiplex PCR for the detection of 'rare' class A carbapenemases.Methods: MICs were determined by agar dilution. A carbapenem-resistant E. cloacae complex isolate was tested by PCR for the class A carbapenemases blaKPC, blaFRI, blaIMI, blaGES and blaSME. Carbapenemase activity was assessed using Carba NP and the carbapenem inactivation method. Whole genome and plasmid analyses of the clinical isolate and the FRI-2 transformant were performed by WGS, respectively. Typing was carried out by PFGE.Results: The E. cloacae complex isolate showed resistance to imipenem (MIC = 16 mg/L), meropenem (MIC = 8 mg/L) and ertapenem (MIC = 8 mg/L), but remained susceptible to piperacillin/tazobactam (MIC = 8 mg/L). Carbapenemase activity was confirmed in the isolate by both phenotypic methods. A blaFRI-1-like gene was detected by PCR and analysis of WGS data of the clinical isolate identified an ORF of 885 bp, which showed 97% nucleotide identity with blaFRI-1 and was named blaFRI-2. WGS of the transformant indicated blaFRI-2 was located on a 108 kb IncF/IncR plasmid. The FRI-2-positive E. cloacae complex isolate belonged to a novel ST (ST829).Conclusions: The possible circulation of rarer carbapenemases in clinical settings highlights the role of phenotypic tests to detect carbapenemase activity when molecular assays are negative for the 'big 5' carbapenemase families. [ABSTRACT FROM AUTHOR]

Published

2017

30. OXA-48-like carbapenemases in the UK: an analysis of isolates and cases from 2007 to 2014.

Author

Findlay, Jacqueline, Hopkins, Katie L., Loy, Richard, Doumith, Michel, Meunier, Danièle, Hill, Robert, Pike, Rachel, Mustafa, Nazim, Livermore, David M., and Woodford, Neil

Subjects

*CARBAPENEMASE, *PLASMIDS, *ENTEROBACTERIACEAE, *KLEBSIELLA pneumoniae, *ENTEROBACTER cloacae, *TAZOBACTAM, *ANTIBIOTICS, *BACTERIAL proteins, *GENES, *GENOMES, *HYDROLASES, *KLEBSIELLA, *MICROBIAL sensitivity tests, *CARBAPENEMS, *ENTEROBACTERIACEAE diseases, *SEQUENCE analysis, *PHARMACODYNAMICS

Abstract

Objectives: OXA-48-like carbapenemases have spread worldwide since 2001. We analysed patient and microbiological data for UK isolates with these enzymes as confirmed by the national reference laboratory from November 2007 to December 2014.Methods: MICs were determined using BSAC agar dilution. Isolates with reduced susceptibility or resistance to at least one carbapenem and high-level resistance to both piperacillin/tazobactam (MICs ≥64 mg/L) and temocillin (MICs ≥128 mg/L) were screened by PCR for bla OXA-48-like genes. The genomes of about half of the isolates were sequenced, with MLST types, resistance genes and plasmid replicon types inferred. Patient data provided by sending laboratories were reviewed.Results: Isolates ( n  =   741) with OXA-48-like carbapenemases were submitted from 111 UK laboratories, representing 536 patients. Almost all (99%; 736 of 741) were Enterobacteriaceae, predominantly Klebsiella pneumoniae (55%; 408), and most (80%; 595) were from inpatients. WGS of 351 non-duplicate isolates identified bla OXA-48 as the most common variant, found in two-thirds (235 of 351) of isolates, followed by bla OXA-181 (68), bla OXA-232 (32), bla OXA-244 (10), bla OXA-484 (5) and bla OXA-245 (1). Among K. pneumoniae (163 of 351), Escherichia coli (114 of 351) and Enterobacter cloacae (42 of 351), 119 STs were identified. Mapping analyses revealed that 63% (222 of 351) of isolates harboured plasmids that shared >99% identity to one of four known plasmids [pOXA-48a (44%; 154 of 351), pOXA-232 (10%; 34 of 351), pOXA181 (9%; 30 of 351) and pKP3-A (1%; 4 of 351)]; the remaining 37% of isolates harboured bla OXA-48-like in unknown environments.Conclusions: OXA-48-like carbapenemases are an increasing problem in the UK. This study highlights both the role of successful plasmids and the polyclonal nature of their dissemination. [ABSTRACT FROM AUTHOR]

Published

2017

31. Characterization of carbapenemase-producing Enterobacteriaceae in the West Midlands region of England: 2007-14.

Author

Findlay, Jacqueline, Hopkins, Katie L., Alvarez-Buylla, Adela, Meunier, Daniéle, Mustafa, Nazim, Hill, Robert, Pike, Rachel, McCrae, Li-Xu, Hawkey, Peter M., and Woodford, Neil

Subjects

*CARBAPENEMASE, *ENTEROBACTERIACEAE, *PLASMIDS, *GRAM-negative bacteria, *PUBLIC health, *BACTERIAL proteins, *COMPARATIVE studies, *GENES, *GENETICS, *GENOMES, *HYDROLASES, *RESEARCH methodology, *MEDICAL cooperation, *MICROBIAL sensitivity tests, *POLYMERASE chain reaction, *RESEARCH, *EVALUATION research, *ENTEROBACTERIACEAE diseases, *SEQUENCE analysis

Abstract

Objectives: Carbapenemase-producing Enterobacteriaceae (CPE) have been increasingly reported in the UK since 2003. We analysed patient and isolate data for CPE confirmed by the national reference laboratory from laboratories in the West Midlands region from November 2007 to December 2014.Methods: MICs were determined by BSAC agar dilution methodology and isolates exhibiting resistance to one or more carbapenems were screened for carbapenemase genes by PCR. Plasmid analyses were performed after electro-transformation of carbapenemase-encoding plasmids. WGS was performed on both transformants and clinical isolates. Patient data provided by the sending laboratories were reviewed.Results: During the study period, CPE ( n  = 139) were submitted from 13 laboratories in the West Midlands region, originating from 108 patients and including one environmental isolate. CPE submissions increased significantly from 2009 onwards. Isolates were predominantly Klebsiella pneumoniae (89/139) obtained from inpatients. WGS was performed on all clinical isolates and transformants. After deduplication 119 isolates and 96 transformants remained for analysis. Within these, four families of carbapenemase genes were identified: bla NDM (69/119), bla KPC (26/119), bla OXA-48-like (16/119) and bla VIM (7/119); one isolate carried both bla NDM and bla OXA-48-like . Isolates represented diverse STs and plasmid replicon types. Plasmid analyses identified plasmids of different replicon types encoding bla KPC , bla NDM and bla OXA-48-like genes, found across several species and STs.Conclusions: CPE have been reported increasingly in the West Midlands region over a 7 year period. bla NDM , bla KPC and bla OXA-48-like were the dominant carbapenemase genes and were found in a range of diverse genomic/plasmid environments, highlighting their ability to mobilize across different plasmids, often impeding the detection of outbreaks. [ABSTRACT FROM AUTHOR]

Published

2017

32. KPC enzymes in the UK: an analysis of the first 160 cases outside the North-West region.

Author

Findlay, Jacqueline, Hopkins, Katie L., Doumith, Michel, Meunier, Daniéle, Wiuff, Camilla, Hill, Robert, Pike, Rachel, Loy, Richard, Mustafa, Nazim, Livermore, David M., Woodford, Neil, and Meunier, Danièle

Subjects

*KLEBSIELLA pneumoniae, *CARBAPENEMASE, *CARBAPENEMS, *DRUG resistance in bacteria, *ENTEROBACTERIACEAE, *THERAPEUTICS

Abstract

Objectives: Klebsiella pneumoniae carbapenemases (KPCs) have been increasingly reported in the UK since 2003. We analysed patient and isolate data for KPC-positive bacteria confirmed by the national reference laboratory from UK laboratories from August 2003 to August 2014, excluding North-West England, where the epidemiology has previously been studied.Methods: MICs were determined by BSAC agar dilution. Carbapenem-resistant isolates lacking imipenem/EDTA synergy were tested by PCR for blaKPC. MLST and blaKPC sequencing were performed on a subset of isolates. Plasmid analysis was performed by transformation, PCR-based replicon typing and, in some cases, whole-plasmid sequencing. Patient data provided by the sending laboratories were reviewed.Results: Two hundred and ten isolates with KPC enzymes were submitted from 71 UK laboratories outside North-West England, representing 160 patients. All were Enterobacteriaceae, predominantly K. pneumoniae (82%; 173/210), and most (91%; 191/210) were from hospitalized patients. Analysis of 100 isolates identified blaKPC-2 (62%), blaKPC-3 (30%) and blaKPC-4 (8%). Clonal group (CG) 258 was dominant among K. pneumoniae (64%; 54/84), but 21 unrelated STs were also identified. Plasmid analysis identified a diverse range of plasmids representing >11 different replicon types and found in multiple STs and species. Most (34/35) plasmids with IncFIB/FIIK replicons exhibited >99% sequence identity to pKpQIL.Conclusions: KPC enzymes are increasingly detected in Enterobacteriaceae in the UK, albeit without the major outbreaks seen in North-West England. K. pneumoniae CG258 are the dominant hosts, but plasmid spread plays a major role in KPC dissemination between other K. pneumoniae STs and enterobacterial species. [ABSTRACT FROM AUTHOR]

Published

2016

33. Multicentre evaluation of a real-time PCR assay to detect genes encoding clinically relevant carbapenemases in cultured bacteria.

Author

Ellington, Matthew J., Findlay, Jacqueline, Hopkins, Katie L., Meunier, Danièle, Alvarez-Buylla, Adela, Horner, Carolyne, McEwan, Ashley, Guiver, Malcolm, McCrae, Li-Xu, Woodford, Neil, and Hawkey, Peter

Subjects

*CARBAPENEMASE, *GENETIC code, *POLYMERASE chain reaction, *BACTERIAL cultures, *BETA lactamases

Abstract

The performance and portability of a multiplex real-time PCR assay to detect KPC, NDM, OXA-48-like and VIM carbapenemase gene families from bacterial isolates was assessed using Rotor-Gene Q and ABI 7500 instruments. Gram-negative bacterial isolates ( n = 502) were comprised of 100 isolates each with KPC, NDM, VIM or OXA-48-like carbapenemases (including 17 with OXA-181) and 2 isolates with NDM + OXA-48-like enzymes (including 1 with OXA-181) as well as 100 assay-negative isolates comprised of 24 IMP-producers, 24 carbapenem-resistant isolates with no known carbapenemase gene and 52 extended-spectrum β-lactamase-producing carbapenem-susceptible isolates. A multicentre evaluation was carried out in five laboratories using a subset of 100 isolates comprised of 22 isolates each with KPC, NDM, OXA-48-like or VIM alleles and 12 isolates that were negative for the assay targets. Initial validation of the assay on both the Rotor-Gene Q and ABI 7500 instruments demonstrated 100% sensitivity amongst the 402 isolates that were positive for KPC, NDM, OXA-48-like (including OXA-181) and VIM carbapenemase genes, whilst the 100 assay-negative samples were correctly identified indicating 100% specificity. During the multicentre evaluation the same 100% level of sensitivity and specificity was observed in each of the five centres that participated. Neither invalid nor false-positive results were observed. In conclusion, the assay offers a portable and reliable option for the detection of bacteria carrying clinically significant carbapenemases encoded by KPC, NDM, VIM and OXA-48-like carbapenemase genes using either of the two most common real-time PCR instrument platforms. [ABSTRACT FROM AUTHOR]

Published

2016

34. IMI-2 carbapenemase in a clinical Klebsiella variicola isolated in the UK.

Author

Hopkins, Katie L., Findlay, Jacqueline, Doumith, Michel, Mather, Barry, Meunier, Danièle, D'Arcy, Stuart, Pike, Rachel, Mustafa, Nazim, Howe, Robin, Wootton, Mandy, and Woodford, Neil

Subjects

*CARBAPENEMASE, *ENTEROBACTER cloacae, *KLEBSIELLA, *ENTEROBACTERIACEAE, *CARBAPENEMS, *BETA lactamases

Abstract

The article discusses a research study on an IMI-2 carbapenemase in a Klebsiella variicola strain isolated in Great Britain. The strain was isolated from an intensive therapy unit patient in 2011 from a soft tissue infection of the buttock. It is stated that this is the first report of an IMI carbapenemase outside of the Enterobacter cloacae complex in Britain.

Published

2017

35. Imipenem resistance in Pseudomonas aeruginosa of animal origin.

Author

Hamouda, Ahmed, Findlay, Jacqueline, and Amyes, Sebastian G B

Published

2012

36. Resist Acineto rapid immunological test for the detection of acquired carbapenemase producers among Acinetobacter spp.

Author

Bouvier, Maxime, Kerbol, Auriane, Findlay, Jacqueline, Freire, Samanta, Poirel, Laurent, and Nordmann, Patrice

Subjects

*ACINETOBACTER, *CARBAPENEMASE, *SENSITIVITY & specificity (Statistics)

Abstract

The Resist Acineto from Coris Bioconcept is a novel immunochromatographic test for detection of the major acquired carbapenemases (OXA-23, OXA-40, OXA-58, and NDM) identified in Acinetobacter spp. This rapid and easy-to-perform test showed an excellent specificity and sensitivity, with positive and negatives predictive values of 100% in both cases. [ABSTRACT FROM AUTHOR]

Published

2023

37. Reduced Antibacterial Drug Resistance and blaCTX-M β-Lactamase Gene Carriage in Cattle-Associated Escherichia coli at Low Temperatures, at Sites Dominated by Older Animals, and on Pastureland: Implications for Surveillance.

Author

Schubert, Hannah, Morley, Katy, Puddy, Emma F., Arbon, Robert, Findlay, Jacqueline, Mounsey, Oliver, Gould, Virginia C., Vass, Lucy, Evans, Madeleine, Rees, Gwen M., Barrett, David C., Turner, Katy M., Cogan, Tristan A., Avison, Matthew B., and Reyher, Kristen K.

Subjects

*LOW temperatures, *ESCHERICHIA coli, *DRUG resistance, *DAIRY farms, *BETA lactamases, *ANIMAL health, *BETA-lactamase inhibitors

Abstract

Little is known about the drivers of critically important antibacterial resistance in species with zoonotic potential present on farms (e.g., CTX-M b-lactamase-positive Escherichia coli). We collected samples monthly between January 2017 and December 2018 on 53 dairy farms in South West England, along with data for 610 variables concerning antibacterial usage, management practices, and meteorological factors. We detected E. coli resistant to amoxicillin, ciprofloxacin, streptomycin, and tetracycline in 2,754/4,145 (66%), 263/4,145 (6%), 1,475/4,145 (36%), and 2,874/4,145 (69%), respectively, of samples from fecally contaminated on-farm and near-farm sites. E. coli positive for blaCTX-M were detected in 224/4,145 (5.4%) of samples. Multilevel, multivariable logistic regression showed antibacterial dry cow therapeutic choice (including use of cefquinome or framycetin) to be associated with higher odds of blaCTX-M positivity. Low average monthly ambient temperature was associated with lower odds of blaCTX-M E. coli positivity in samples and with lower odds of finding E. coli resistant to each of the four test antibacterials. This was in addition to the effect of temperature on total E. coli density. Furthermore, samples collected close to calves had higher odds of having E. coli resistant to each antibacterial, as well as E. coli positive for blaCTX-M. Samples collected on pastureland had lower odds of having E. coli resistant to amoxicillin or tetracycline, as well as lower odds of being positive for blaCTX-M. IMPORTANCE Antibacterial resistance poses a significant threat to human and animal health and global food security. Surveillance for resistance on farms is important for many reasons, including tracking impacts of interventions aimed at reducing the prevalence of resistance. In this longitudinal survey of dairy farm antibacterial resistance, we showed that local temperature--as it changes over the course of a year--was associated with the prevalence of antibacterial-resistant E. coli. We also showed that prevalence of resistant E. coli was lower on pastureland and higher in environments inhabited by young animals. These findings have profound implications for routine surveillance and for surveys carried out for research. They provide important evidence that sampling at a single time point and/or single location on a farm is unlikely to be adequate to accurately determine the status of the farm regarding the presence of samples containing resistant E. coli. [ABSTRACT FROM AUTHOR]

Published

2021