Your search keyword '"Brouwer, M.S.M."' showing total 20 results

1. Comparing the transmission of carbapenemase-producing and extended-spectrum beta-lactamase-producing Escherichia coli between broiler chickens

Author

Dankittipong, Natcha, Alderliesten, Jesse B., Van den Broek, Jan, Dame, M.A., Brouwer, M.S.M., Velkers, Francisca C., Bossers, A., de Vos-de Jong, C.J., Wagenaar, J.A., Stegeman, J.A., Fischer, Egil A.J., Dankittipong, Natcha, Alderliesten, Jesse B., Van den Broek, Jan, Dame, M.A., Brouwer, M.S.M., Velkers, Francisca C., Bossers, A., de Vos-de Jong, C.J., Wagenaar, J.A., Stegeman, J.A., and Fischer, Egil A.J.

Abstract

The emergence of carbapenemase-producing Enterobacteriaceae (CPE) is a threat to public health, because of their resistance to clinically important carbapenem antibiotics. The emergence of CPE in meat-producing animals is particularly worrying because consumption of meat contaminated with resistant bacteria comparable to CPE, such as extended-spectrum beta-lactamase (ESBL)-producing Enterobacteriaceae, contributed to colonization in humans worldwide. Currently, no data on the transmission of CPE in livestock is available. We performed a transmission experiment to quantify the transmission of CPE between broilers to fill this knowledge gap and to compare the transmission rates of CPE and other antibiotic-resistant E. coli. A total of 180 Ross 308 broiler chickens were distributed over 12 pens on the day of hatch (day 0). On day 5, half of the 10 remaining chickens in each pen were orally inoculated with 5·102 colony-forming units of CPE, ESBL, or chloramphenicol-resistant E. coli (catA1). To evaluate the effect of antibiotic treatment, amoxicillin was given twice daily in drinking water in 6 of the 12 pens from days 2–6. Cloacal swabs of all animals were taken to determine the number of infectious broilers. We used a Bayesian hierarchical model to quantify the transmission of the E. coli strains. E. coli can survive in the environment and serve as a reservoir. Therefore, the susceptible-infectious transmission model was adapted to account for the transmission of resistant bacteria from the environment. In addition, the caecal microbiome was analyzed on day 5 and at the end of the experiment on day 14 to assess the relationship between the caecal microbiome and the transmission rates. The transmission rates of CPE were 52 – 68 per cent lower compared to ESBL and catA1, but it is not clear if these differences were caused by differences between the resistance genes or by other differences between the E. coli strains. Differences between the groups in transmission rates

Published

2023

2. Implementation of WGS analysis of ESBL-producing Escherichia coli within EU AMR monitoring in livestock and meat

Author

Brouwer, M.S.M., van Essen-Zandbergen, A., Kant, A., Rapallini, M.L.B.A., Harders, F.L., Bossers, A., Wullings, B.A., Wit, Ben, Veldman, K.T., Brouwer, M.S.M., van Essen-Zandbergen, A., Kant, A., Rapallini, M.L.B.A., Harders, F.L., Bossers, A., Wullings, B.A., Wit, Ben, and Veldman, K.T.

Abstract

BackgroundAs WGS comes of age, changes in EU legislation implemented in 2021 allow its usage for systematic monitoring of ESBL-producing Escherichia coli from livestock and meat, replacing phenotypic testing. Presently, phenotypic testing correlates well with antimicrobial resistance predicted from WGS data. WGS has added value in the wealth of additional information that is present in the data.ObjectivesIn this study we have detected the resistance phenotypes for a panel of antimicrobials while also analysing the molecular epidemiology of ESBL-producing E. coli.MethodsSusceptibility testing was performed with broth microdilution of selectively isolated E. coli. Short-read WGS was performed in parallel and phenotypes predicted based on the sequence data, which was also used to determine the phylogeny of the isolates.ResultsThe phenotypically determined resistance and the predicted resistance correlated 90%–100% for the different antimicrobial classes. Furthermore, clonal relationships were detected amongst ESBL-producing E. coli within livestock sectors and the meat produced by this sector.ConclusionsFurther implementation of WGS analysis of ESBL/AmpC-producing E. coli within the AMR monitoring programme of EU member states and global surveillance programmes will contribute to determining the attribution of livestock in the prevalence of ESBL/AmpC-encoding E. coli in humans.

Published

2023

3. Understanding the genetic basis of the incompatibility of IncK1 and IncK2 plasmids

Author

Rozwandowicz, Marta, Kant, A., Wagenaar, J.A., Mevius, D.J., Hordijk, Joost, Brouwer, M.S.M., Rozwandowicz, Marta, Kant, A., Wagenaar, J.A., Mevius, D.J., Hordijk, Joost, and Brouwer, M.S.M.

Abstract

Antimicrobial resistance is a persistent challenge in human and veterinary medicine, which is often encoded on plasmids which are transmissible between bacterial cells. Incompatibility is the inability of two plasmids to be stably maintained in one cell which is caused by the presence of identical or closely related shared determinants between two plasmids originating from partition or replication mechanisms. For I-complex plasmids in Enterobacteriacae, replication- based incompatibility is caused by the small antisense RNA stem-loop structure called RNAI. The I-complex plasmid group IncK consists of two compatible subgroups, IncK1 and IncK2, for which the RNAI differs only by five nucleotides. In this study we focussed on the interaction of the IncK1 and IncK2 RNAI structures by constructing minireplicons containing the replication region of IncK1 or IncK2 plasmids coupled with a kanamycin resistance marker. Using minireplicons excludes involvement of incompatibility mechanisms other than RNAI. Additionally, we performed single nucleotide mutagenesis targeting the five nucleotides that differ between the IncK1 and IncK2 RNAI sequences of these minireplicons. The obtained results show that a single nucleotide change in the RNAI structure is responsible for the compatible phenotype of IncK1 with IncK2 plasmids. Only nucleotides in the RNAI top loop and interior loop have an effect on minireplicon incompatibility with wild type plasmids, while mutations in the stem of the RNAI structure had no significant effect on incompatibility. Understanding the molecular basis of incompatibility is relevant for future in silico predictions of plasmid incompatibility.

Published

2023

4. NethMap 2023: Consumption of antimicrobial agents and antimicrobial resistance among medically important bacteria in the Netherlands / MARAN 2023: Monitoring of Antimicrobial Resistance and Antibiotic Usage in Animals in the Netherlands in 2022

Author

de Greeff, S.C., Kolwijck, E., Schoffelen, A.F., Altorf-van der Kuil, W., Baltink, J., Melles, D.C., ten Oever, J., Veldman, K.T., Zoetigheid, R.E., Wit, B., Franz, E., Heederik, D.J.J., van Geijlswijk, I.M., Sanders, P., Brouwer, M.S.M., Wullings, B.A., Pijnacker, R., Mughini-Gras, L., Dierikx, C., van Duijkeren, E., van den Beld, M., Broens, E.M., Wagenaar, J.A., van Essen-Zandbergen, A., Suanes López, D.R., Testerink, J.J., Kant, A., Geurts, Y., Rapallini, M.L.B.A., Schapendonk, C.E.P., de Greeff, S.C., Kolwijck, E., Schoffelen, A.F., Altorf-van der Kuil, W., Baltink, J., Melles, D.C., ten Oever, J., Veldman, K.T., Zoetigheid, R.E., Wit, B., Franz, E., Heederik, D.J.J., van Geijlswijk, I.M., Sanders, P., Brouwer, M.S.M., Wullings, B.A., Pijnacker, R., Mughini-Gras, L., Dierikx, C., van Duijkeren, E., van den Beld, M., Broens, E.M., Wagenaar, J.A., van Essen-Zandbergen, A., Suanes López, D.R., Testerink, J.J., Kant, A., Geurts, Y., Rapallini, M.L.B.A., and Schapendonk, C.E.P.

Published

2023

5. cfr and fexA genes in methicillin-resistant Staphylococcus aureus from humans and livestock in the Netherlands

Author

Schouls, L.M., Veldman, K.T., Brouwer, M.S.M., Dierikx, C.M., Witteveen, S., van Santen-Verheuvel, M., Hendrickx, Antoni P.A., Landman, Fabian, Hengeveld, P., Wullings, B.A., Rapallini, M.L.B.A., Wit, Ben, van Duijkeren, Engeline, Schouls, L.M., Veldman, K.T., Brouwer, M.S.M., Dierikx, C.M., Witteveen, S., van Santen-Verheuvel, M., Hendrickx, Antoni P.A., Landman, Fabian, Hengeveld, P., Wullings, B.A., Rapallini, M.L.B.A., Wit, Ben, and van Duijkeren, Engeline

Published

2022

6. Use of insects for food and feed : Scientific overview of the present knowledge on insect rearing, use of residual streams as substrates, and safety aspects

Author

Hoek-van den Hil, E.F., Antonis, A.F.G., Brouwer, M.S.M., Bruins, M.E., Dame, M.A., van Groenestijn, J.W., Haenen, O.L.M., Hoffmans, Y., Meijer, N.P., Veldkamp, T., Vernooij, A.G., Appel, M.J., Hoek-van den Hil, E.F., Antonis, A.F.G., Brouwer, M.S.M., Bruins, M.E., Dame, M.A., van Groenestijn, J.W., Haenen, O.L.M., Hoffmans, Y., Meijer, N.P., Veldkamp, T., Vernooij, A.G., and Appel, M.J.

Published

2022

7. FARMED Deliverable D-JRP12-WP 3.5 Report on initial findings of on-site diagnostic tests and IT solutions for human clinical, veterinary and environmental samples for early warning of emerging resistant pathogens

Author

AbuOun, Manal, Navickaite, Indre, Wilkes, T., Di Domenico, Marco, Garofolo, Giuliano, Bloemen, Bram, Gand, Mathieu, Roosens, Nancy, Vanneste, Kevin, De Keersmaecker, Sigrid, Dijkstra, Q., Otani, Saria, Brouwer, M.S.M., AbuOun, Manal, Navickaite, Indre, Wilkes, T., Di Domenico, Marco, Garofolo, Giuliano, Bloemen, Bram, Gand, Mathieu, Roosens, Nancy, Vanneste, Kevin, De Keersmaecker, Sigrid, Dijkstra, Q., Otani, Saria, and Brouwer, M.S.M.

Published

2022

8. Report on initial findings and protocols for on-site diagnostic tests and IT solutions for human clinical, veterinary and environmental samples for early warning of emerging resistant pathogens : Deliverable D-JRP12-WP 3.2, 3.3, 3.4 & 3.5

Author

AbuOun, Manal, Navickaite, Indre, Wilkes, Thomas I., Di Domenico, Marco, Garofolo, Giuliano, Bloemen, Bram, Gand, Mathieu, Roosens, Nancy, Vanneste, Kevin, De Keersmaecker, Sigrid, Dijkstra, Quillan, Otani, Saria, Brouwer, M.S.M., AbuOun, Manal, Navickaite, Indre, Wilkes, Thomas I., Di Domenico, Marco, Garofolo, Giuliano, Bloemen, Bram, Gand, Mathieu, Roosens, Nancy, Vanneste, Kevin, De Keersmaecker, Sigrid, Dijkstra, Quillan, Otani, Saria, and Brouwer, M.S.M.

Published

2022

9. Monitoring of Antimicrobial Resistance and Antimicrobial Usage in Animals in the Netherlands in 2021

Author

Brouwer, M.S.M., van Essen-Zandbergen, A., Kant, A., Rapallini, M.L.B.A., Harders, F.L., Bossers, A., Wullings, B.A., Wit, Ben, Veldman, K.T., Brouwer, M.S.M., van Essen-Zandbergen, A., Kant, A., Rapallini, M.L.B.A., Harders, F.L., Bossers, A., Wullings, B.A., Wit, Ben, and Veldman, K.T.

Abstract

Monitoring of Antimicrobial Resistance and Antimicrobial Usage in Animals in the Netherlands in 2021. https://wur.eu/maran, Monitoring of Antimicrobial Resistance and Antimicrobial Usage in Animals in the Netherlands in 2021. https://wur.eu/maran

Published

2022

10. Report on an initial assessment of long-read sequencing for metagenome (community, spiked and real simple and complex matrices) and comparison to current short-read standard

Author

De Keersmaecker, Sigrid, Gand, Mathieu, Navickaite, Indre, Gruetzke, Josephine, Bartsch, Lee-Julia, Otani, Saria, Garofolo, Giuliano, Di Domenico, Marco, Michelacci, Valeria, Matamoros, Bosco R., Deneke, Carlus, Di Marcantonio, Lisa, Marotta, Francesca, Fischer, Jennie, Bloemen, Bram, Vanneste, Kevin, Roosens, Nancy, Brouwer, M.S.M., Dijkstra, Quillan, Overballe-Petersen, Soren, Persson, Soren, Rasmussen, Astrid, Gonzalez-Zorn, Bruno, and Abu Oun, Manal

Subjects

Bacteriologie, Host Pathogen Interactie & Diagnostiek, Life Science, Bacteriology, Host Pathogen Interaction & Diagnostics

Published

2022

11. D-JRP12-WP3.1 Review on current scientific literature and overview of commercially available methods for on-site DNA isolation : JRP12-AMRSH5-FARMED

Author

Abu Oun, Manal, Navickaite, Indre, De Keersmaecker, Sigrid, Gand, Mathieu, Persson, Soren, Michelacci, Valeria, Marotta, Francesca, Di Domenico, Marco, Garafolo, Giuliano, Brouwer, M.S.M., Abu Oun, Manal, Navickaite, Indre, De Keersmaecker, Sigrid, Gand, Mathieu, Persson, Soren, Michelacci, Valeria, Marotta, Francesca, Di Domenico, Marco, Garafolo, Giuliano, and Brouwer, M.S.M.

Abstract

The development of tools for real-time detection of antimicrobial resistant (AMR) pathogens is a priority topic of the One Health EJP. For real-time analysis to be achievable on-site (away from the laboratory setting), robust culture independent detection methods, employing minimal equipment are required. Metagenomic sequencing using short-read data has provided insight and detailed compositions of a variety of microbial communities, as well as for the detection of potential pathogens and AMR or virulence genes. In addition to the currently bulky nature of short-read technologies and the difficulty to perform this analysis on site, an important limitation is their inability to reliably associate the genetic context of individual genes to bacteria (including pathogens) within a community.The FARMED project aims to address these issues by using the Oxford Nanopore Technologies (ONT) MinION, comparing to the current gold standard short-read technology, to evaluate its capability for diagnostic use on a range of sample matrices, particularly on-site at/near point of sample collection. This is enabled by the portability of the ONT technology, allowing on-site analysis, in contrast to short read sequencing. An additional advantage of using ONT sequencing or long-read metagenomic sequencing, is that the local genetic context of AMR genes can be derived, and as such, the presence of the AMR genes can be attributed to specific species or plasmids, within the bacterial community. This technology will enable the identification of a plethora of bacterial species and linkage of AMR genes to particular species. However, the successful application of on-site microbial detection/monitoring is influenced by various factors such as resource-limited working environment, sample collection and importantly the quality of the input DNA for sequencing. In addition, the availability of on-site sequencing and subsequent data analysis needs to be taken into account.This deliverable will revie

Published

2021

12. Plasmids conferring resistance to extended-spectrum beta-lactamases including a rare IncN+IncR multireplicon carrying blaCTX-M-1 in Escherichia coli recoverd from migrating barnacle geese (Branta Leucopis)

Author

Kurittu, Paula, Khakipoor, Banafsheh, Brouwer, M.S.M., Heikinheimo, Annamari, Kurittu, Paula, Khakipoor, Banafsheh, Brouwer, M.S.M., and Heikinheimo, Annamari

Abstract

Background: Increasing antimicrobial resistance (AMR) is a global threat and wild migratory birds may act as mediators of resistant bacteria across country borders. Our objective was to study extended-spectrum beta-lactamase (ESBL) and plasmid-encoded AmpC (pAmpC) producing Escherichia coli in barnacle geese using whole genome sequencing (WGS) and to identify plasmids harboring bla genes.Methods: Barnacle geese feces (n=200) were collected during fall 2017 and spring 2018 from an urban area in Helsinki, Finland. ESBL/AmpC-producing E. coli were recovered from nine samples (4.5%) and isolates were subjected to WGS on both short- and long-read sequencers, enabling hybrid assembly and determination of the genomic location of bla genes.Results: A rare multireplicon IncN+IncR was recovered from one isolate carrying blaCTX-M-1 in addition to aadA2b, lnu(F), and qnrS1. Moreover, rarely detected IncY plasmids in two isolates were found to harbor multiple resistance genes in addition to the human-associated blaCTX-M-15. Poultry-associated blaCMY-2 was identified from the widely distributed IncI1 and IncK plasmids from four different isolates. One isolate harbored an IncI1 plasmid with blaCTX-M-1 and flor. A chromosomal point mutation in the AmpC promoter was identified in one of the isolates. WGS analysis showed isolates carried multiple resistance and virulence genes and harbored multiple different plasmid replicons in addition to bla-carrying plasmids.Conclusions: Our findings suggest that wild migratory birds serve as a limited source of ESBL/AmpC-producing E. coli and may act as disseminators of the epidemic plasmid types IncI1 and IncK but also rarely detected plasmid types carrying multidrug resistance. Human and livestock-associated ESBL enzyme types were recovered from samples, suggesting a potential for interspecies transmission. WGS offers a thorough method for studying AMR from different sources and should be implemented more widely in the future for AMR surveilla

Published

2021

13. Genomic evolution of antimicrobial resistance in Escherichia coli

Author

Leekitcharoenphon, Pimlapas, Johansson, M.H.K., Munk, P., Malorny, B., Skarzyńska, Magdalena, Wadepohl, Katharina, Moyano, Gabriel, Hesp, A., Veldman, K.T., Bossers, A., Zajac, Magdalena, Wasyl, Dariusz, Sanders, P., Gonzales-Zorn, B., Brouwer, M.S.M., Wagenaar, J.A., Heederik, D.J.J., Mevius, D.J., Aarestrup, F.M., Leekitcharoenphon, Pimlapas, Johansson, M.H.K., Munk, P., Malorny, B., Skarzyńska, Magdalena, Wadepohl, Katharina, Moyano, Gabriel, Hesp, A., Veldman, K.T., Bossers, A., Zajac, Magdalena, Wasyl, Dariusz, Sanders, P., Gonzales-Zorn, B., Brouwer, M.S.M., Wagenaar, J.A., Heederik, D.J.J., Mevius, D.J., and Aarestrup, F.M.

Abstract

The emergence of antimicrobial resistance (AMR) is one of the biggest health threats globally. In addition, the use of antimicrobial drugs in humans and livestock is considered an important driver of antimicrobial resistance. The commensal microbiota, and especially the intestinal microbiota, has been shown to have an important role in the emergence of AMR. Mobile genetic elements (MGEs) also play a central role in facilitating the acquisition and spread of AMR genes. We isolated Escherichia coli (n = 627) from fecal samples in respectively 25 poultry, 28 swine, and 15 veal calf herds from 6 European countries to investigate the phylogeny of E. coli at country, animal host and farm levels. Furthermore, we examine the evolution of AMR in E. coli genomes including an association with virulence genes, plasmids and MGEs. We compared the abundance metrics retrieved from metagenomic sequencing and whole genome sequenced of E. coli isolates from the same fecal samples and farms. The E. coli isolates in this study indicated no clonality or clustering based on country of origin and genetic markers; AMR, and MGEs. Nonetheless, mobile genetic elements play a role in the acquisition of AMR and virulence genes. Additionally, an abundance of AMR was agreeable between metagenomic and whole genome sequencing analysis for several AMR classes in poultry fecal samples suggesting that metagenomics could be used as an indicator for surveillance of AMR in E. coli isolates and vice versa

Published

2021

14. I-complex plasmids – a story about incompatibility and host adaptation.

Author

Faculteit Diergeneeskunde, Wagenaar, Jaap, Mevius, Dik, Hordijk, Joost, Brouwer, M.S.M., Rozwandowicz, Marta, Faculteit Diergeneeskunde, Wagenaar, Jaap, Mevius, Dik, Hordijk, Joost, Brouwer, M.S.M., and Rozwandowicz, Marta

Published

2020

15. E. cloacae complex 3568 containing blaIMI-1 encoded on an EcloIMEX putative mobile element.

Author

Brouwer, M.S.M., Rapallini, M., Geurts, Y., Harders, F.L., Bossers, A., Mevius, D.J., Wit, Ben, Veldman, K.T., Brouwer, M.S.M., Rapallini, M., Geurts, Y., Harders, F.L., Bossers, A., Mevius, D.J., Wit, Ben, and Veldman, K.T.

Abstract

E. cloacae complex 3568 was isolated from farm grown shrimps imported from Vietnam. The isolate is carbapenem resistant and sequence data showed that the carbapenmase blaIMI-1 is encoded on an EcloIMEX putative mobile element., E. cloacae complex 3568 was isolated from farm grown shrimps imported from Vietnam. The isolate is carbapenem resistant and sequence data showed that the carbapenmase blaIMI-1 is encoded on an EcloIMEX putative mobile element.

Published

2018

16. Extended-Spectrum Cephalosporin-Resistant Salmonella enterica serovar Heidelberg Strains, the Netherlands

Author

Liakopoulos, A., Geurts, Y., Dierikx, C.M., Brouwer, M.S.M., Kant, A., Wit, B., Heymans, R., Pelt, W. van, and Mevius, D.J.

Subjects

the Netherlands, lcsh:R, lcsh:Medicine, IncI1 plasmids, biochemical phenomena, metabolism, and nutrition, bacterial infections and mycoses, lcsh:Infectious and parasitic diseases, fluids and secretions, extended-spectrum cephalosporins, Epidemiologie, Bioinformatica & Diermodellen, bacteria, Life Science, Epidemiology, Bio-informatics & Animal models, AmpC, lcsh:RC109-216, Salmonella enterica serovar Heidelberg

Abstract

Extended-spectrum cephalosporin-resistant Salmonella enterica serovar Heidelberg strains (JF6X01.0022/XbaI.0251, JF6X01.0326/XbaI.1966, JF6X01.0258/XbaI.1968, and JF6X01.0045/XbaI.1970) have been identified in the United States with pulsed-field gel electrophoresis. Our examination of isolates showed introduction of these strains in the Netherlands and highlight the need for active surveillance and intervention strategies by public health organizations.

Published

2016

17. Complete genome sequences of Incl1 Plasmids carrying extended-spectrum B-Lactamase genes

Author

Brouwer, M.S.M., Bossers, A., Harders, F., van Essen-Zandbergen, A., Mevius, D.J., Smith, H.E., Brouwer, M.S.M., Bossers, A., Harders, F., van Essen-Zandbergen, A., Mevius, D.J., and Smith, H.E.

Abstract

Extended spectrum beta-lactamases (ESBLs) confer resistance to clinically relevant antibiotics. Often, the resistance genes are carried by conjugative plasmids which are responsible for dissemination. Five IncI1 plasmids carrying ESBLs from commensal and clinical Escherichia coli isolates were completely sequenced and annotated along with a non-ESBL carrying IncI1 plasmid.

Published

2014

18. Analysis of a Clostridium difficile PCR ribotype 078 100 kilobase island reveals the presence of a novel transposon, Tn6164

Author

Corver, J., Bakker, D., Brouwer, M.S.M., Harmanus, C., Hensgens, M.P., Roberts, A.P., Lipman, L.J.A., Kuijper, E.J., van Leeuwen, H.C., Corver, J., Bakker, D., Brouwer, M.S.M., Harmanus, C., Hensgens, M.P., Roberts, A.P., Lipman, L.J.A., Kuijper, E.J., and van Leeuwen, H.C.

Abstract

BACKGROUND: Clostridium difficile is the main cause of antibiotic associated diarrhea. In the past decade, the number of C. difficile patients has increased dramatically, coinciding with the emergence of two PCR ribotypes 027 and 078. PCR ribotype 078 is also frequently found during C. difficile outbreaks in pigfarms. Previously, the genome of the PCR ribotype 078 strain M120, a human isolate, was described to contain a unique insert of 100 kilobases. RESULTS: Analysis of this insert revealed over 90 open reading frames, encoding proteins originating from transposons, phages and plasmids. The insert was shown to be a transposon (Tn6164), as evidenced by the presence of an excised and circularised molecule, containing the ligated 5'and 3'ends of the insert. Transfer of the element could not be shown through filter-mating experiments. Whole genome sequencing of PCR ribotype 078 strain 31618, isolated from a diarrheic piglet, showed that Tn6164 was not present in this strain. To test the prevalence of Tn6164, a collection of 231 Clostridium difficile PCR ribotype 078 isolates from human (n = 173) and porcine (n = 58) origin was tested for the presence of this element by PCR. The transposon was present in 9 human, tetracycline resistant isolates, originating from various countries in Europe, and none of the pig strains. Nine other strains, also tetracycline resistant human isolates, contained half of the transposon, suggesting multiple insertion steps yielding the full Tn6164. Other PCR ribotypes (n = 66) were all negative for the presence of the transposon. Multi locus variable tandem repeat analysis revealed genetic relatedness among transposon containing isolates. Although the element contained several potential antibiotic resistance genes, it did not yield a readily distinguishable phenotype. CONCLUSIONS: Tn6164 is a newly described transposon, occurring sporadically in C. difficile PCR ribotype 078 strains. Although no transfer of the element could be shown, we hyp

Published

2012

19. Analysis of a Clostridium difficile PCR ribotype 078 100 kilobase island reveals the presence of a novel transposon, Tn6164

Author

Strategic Infection Biology, Dep IRAS, Corver, J., Bakker, D., Brouwer, M.S.M., Harmanus, C., Hensgens, M.P., Roberts, A.P., Lipman, L.J.A., Kuijper, E.J., van Leeuwen, H.C., Strategic Infection Biology, Dep IRAS, Corver, J., Bakker, D., Brouwer, M.S.M., Harmanus, C., Hensgens, M.P., Roberts, A.P., Lipman, L.J.A., Kuijper, E.J., and van Leeuwen, H.C.

Published

2012

20. I-complex plasmids – a story about incompatibility and host adaptation

Author

Rozwandowicz, Marta, Faculteit Diergeneeskunde, Wagenaar, Jaap, Mevius, Dik, Hordijk, Joost, Brouwer, M.S.M., and University Utrecht

Subjects

plasmid, antimicrobial resistance, incompatibility, phylogeny

Abstract

Antimicrobial resistance (AMR) is a growing problem worldwide. This is mainly the result of the presence of resistance genes in bacteria. When these genes are located in small pieces of DNA, so called plasmids, they can easily spread between bacteria. This thesis gives an overview the different types of plasmids, all with their different resistance genes, and their presence around the globe. Bacteria may contain a number of different plasmids in a single cell. whether any of these plasmids can be stably maintained depends on several factors. One of these factors is called incompatibility, which is the inability of plasmids to be maintained in one cell. Based on this incompatibility plasmids can be categorized in 40 different “Inc” groups, a biological phenomenon that was long used as a typing system to study epidemiology. This thesis focusses on the members of the “I-complex” incompatibility group, found in Enterobacteriaceae and frequently associated with important resistance gene classes such as the so-called Extended Spectrum Beta-lactamases (ESBLs). The I-complex includes IncI1α, IncI1γ, IncI2, IncK, IncB/O and IncZ plasmids. In this thesis the basis of their incompatibility is analysed and the results show that a single mutation (change in DNA) can determine if two plasmids are compatible or not. It concludes that IncB/O and IncZ plasmids, which were previously considered compatible and thus different plasmids, were actually incompatible and should be considered as highly similar. It also shows that the IncK plasmid group, which is an important carrier of resistance genes in human and poultry bacteria, consists of two compatible plasmid lineages, designated IncK1 and IncK2. Studies into the molecular effects of these plasmid types on the physiology of their host cell showed that IncK2 plasmids provide a fitness advantage at a higher environmental temperature which may have resulted in their predominance in poultry over IncK1, which is mostly found in mammals. Overall, the results presented in this thesis highlight the importance of plasmids in the spread of AMR, and it underlines the importance of understanding the plasmid compatibility and its adaptation to the bacterial or animal host.

Published

2020