Environmental microbiome diversity and stability is a barrier to antimicrobial resistance gene accumulation.

When antimicrobial resistant bacteria (ARB) and genes (ARGs) reach novel habitats, they can become part of the habitat's microbiome in the long term if they are able to overcome the habitat's biotic resilience towards immigration. This process should become more difficult with increasing biodiversity, as exploitable niches in a given habitat are reduced for immigrants when more diverse competitors are present. Consequently, microbial diversity could provide a natural barrier towards antimicrobial resistance by reducing the persistence time of immigrating ARB and ARG. To test this hypothesis, a pan-European sampling campaign was performed for structured forest soil and dynamic riverbed environments of low anthropogenic impact. In soils, higher diversity, evenness and richness were significantly negatively correlated with relative abundance of >85% of ARGs. Furthermore, the number of detected ARGs per sample were inversely correlated with diversity. However, no such effects were present in the more dynamic riverbeds. Hence, microbiome diversity can serve as a barrier towards antimicrobial resistance dissemination in stationary, structured environments, where long-term, diversity-based resilience against immigration can evolve.

Genomic characterization of blaVIM-11-harbouring plasmids recovered from Pseudomonas aeruginosa.

OBJECTIVES: To the best of our knowledge, no genomic descriptions of blaVIM-11-harbouring plasmids are available in literature so far. The aim of this study was to describe the genomic features of three blaVIM-11-harbouring plasmids recovered from Pseudomonas aeruginosa isolated in Argentina in different periods. METHODS: blaVIM-11-harbouring plasmids from three clinical P. aeruginosa isolates were transferred by transformation into P. aeruginosa PAO-1. Then, genomic DNA of these transformants was extracted and sequenced using NovaSeq 6000 System-Illumina. De novo assemblies were generated using Unicycler program and reads were mapped against a reference genome of P. aeruginosa PAO-1. Plasmids sequences were predicted identifying the reads that did not map the reference sequence of PAO-1. These reads were recovered and assembled de novo. In silico predictions were carried out using bioinformatics tools. RESULTS: One Plasmid (pP6VIM-11) was distributed in 2 contigs, a second plasmid (pPOta2VIM-11) was found in a single contig, and the last one (pP936401VIM-11) was fragmented into 4 contigs. pP6VIM-11 and pPOta2VIM-11 belonged to the IncP-1ß group, displaying 64% of coverage and 83.9% of identity among them. pP936401VIM-1 plasmid corresponded to the IncN group. The bioinformatic analysis revealed that blaVIM-11 was located in a class 1 integron, flanked by insertion sequences, exhibiting potential for its dissemination. However, none of the plasmids were conjugative. CONCLUSION: This study corresponded to the first description and deposit of blaVIM-11-harbouring plasmids in P. aeruginosa, which expands the limited knowledge about their molecular epidemiology.

Trimethoprim resistance in surface and wastewater is mediated by contrasting variants of the dfrB gene.

Trimethoprim (TMP) is a low-cost, widely prescribed antibiotic. Its effectiveness is increasingly challenged by the spread of genes coding for TMP-resistant dihydrofolate reductases: dfrA, and the lesser-known, evolutionarily unrelated dfrB. Despite recent reports of novel variants conferring high level TMP resistance (dfrB10 to dfrB21), the prevalence of dfrB is still unknown due to underreporting, heterogeneity of the analyzed genetic material in terms of isolation sources, and limited bioinformatic processing. In this study, we explored a coherent set of shotgun metagenomic sequences to quantitatively estimate the abundance of dfrB gene variants in aquatic environments. Specifically, we scanned sequences originating from influents and effluents of municipal sewage treatment plants as well as river-borne microbiomes. Our analyses reveal an increased prevalence of dfrB1, dfrB2, dfrB3, dfrB4, dfrB5, and dfrB7 in wastewater microbiomes as compared to freshwater. These gene variants were frequently found in genomic neighborship with other resistance genes, transposable elements, and integrons, indicating their mobility. By contrast, the relative abundances of the more recently discovered variants dfrB9, dfrB10, and dfrB13 were significantly higher in freshwater than in wastewater microbiomes. Moreover, their direct neighborship with other resistance genes or markers of mobile genetic elements was significantly less likely. Our findings suggest that natural freshwater communities form a major reservoir of the recently discovered dfrB gene variants. Their proliferation and mobilization in response to the exposure of freshwater communities to selective TMP concentrations may promote the prevalence of high-level TMP resistance and thus limit the future effectiveness of antimicrobial therapies.

Reduced selection for antibiotic resistance in community context is maintained despite pressure by additional antibiotics.

Selection for antibiotic resistance at very low antibiotic concentrations has been demonstrated for individual antibiotics in single species experiments. Furthermore, selection in these focal strains is reduced when taking place in complex microbial community context. However, in the environment, bacteria are rarely exposed to single, but rather complex mixtures of selective agents. Here, we explored how the presence of a second selective agent affects selection dynamics between isogenic pairs of focal E. coli strains, differing exclusively in a single resistance determinant, in the absence and presence of a model wastewater community across a gradient of antibiotics. An additional antibiotic that exclusively affects the model wastewater community, but to which the focal strains are resistant to, was chosen as the second selective agent. This allowed exploring how inhibition alters the community's ability to reduce selection. In the presence of the community, the selection coefficient at specific antibiotic concentrations was consistently decreased compared to the absence of the community. While pressure through the second antibiotic significantly decreased the activity and diversity of the community, its ability to reduce selection was consistently maintained at levels comparable to those recorded in absence of the second antibiotic. This indicates that the observed effects of community context on selection dynamics are rather based on competitive or protective effects between the focal strains and a small proportion of bacteria within the community, than on general competition for nutrients. These findings have implications for our understanding of the evolution and selection for multi-drug resistant strains.

Quantification of the mobility potential of antibiotic resistance genes through multiplexed ddPCR linkage analysis.

There is a clear need for global monitoring initiatives to evaluate the risks of antibiotic resistance genes (ARGs) towards human health. Therefore, not only ARG abundances within a given environment, but also their potential mobility, hence their ability to spread to human pathogenic bacteria needs to be quantified. We developed a novel, sequencing-independent method for assessing the linkage of an ARG to a mobile genetic element by statistical analysis of multiplexed droplet digital PCR (ddPCR) carried out on environmental DNA sheared into defined, short fragments. This allows quantifying the physical linkage between specific ARGs and mobile genetic elements, here demonstrated for the sulfonamide ARG sul1 and the Class 1 integron integrase gene intI1. The method's efficiency is demonstrated using mixtures of model DNA fragments with either linked and unlinked target genes: Linkage of the two target genes can be accurately quantified based on high correlation coefficients between observed and expected values (R2) as well as low mean absolute errors (MAE) for both target genes, sul1 (R2 = 0.9997, MAE = 0.71%, n = 24) and intI1 (R2 = 0.9991, MAE = 1.14%, n = 24). Furthermore, we demonstrate that adjusting the fragmentation length of DNA during shearing allows controlling rates of false positives and false negative detection of linkage. The presented method allows rapidly obtaining reliable results in a labor- and cost-efficient manner.

Emergence and clonal expansión of Klebsiella pneumoniae ST307, simultaneously producing KPC-3 and NDM-1

Abstract MDR Klebsiella pneumoniae ST307 is a high-risk clone, whose genetic features contribute to its adaptation to hospital environments and the human host. This study describesthe emergence and clonal dissemination of K. pneumoniae ST307, recovered during November2018 to February 2019 in a hospital in Buenos Aires city, which concurrently harbored KPC-3and NDM-1. These isolates were resistant to all -lactams and to the ceftazidime/avibactamcombination. Molecular studies showed that blaKPC-3was located in Tn4401a platform, whileblaNDM-1was surrounded upstream by ISKpn14 followed by a partial sequence of ISAba125 anddownstream by bleMBL-trpF, located in a 145.5 kb conjugative plasmid belonging to the Inc A/Cgroup. The dissemination of K. pneumoniae ST307 isolates co-producing KPC-3 and NDM-1 couldlead to a worrisome scenario due to the remarkable features of this clone and its resistanceprofile.

Resumen Klebsiella pneumoniae ST307 es un clon de alto riesgo, cuyas características genéticas contribuyen a su adaptación al entorno hospitalario y al huésped humano. Este estudio describe la emergencia y diseminación clonal de aislamientos de K. pneumoniae ST307 productores de KPC-3 y NDM-1, recuperados en un hospital de Buenos Aires. Estos aislamientos fueron resistentes a todos los p-lactámicos y a la combinación ceftacidima/avibactam. Los estudios moleculares evidenciaron que el contexto genético de blaKPC-3 se correspondió con el Tn4401a, mientras que blaNDM-1 estuvo flanqueado corriente arriba por ISKpn14 y una secuencia parcial de ISAba125 y corriente abajo por bleMBL - trpF, localizado a su vez en un plásmido conjugativo de 145.5 kb perteneciente al grupo Inc A/C. La emergencia de aislamientos de K. pneumoniae ST307 coproductores de KPC-3 y NDM-1 pone de manifiesto una situación altamente preocupante debido a las características de este clon y a su perfil de multirresistencia.

Emergence and clonal expansion of Klebsiella pneumoniae ST307, simultaneously producing KPC-3 and NDM-1.

MDR Klebsiella pneumoniae ST307 is a high-risk clone, whose genetic features contribute to its adaptation to hospital environments and the human host. This study describes the emergence and clonal dissemination of K. pneumoniae ST307, recovered during November 2018 to February 2019 in a hospital in Buenos Aires city, which concurrently harbored KPC-3 and NDM-1. These isolates were resistant to all ß-lactams and to the ceftazidime/avibactam combination. Molecular studies showed that blaKPC-3 was located in Tn4401a platform, while blaNDM-1 was surrounded upstream by ISKpn14 followed by a partial sequence of ISAba125 and downstream by bleMBL-trpF, located in a 145.5kb conjugative plasmid belonging to the Inc A/C group. The dissemination of K. pneumoniae ST307 isolates co-producing KPC-3 and NDM-1 could lead to a worrisome scenario due to the remarkable features of this clone and its resistance profile.

Characterisation of blaKPC-2-harbouring plasmids recovered from Pseudomonas aeruginosa ST654 and ST235 high-risk clones.

OBJECTIVE: The main objectives were to describe two blaKPC-2 plasmids recovered from Pseudomonas aeruginosa isolates belonging to the ST654 and ST235 high-risk clones, and to compare with complete sequences of blaKPC-2 harbouring plasmids available in public databases. METHODS: Antimicrobial susceptibility was determined according to CLSI (Clinical and Laboratory Standards Institute) guidelines. Genomes were sequenced using an Illumina MiSeq platform, and blaKPC-2 plasmid sequences were achieved using MinION platform. Sequences were analysed using Unicycler and RAST. In silico predictions of the isolates sequence type (ST), antimicrobial resistance genes, plasmid replicon typing and MOB relaxases were fulfilled using bioinformatics tools. RESULTS: PA_2047 and PA_HdC isolates corresponded to the high-risk clones ST654 and ST235, respectively. The carbapenem resistance was mediated by KPC-2. Both blaKPC-2 harbouring plasmids, pPA_2047 and pPA_HdC, were different among them, non-conjugative and untypable by PlasmidFinder. pPA_2047 presented high identity with a Pae-13 plasmid, and these both located blaKPC-2 in Tn4401b isoform. pPA_HdC displayed a novel architecture, and the genetic context of blaKPC-2 was original. Besides the blaKPC-2 gene, resistance genes to aminoglycosides and quinolones were detected, including the novel phosphotransferase CrpP in PA_HdC. CONCLUSION: This study expands the limited knowledge about the molecular epidemiology of blaKPC-2 in P. aeruginosa from Latin America. Two novel plasmids harbouring blaKPC-2 were described that were untypable by their incompatibility group. The plasmid recovered from P. aeruginosa PA_HdC (ST235) displayed a novel architecture and an original context for blaKPC-2. On the other hand, the genetic platform carrying blaKPC-2 in P. aeruginosa PA_2047 (ST654) seems to a be a classical one.

Full characterization of an IncR plasmid harboring qnrSI recovered from a VIM-11-producing Pseudomonas aeruginosa

Abstract Metallo-p-lactamases (MBL) producing Pseudomonas aeruginosa isolates have been well characterized. Quinolones are commonly used in the treatment of carbapenem-resistant P. aeruginosa infections; however, data about PMQR in this species are scarce. The objective of this study was to report the simultaneous presence of qnrS and blaV-M-n in P. aeruginosa, and to characterize the qnrS-harboring plasmid. Thirty-eight carbapenem-resistant P. aeruginosa isolates were recovered from a hospital in Buenos Aires during 2012. Screening forMBL was assessed by the double disk synergy test using EDTA and carbapenem discs. Plasmid DNA extraction was performed by a method using phenol-chloroform. PCR followed by sequencing was carried out to determine each MBL and PMQR allele. PCR-BseGI-RFLP was performed to detect aac-(6')-Ib-cr. The gyrA-QRDR was sequenced in those PMQR-harboring isolates. Plasmid incompatibility groups and addiction systems were characterized by PCR. The PMQR-carrying plasmid was sequenced using Illumina technology, annotated using RAST and manually curated. Eleven/38 isolates were VIM producers (blaVIM-2 and blaVIM-11) while 1/38 harbored blaIMP-13. One isolate harbored blaVIM-11 and the PMQR qnrSI; however, both markers were located in different plasmids. The qnrSí-harboring plasmid (pP6qnrS1) was 117 945 bp in size, presented 154 CDS and corresponded to the IncR group. In addition to qnrSI, it harbored several aminoglycoside resis-tance markers. Although pP6qnrS1 was non-conjugative, it presented an oriT which made it possible for this plasmid to be transferable. This is the first report on P. aeruginosa carrying both blaVIM-11 and qnrSI, plus the first detection of an IncR plasmid in Argentina.

Resumen Las quinolonas son comúnmente utilizadas en el tratamiento de las infecciones producidas por Pseudomonas aeruginosa resistentes a carbapenems (PARC); aun así, la información sobre la resistencia a quinolonas mediada por plásmidos (PMQR) en esta especie es escasa. El objetivo de este trabajo fue reportar la presencia simultánea de los genes qnrS y blaVIM-11 en PARC y caracterizar el plásmido portador de qnrS. Durante 2012 se recuperaron 38 PARC en un hospital de Buenos Aires. El tamizaje para detectar producción de metalo-beta-lactamasas (MBL) se llevó a cabo mediante sinergia de doble disco utilizando EDTA y carbapenems. El ADN plasmídico fue extraído utilizando fenolcloroformo. Para determinar los alelos de los genes implicados en la síntesis de MBL y de PMQR, se llevó a cabo PCR-secuenciación. Para la detección de aac-(6')-Ib-cr se realizó PCR-BseGI-RFLP. En aquellos aislamientos portadores de PMQR se secuenció el gen gyrA. Los grupos de incompatibilidad y sistemas de adicción fueron caracterizados por PCR. El plásmido portador de PMQR fue secuenciado completamente y curado manualmente. De 38 aislamientos, 11 fueron productores de VIM (blaVIM-2 y blaVIM-11), mientras que uno contenía blaIMP-13. Si bien un aislamiento fue portador de blaVIM-11 y de qnrSI, dichos marcadores se encontraban en distintos plásmidos. El plásmido portador de qnrSI (pP6qnrS1) presentó un tamaño de 117.945 pby 154 secuencias codificantes (CDS); este correspondió al grupo de incompatibilidad IncR. Además de qnrSI, el plásmido portaba diversos marcadores de resistencia a aminoglucósidos. Aun cuando pP6qnrS1 no resultó conjugativo, presentó un oriT, de modo que posiblemente sea transferible. Este es el primer informe acerca de PARC portadora de blaVIM-11 y de qnrSI en simultáneo, además, es la primera descripción de un plásmido IncR en Argentina.

Full characterization of an IncR plasmid harboring qnrS1 recovered from a VIM-11-producing Pseudomonas aeruginosa.

Metallo-ß-lactamases (MBL) producing Pseudomonas aeruginosa isolates have been well characterized. Quinolones are commonly used in the treatment of carbapenem-resistant P. aeruginosa infections; however, data about PMQR in this species are scarce. The objective of this study was to report the simultaneous presence of qnrS and blaVIM-11 in P. aeruginosa, and to characterize the qnrS-harboring plasmid. Thirty-eight carbapenem-resistant P. aeruginosa isolates were recovered from a hospital in Buenos Aires during 2012. Screening for MBL was assessed by the double disk synergy test using EDTA and carbapenem discs. Plasmid DNA extraction was performed by a method using phenol-chloroform. PCR followed by sequencing was carried out to determine each MBL and PMQR allele. PCR-BseGI-RFLP was performed to detect aac-(6')-Ib-cr. The gyrA-QRDR was sequenced in those PMQR-harboring isolates. Plasmid incompatibility groups and addiction systems were characterized by PCR. The PMQR-carrying plasmid was sequenced using Illumina technology, annotated using RAST and manually curated. Eleven/38 isolates were VIM producers (blaVIM-2 and blaVIM-11) while 1/38 harbored blaIMP-13. One isolate harbored blaVIM-11 and the PMQR qnrS1; however, both markers were located in different plasmids. The qnrS1-harboring plasmid (pP6qnrS1) was 117945bp in size, presented 154 CDS and corresponded to the IncR group. In addition to qnrS1, it harbored several aminoglycoside resistance markers. Although pP6qnrS1 was non-conjugative, it presented an oriT which made it possible for this plasmid to be transferable. This is the first report on P. aeruginosa carrying both blaVIM-11 and qnrS1, plus the first detection of an IncR plasmid in Argentina.

Changing epidemiology of KPC-producing Klebsiella pneumoniae in Argentina: Emergence of hypermucoviscous ST25 and high-risk clone ST307.

OBJECTIVES: To assess the epidemiological features of 76 Klebsiella pneumoniae carbapenemase (KPC)-producing Klebsiella pneumoniae (KPC-Kp) isolates recovered from three hospitals in Buenos Aires, Argentina, during 2015-2017. METHODS: Antimicrobial susceptibilities were determined according to CLSI Clinical and Laboratoy Standards guidelines. Molecular typing of KPC-Kp was performed by pulsed-field gel electrophoresis (PFGE)-Xbal and multilocus sequence typing. Plasmid encoded genes involved in carbapenem, fosfomycin and colistin resistance were detected by polymerase chain reaction (PCR) and sequencing. Also, mgrB inactivation was investigated in those colistin-resistant isolates. Genetic platforms involved in horizontal spread of blaKPC were investigated by PCR mapping. RESULTS: Besides ß-lactams, high resistance rates were observed for gentamycin, quinolones and trimethoprim-sulfamethoxazole. KPC-Kp sequence type (ST)258 corresponded to 26% of the isolates, while 42% corresponded to ST25. The other isolates were distributed in a diversity of lineages such as ST11 (10.5%), ST392 (10.5%), ST307, ST13, ST101, ST15 and ST551. blaKPC-2 was detected in 75 of 76 isolates, and one ST307 isolate harboured blaKPC-3. Tn4401 was identified as the genetic platform for blaKPC in epidemic lineages such as ST258 and ST307. However, in ST25 and ST392, which are usually not related to blaKPC, a blaKPC-bearing non-Tn4401 element was identified. Alterations in mgrB were detected in seven of 11 colistin-resistant isolates. CONCLUSIONS: Despite previous reports in Argentina, ST258 is no longer the absolute clone among KPC-Kp isolates. In the present study, dissemination of more virulent lineages such as the hypermucoviscous ST25 was detected. The emergence of the high-risk clone ST307 and occurrence of blaKPC-3 was noticed for the first time in this region.

Co-occurrence of clinically relevant ß-lactamases and MCR-1 encoding genes in Escherichia coli from companion animals in Argentina.

Extended-spectrum ß-lactamase (ESBL), plasmid-mediated AmpC (pAmpC) and MCR-1 phosphoethanolamine transferase enzymes have been pointed out as the main plasmid-mediated mechanisms of resistance to third generation cephalosporins (TGC) and colistin, respectively, and are currently considered a major concern both in human and veterinary medicine. Little data on these resistance determinants prevalence in companion animal infections is available. The aim of this study was to determine the resistance profile of Escherichia coli isolated from pet infections, in Argentina, and to characterize the resistance mechanisms to TGC, as well as the presence of the plasmid-borne colistin resistance gene, mcr-1. A total of 54 E. coli isolates were collected from clinical samples in dogs and cats; from them, 20/54 (37%, CI95: [24%; 51%]) displayed resistance to TGC. In this regard, thirteen pAmpC-producing isolates were positive for blaCMY-2 genes, whereas seven ESBL- producers harboured blaCTX-M-2 (n = 4), blaCTX-M-15 (n = 2) and blaCTX-M-14 (n = 1) genes. One E. coli strain (V80), isolated from a canine urinary tract infection, showed resistance to colistin (MIC = 8 µg/ml) and whole-genome sequencing analysis revealed co-occurrence of mcr-1.1, blaCTX-M-2, aadA1, ant(2'')-Ia, catA1 and sul1 genes; the former being carried by a 60,587-bp IncI2 plasmid, previously reported in human colistin-resistant E. coli. E. coli V80 belonged to ST770 and the highly virulent phylogenetic group B2. In general, most of these multidrug-resistant isolates belonged to the phylogenetic group F (11/20) and to a lesser extent B2 (5/20), B1 (2/20), D (1/20) and E (1/20). In summary, CMY- and CTX-M-type ß-lactamases may constitute the main TGC resistance mechanism in E. coli isolated from pet infections in Argentina, whereas dissemination of colistin resistance mechanism MCR-1 in the human-animal interface has been mediated by IncI2 plasmids.

Spread of Clonally Related Escherichia coli Strains Harboring an IncA/C1 Plasmid Encoding IMP-8 and Its Recruitment into an Unrelated MCR-1-Containing Isolate.

Ten IMP-8-producing Escherichia coli isolates were recovered from surveillance cultures of a neonatal intensive care unit; eight of the isolates were clonally related. A 168.2-kb blaIMP-8 plasmid was fully sequenced, and it corresponded to the recently described IncA/C1-ST13 plasmid. This plasmid was detected in all isolates, even in those that were not clonally related. One unrelated isolate was also resistant to colistin and positive for mcr-1 This marker was located in a 62.7-kb IncI2 plasmid, which was also fully sequenced.

First isolate of KPC-2-producing Klebsiella pneumonaie sequence type 23 from the Americas.

KPC-2-producing Klebsiella pneumoniae isolates mainly correspond to clonal complex 258 (CC258); however, we describe KPC-2-producing K. pneumoniae isolates belonging to invasive sequence type 23 (ST23). KPC-2 has scarcely been reported to occur in ST23, and this report describes the first isolation of this pathogen in the Americas. Acquisition of resistant markers in virulent clones could mark an evolutionary step toward the establishment of these clones as major nosocomial pathogens.