VIM-type metallo-ß-lactamase (MBL)-encoding genomic islands in Pseudomonas spp. in Poland: predominance of clc-like integrative and conjugative elements (ICEs).

OBJECTIVES: To characterize VIM-type metallo-ß-lactamase (MBL)-encoding genomic islands (GIs) in Pseudomonas aeruginosa and P. putida group isolates from Polish hospitals from 2001-2015/16. METHODS: Twelve P. aeruginosa and 20 P. putida group isolates producing VIM-like MBLs were selected from a large collection of these based on epidemiological and typing data. The organisms represented all major epidemic genotypes of these species spread in Poland with chromosomally located blaVIM gene-carrying integrons. The previously determined short-read sequences were complemented by long-read sequencing in this study. The comparative structural analysis of the GIs used a variety of bioinformatic tools. RESULTS: Thirty different GIs with blaVIM integrons were identified in the 32 isolates, of which 24 GIs from 26 isolates were integrative and conjugative elements (ICEs) of the clc family. These in turn were dominated by 21 variants of the GI2/ICE6441 subfamily with a total of 19 VIM integrons, each inserted in the same position within the ICE's Tn21-like transposon Tn4380. The three other ICEs formed a novel ICE6705 subfamily, lacking Tn4380 and having different VIM integrons located in another site of the elements. The remaining six non-ICE GIs represented miscellaneous structures. The presence of various integrons in the same ICE sublineage, and of the same integron in different GIs, indicated circulation and recombination of the integron-carrying genetic platforms across Pseudomonas species/genotypes. CONCLUSIONS: Despite the general diversity of the blaVIM-carrying GIs in Pseudomonas spp. in Poland, a clear predominance of broadly spread and rapidly evolving clc-type ICEs was documented, confirming their significant role in antimicrobial resistance epidemiology.

Country-wide expansion of a VIM-1 carbapenemase-producing Klebsiella oxytoca ST145 lineage in Poland, 2009-2019.

PURPOSE: To elucidate the role of the Klebsiella oxytoca species complex (KoSC) in epidemiology of VIM-type MBL-producing Enterobacterales in Poland. METHODS: The study comprised all 106 VIM-positive KoSC isolates collected by the Polish National Reference Centre for Susceptibility Testing during 2009-2019 from 60 institutions in 35 towns. All isolates were sequenced by Illumina MiSeq, followed by MinION sequencing of selected organisms. Genomes were subjected to bioinformatic analysis, addressing taxonomy, clonality, phylogeny and structural characterisation of key resistance determinants within their chromosomal and plasmidic loci. RESULTS: Among five species identified, K. oxytoca was predominant (n = 92), followed by Klebsiella michiganensis (n = 11). MLST distinguished 18 STs, with the most prevalent Klebsiella oxytoca ST145 (n = 83). The clone segregated a lineage with the In237-like integron [blaVIM-1-aacA4 genes; n = 78], recorded in 28 cities almost all over the country. The integron was located in a ~ 49-50 kb chromosomal mosaic region with multiple other resistance genes, linked to a ~ 51 kb phage-like element. The organism might have originated from Greece, and its evolution in Poland included several events of chromosomal ~ 54-258 kb deletions, comprising the natural ß-lactamase blaOXY gene. A group of other isolates of various species and clones (n = 12) carried the integron In916 on self-transmissible IncA-type plasmids, effectively spreading in Italy, France and Poland. CONCLUSION: KoSC has been one of the major VIM producers in Poland, owing largely to clonal expansion of the specific K. oxytoca-In237-like lineage. Its apparently enhanced epidemic potential may create a danger on international scale.

MDR carbapenemase-producing Klebsiella pneumoniae of the hypervirulence-associated ST23 clone in Poland, 2009-19.

OBJECTIVES: To characterize carbapenemase-producing isolates of the Klebsiella pneumoniae hypervirulent (hvKp) clone ST23 in Poland. METHODS: Fifteen K. pneumoniae ST23 isolates were identified by the Polish surveillance of carbapenemase-producing Enterobacterales. These comprised a cluster with KPC-2 + NDM-1 (n = 7), KPC-2 (n = 1) or NDM-1 (n = 1) enzymes from one hospital from 2018, and sporadic isolates with KPC-2 (n = 1), NDM-1 (n = 1), VIM-1 (n = 1) or OXA-48 (n = 3), recovered from 2009 to 2019 in different towns. The isolates were sequenced by Illumina MiSeq, followed by MinION for six representatives. Clonality, phylogeny, serotypes, virulomes, resistomes and plasmids of the isolates were analysed and compared with international ST23 strains, using various bioinformatic tools. RESULTS: Only two diverse isolates with KPC-2 or VIM-1 were of typical hvKp ST23 serotypes K1 and O1v.2, and its predominant phylogenetic clade. These contained multiple chromosomal (ybt, clb) and pK2044/KpVP-1 plasmid (iuc, iro, rmpADC, rmpA2) virulence loci, whereas carbapenemase and other antimicrobial resistance (AMR) genes were on single additional plasmids. All remaining isolates were of K57 and O2v.2 serotypes, and a minor, distant clade of unclear phylogeny, including also ∼10 isolates from other European countries. These had fewer virulence loci (ybt, iuc, rmpADC, rmpA2) but abounded in plasmids, which with several chromosomal AMR mutations conferred more extensive MDR phenotypes than in K1 O1v.2. Lower clonal diversity than in K1, and numerous common characteristics of the isolates supported the hypothesis of the emerging character of the ST23 K57 clade. CONCLUSIONS: A new MDR ST23 lineage has emerged in Europe, causing a potential threat to public health.

Multiple secondary outbreaks of NDM-producing Enterobacter hormaechei in the context of endemic NDM-producing Klebsiella pneumoniae.

BACKGROUND: Consecutive Polish regions have become endemic for NDM-1-producing Klebsiella pneumoniae ST11, followed by K. pneumoniae ST147. Since 2017 a significant increase in NDM-positive Enterobacter hormaechei cases has been observed. OBJECTIVES: To investigate the origin and character of this increase in NDM-positive E. hormaechei. METHODS: The analysis included 160 NDM-producing Enterobacter cloacae complex isolates, recovered in 2015-20 in 37 centres of 9/16 regions. These were typed by PFGE and MLST, and screened by PCR-mapping for NDM-1-encoding Tn125-like elements. Forty-four isolates were sequenced by MiSeq. Species identification was based on whole-genome average nucleotide identity; clonality and phylogeny were inferred by SNP approaches. The structural plasmid analysis was done for 12 isolates sequenced by MinION. RESULTS: The isolates belonged to 11 STs, predominantly ST89 (65.6%), followed by ST146 (15.6%), ST198 (7.5%) and ST1303 (3.7%), representing different E. hormaechei subspecies. Most of the isolates contained the Tn125A variant of the K. pneumoniae ST11 lineage, and several had Tn125F of the ST147. Individual E. hormaechei genotypes represented various epidemiological situations, from sporadic cases to single-hospital, city and regional outbreaks, including one caused by ST89 organisms with 82 cases in 17 centres. Acquisitions of the Tn125A/Tn125F determinants by the E. hormaechei strains occurred around 10 times and were plasmid-mediated, with a significant plasmid rearrangement in case of Tn125F. CONCLUSIONS: The increase in E. hormaechei NDM-1 cases in Poland is a consequence of the uncontrolled spread of NDM-1-producing K. pneumoniae genotypes. Several E. hormaechei lineages have acquired NDM-encoding plasmids in different locales which started 'secondary' progressive outbreaks.

Dissemination of Klebsiella pneumoniae ST147 NDM-1 in Poland, 2015-19.

OBJECTIVES: To assess the spread of New Delhi metallo-ß-lactamase-1 (NDM-1)-producing Klebsiella pneumoniae ST147 organisms in Poland since an introduction from Tunisia in March 2015, including their phylogenetic position in the global population of the high-risk clone. METHODS: Out of 8925 unique NDM-positive K. pneumoniae isolates identified in Poland from April 2015 till December 2019, 126 isolates, including the Tunisian imports, were related by PFGE and blaNDM gene-carrying Tn125 transposon derivatives. Forty-seven representative isolates were sequenced by Illumina MiSeq. The phylogeny, resistome, virulome and plasmid replicons were analysed and compared with the international ST147 strains. Plasmids of six isolates were studied by the MinION sequencing. RESULTS: A high homogeneity of the 47 isolates was observed, with minor variations in their resistomes and plasmid replicon profiles. However, the detailed SNP comparison discerned a strict outbreak cluster of 40 isolates. All of the organisms were grouped within the ST147 phylogenetic international lineage, and four NDM-1 producers from Tunisia, Egypt and France were the closest relatives of the Polish isolates. Yersiniabactin genes (YbST280 type) were located within the ICEKpn12-like element in most of the outbreak isolates, characterized by O2v1 and KL64 antigen loci. The blaNDM-1 genes were located in double-replicon IncFIIK2+IncFIBK plasmids. CONCLUSIONS: The continuous spread of K. pneumoniae ST147 NDM-1 in Poland since 2015, largely in the Warsaw area, is demonstrated by this genomic analysis. The isolates showed a high degree of homogeneity, and close relatedness to organisms spreading in the Mediterranean region.