Whole-Genomic Analysis of NDM-5-Producing Enterobacteriaceae Recovered from an Urban River in China

Characterization of colistin-resistant carbapenemase producing Klebsiella pneumoniae in a river receiving wastewater treatment plant effluent

Genes conferring antibiotic resistance phenotype, particularly to last resort antibiotics, pose a significant concern globally. Wastewater treatment plant (WWTP) effluent substantially contributes to antibiotic resistance in receiving rivers, threatening human health. Globally, colistin- and carbapenem-resistant Klebsiella pneumoniae infections cause high morbidity and mortality. We investigated colistin-resistant carbapenemase-producing K. pneumoniae (Co-CRKP) isolates in Kathajodi river receiving WWTP effluent, their resistance genes, and pathogenic potential. Four isolates (Co-CRKP-7, Co-CRKP-8, Co-CRKP-10, and Co-CRKP-15) exhibited extensively drug-resistant (XDR) phenotype, harbouring blaTEM-1, blaCTX-M-15, blaNDM-5, and blaOXA-48 genes. Colistin resistance was attributed to mutations in the pmrA and pmrB genes. Virulence genes (fimH, mrkD, entB, iucA, iutA, and irp1), capsular serotypes (K1, K2) and biofilm formation in the isolates explicated their pathogenicity. Furthermore, Inc plasmid replicons (Y, FrepB, P, K/B, L/M, N, FIA, A/C, and FIB) indicated the dissemination potential of the resistance genes in Co-CRKP isolates. The multi-locus sequence typing showed that Co-CRKP-7 and Co-CRKP-8 belonged to ST42, while Co-CRKP-10 and Co-CRKP-15 were ST16 and ST231, respectively. These high-risk clones carrying multidrug resistance and virulence genes, implicated in numerous outbreaks, have spread worldwide. Our findings emphasize the necessity for effective treatment of hospital wastes to restrict the spread of clinical isolates into aquatic environments.

Study of the Epidemiological and Mechanistic Differences Between Carbapenem-Resistant Klebsiella pneumoniae Infections in Children and Adults

Background

The emergence of carbapenem-resistant Klebsiella pneumoniae (CRKP) has garnered international concern due to its significant antibiotic resistance. Notably, children exhibit distinct resistance mechanisms compared to adults, necessitating a differential approach to antibiotic selection. A thorough analysis of CRKP's epidemiology and drug resistance mechanisms is essential for establishing a robust foundation for clinical anti-infection strategies and precise prevention and control measures.

Methods

This study involved the collection of 31 non-repetitive strains from pediatric and adult patients at a tertiary hospital in China, spanning from July 2016 to July 2022, testing for resistance genes, antimicrobial susceptibility, and homology analysis.

Results

Infants (0-1 year) were the largest pediatric CRKP group, with 61.3% of cases. The neonatal intensive care unit (NICU) and pediatrics were the main departments affected. Adults with CRKP had a mean age of 67 years, with the highest prevalence in neurology and emergency ICU. Antimicrobial susceptibility testing revealed that adult CRKP strains exhibited higher resistance to amikacin, ciprofloxacin, cotrimoxazole, and aztreonam compared to pediatric strains. Conversely, pediatric strains showed a higher rate of resistance to ceftazidime/avibactam. The predominant resistance genes identified were bla NDM-5 in children (58.1%) and bla KPC-2 in adults (87.1%), with over 93% of both groups testing positive for extended-spectrum beta-lactamase (ESBL) genes. Multilocus Sequence Typing (MLST) indicated ST2735 and ST11 as the predominant types in children and adults, respectively. Pulsed-field gel electrophoresis (PFGE) identified clonal transmission patterns of ST11 bla KPC-2 and ST15 bla OXA-232 across both age groups. Notably, this study reports the first instance of ST1114-type CRKP co-producing bla NDM-5 and bla OXA-181 in the NICU.

Conclusion

This study reveals distinct resistance mechanisms and epidemiology in CRKP from children and adults. The identified clonal transmission patterns emphasize the need for improved infection control to prevent the spread of resistant strains.

NDM-5-carrying Klebsiella pneumoniae ST437 belonging to high-risk clonal complex (CC11) from an urban river in eastern India

In this study, we described the carbapenem bla NDM-5-carrying extensive drug-resistant (XDR) K. pneumoniae ST437 from an urban river water Kathajodi in Odisha, India. The presence of carbapenem and co-occurrence of other resistance determinants (bla NDM-5, bla CTX-M, bla SHV, and bla TEM), virulence factors (fimH, mrkD, entB, irp-1, and ybtS), and capsular serotype (K54) represent its pathogenic potential. The insertion sequence ISAba125 and the bleomycin resistance gene ble MBL at upstream and downstream, respectively, could play a significant role in the horizontal transmission of the bla NDM-5. Its biofilm formation ability contributes toward environmental protection and its survivability. MLST analysis assigned the isolate to ST437 and clonal lineage to ST11 (CC11) with a single locus variant. The ST437 K. pneumoniae, a global epidemic clone, has been reported in North America, Europe, and Asia. This work contributes in understanding of the mechanisms behind the spread of bla NDM-5 K. pneumoniae ST437 and demands extensive molecular surveillance of river and nearby hospitals for better community health.

Supplementary Information

The online version contains supplementary material available at 10.1007/s13205-023-03556-5.

A new class A beta-lactamase gene blaCAE-1 coexists with blaAFM-1 in a novel untypable plasmid in Comamonas aquatica

Antimicrobial resistance, especially carbapenem resistance, poses a serious threat to global public health. Here, a carbapenem-resistant Comamonas aquatica isolate SCLZS63 was recovered from hospital sewage. Whole-genome sequencing showed that SCLZS63 has a 4,048,791-bp circular chromosome and three plasmids. The carbapenemase gene bla_AFM-1 is located on the 143,067-bp untypable plasmid p1_SCLZS63, which is a novel type of plasmid with two multidrug-resistant (MDR) regions. Notably, a novel class A serine β-lactamase gene, bla_CAE-1, coexists with bla_AFM-1 in the mosaic MDR2 region. Cloning assay showed that CAE-1 confers resistance to ampicillin, piperacillin, cefazolin, cefuroxime, and ceftriaxone, and elevates the MIC of ampicillin-sulbactam two-fold in Escherichia coli DH5α, suggesting that CAE-1 functions as a broad-spectrum β-lactamase. Amino acid sequences analysis suggested that bla_CAE-1 may originate from Comamonadaceae. The bla_AFM-1 in p1_SCLZS63 is located in a conserved structure of ISCR29-ΔgroL-bla_AFM-1-ble-ΔtrpF-ΔISCR27-msrB-msrA-yfcG-corA. Comprehensive analysis of the bla_AFM-bearing sequences revealed important roles of ISCR29 and ΔISCR27 in the mobilization and truncation of the core module of bla_AFM alleles, respectively. The diverse passenger contents of class 1 integrons flanking the bla_AFM core module make the complexity of genetic contexts for bla_AFM. In conclusion, this study reveals that Comamonas may act as an important reservoir for antibiotics-resistance genes and plasmids in the environment. Continuous monitoring for the environmental emergence of antimicrobial-resistant bacteria is needed to control the spread of antimicrobial resistance.

Genome Assessment of Carbapenem- and Colistin-Resistant Escherichia coli from Patients in a Sentinel Hospital in China

Antimicrobial-resistant (AMR) pathogens are a significant threat to public health worldwide. However, the primary carrier of AMR genes, particularly against last-resort antibiotics, is still only partially studied in Chinese hospitals. In a sentinel hospital in China, we collected 157 E. coli strains from patients between January and July 2021. One bla_NDM-1-, nine bla_NDM-5-, and one mcr-1-positive E. coli recovered from inpatients were identified as resistant to meropenem and colistin. There are 37 virulence genes discovered in the 11 strains, including astA in strain EC21Z-147 (O128: H4), which belongs to the enteroaggregative E. coli (EAEC). The bla_NDM gene is distributed into distinct ST types, including ST48, ST616, ST410, ST711, and ST2003, while the mcr-1 gene was identified in ST117. The conjugative plasmids IncX3, IncI1-I, and IncI2 mediated the bla_NDM-5 and mcr-1 genes detected among inpatients. Notably, the youngest age at which mcr-1-positive E. coli has been reported was at one day old, in a child in which the strain is closely related to strains with animal origins. Hospitals are major environments for the spread and dissemination of critical virulence and AMR genes, which requires active monitoring systems at the genome level to surveil the spread of virulence and AMR.

Whole-genome-sequence-based characterization of an NDM-5-producing uropathogenic Escherichia coli EC1390

Background

Urinary tract infection (UTI) is one of the most common outpatient bacterial infections. In this study, we isolated and characterized an extensively-drug resistant (XDR) NDM-5-producing Escherichia coli EC1390 from a UTI patient by using whole-genome sequencing (WGS) in combination with phenotypic assays.

Methods

Antimicrobial susceptibility to 23 drugs was determined by disk diffusion method. The genome sequence of EC1390 was determined by Nanopore MinION MK1C platform. Conjugation assays were performed to test the transferability of EC1390 plasmids to E. coli recipient C600. Phenotypic assays, including growth curve, biofilm formation, iron acquisition ability, and cell adhesion, were performed to characterize the function of EC1390 plasmids.

Results

Our results showed that EC1390 was only susceptible to tigecycline and colistin, and thus was classified as XDR E. coli. A de novo genome assembly was generated using Nanopore 73,050 reads with an N₅₀ value of 20,936 bp and an N₉₀ value of 7,624 bp. WGS analysis showed that EC1390 belonged to the O101-H10 serotype and phylogenetic group A E. coli. Moreover, EC1390 contained 2 conjugative plasmids with a replicon IncFIA (pEC1390-1 with 156,286 bp) and IncFII (pEC1390-2 with 71,840 bp), respectively. No significant difference was observed in the bacterial growth rate in LB broth and iron acquisition ability between C600, C600 containing pEC1390-1, C600 containing pEC1390-2, and C600 containing pEC1390-1 and pEC1390-2. However, the bacterial growth rate in nutrition-limited M9 broth was increased in C600 containing pEC1390-2, and the cell adhesion ability was increased in C600 containing both pEC1390-1 and pEC1390-2. Moreover, these plasmids modulated the biofilm formation under different conditions.

Conclusions

In summary, we characterized the genome of XDR-E. coli EC1390 and identified two plasmids contributing to the antimicrobial resistance, growth of bacteria in a nutrition-limited medium, biofilm formation, and cell adhesion.

Supplementary Information

The online version contains supplementary material available at 10.1186/s12866-022-02562-6.

Persistence and Dissemination Capacities of a BlaNDM-5-Harboring IncX-3 Plasmid in Escherichia coli Isolated from an Urban River in Montpellier, France

To investigate the capacities of persistence and dissemination of bla_NDM-5 within Escherichia coli and in aquatic environment, we characterized E. coli (sequence type 636) strains B26 and B28 isolated one month apart from the same urban river in Montpellier, France. The two isolates carried a pTsB26 plasmid, which sized 45,495 Kb, harbored bla_NDM-5 gene and belonged to IncX-3 incompatibility group. pTsB26 was conjugative in vitro at high frequency, it was highly stable after 400 generations and it exerted no fitness cost on its host. bla_NDM-5harboring plasmids are widely dispersed in E. coli all around the world, with no lineage specialization. The genomic comparison between B26 and B28 stated that the two isolates probably originated from the same clone, suggesting the persistence of pTsB26 in an E. coli host in aquatic environment.