# Unraveling the genomic epidemiology and plasmid-mediated carbapenem resistance of Klebsiella pasteurii

**Authors:** Xinyue Li, Zexuan Song, Jinshuo Liu, Jingguang Jin, Hanxia Wan, Huimin Chen, Xinhua Luo

PMC · DOI: 10.3389/fmicb.2025.1561624 · 2025-03-17

## TL;DR

This study investigates a Klebsiella pasteurii strain resistant to carbapenem antibiotics, identifying a plasmid carrying resistance genes and highlighting the global spread of this multidrug-resistant bacterium.

## Contribution

The study identifies a novel plasmid pK1134-KPC carrying the blaKPC-2 gene and reveals the genomic diversity and antimicrobial resistance patterns of Klebsiella pasteurii isolates globally.

## Key findings

- The plasmid pK1134-KPC, carrying the blaKPC-2 gene, was identified in a Klebsiella pasteurii isolate from an ICU patient.
- Comparative analysis of 48 isolates revealed high genetic diversity and three clades, with widespread antimicrobial resistance genes.
- Twelve blaKPC-carrying accessory genetic elements were identified, classified into Tn7551 and Tn6296-related groups.

## Abstract

This study isolated a Klebsiella pasteurii strain, K1134, from the sputum of an ICU patient, revealing its resistance to the carbapenem antibiotics meropenem and imipenem. Whole-genome sequencing identified a plasmid pK1134-KPC, which carries the carbapenem resistance gene blaKPC-2. pK1134-KPC, belonging to the IncFIIpCP020359 plasmid group, exhibits a modular structure with blaKPC-2 embedded in a 32.09 kb accessory region containing multiple accessory genetic elements (AGEs). Comparative genomic analysis of 48 K. pasteurii isolates from 12 countries showed high genetic diversity, with strains clustered into three clades. Notably, K. pasteurii harbors extensive antimicrobial resistance genes across diverse AGEs, classifying it as multidrug-resistant. Twelve blaKPC-carrying AGEs were identified from the sequences of the isolates, classified into two groups: Tn7551 and Tn6296-related elements. The gene clusters for enterotoxins tilimycin and tilivalline, encompassing key regulators and operons, were present in nearly all strains, with incomplete clusters exclusively observed in clade 3 isolates. This study underscores the global dissemination and genetic adaptability of K. pasteurii, highlighting its potential role as a reservoir for resistance genes and emphasizing the need for robust surveillance to mitigate its public health impact.

## Linked entities

- **Chemicals:** meropenem (PubChem CID 441130), imipenem (PubChem CID 104838)
- **Species:** Klebsiella pasteurii (taxon 2587529), Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** UBAC1 (UBA domain containing 1) [NCBI Gene 10422] {aka GBDR1, KPC2, UBADC1}
- **Species:** Klebsiella pasteurii (species) [taxon 2587529], Homo sapiens (human, species) [taxon 9606]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11955625/full.md

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Source: https://tomesphere.com/paper/PMC11955625