Klebsiella Species and Enterobacter cloacae Isolates Harboring bla OXA-181 and bla OXA-48 : Resistome, Fitness Cost, and Plasmid Stability.
Samiratu MahazuIsaac PrahYusuke OtaTakaya HayashiYoko NukuiMasato SuzukiYoshihiko HoshinoYukihiro AkedaToshihiko SuzukiTomoko IshinoAnthony AblordeyRyoichi SaitoPublished in: Microbiology spectrum (2022)
IncX3 and IncL plasmids have been named as catalysts advancing dissemination of bla OXA-181 and bla OXA-48 genes. However, their impact on the performance of host cells is vastly understudied. Genetic characteristics of bla OXA-48 - and bla OXA-181 -containing Klebsiella pneumoniae (EFN299), Klebsiella quasipneumoniae (EFN262), and Enterobacter cloacae (EFN743) isolated from clinical samples in a Ghanaian hospital were investigated by whole-genome sequencing. Transfer of plasmids by conjugation and electroporation, plasmid stability, fitness cost, and genetic context of bla OXA-48 , bla OXA-181 , and bla DHA-1 were assessed. bla OXA-181 was carried on two IncX3 plasmids, an intact 51.5-kb IncX3 plasmid (p262-OXA-181) and a 45.3-kb IncX3 plasmid (p743-OXA-181) without replication protein sequence. The fluoroquinolone-resistant gene qnrS1 region was also excised, and unlike in p262-OXA-181, the bla OXA-181 drug-resistant region was not found on a composite transposon. bla OXA-48 was carried on a 74.6-kb conjugative IncL plasmid with unknown ~10.9-kb sequence insertion. This IncL plasmid proved to be highly transferable, with a conjugation efficiency of 1.8 × 10 -2 . bla DHA-1 was present on an untypeable 22.2 kb genetic structure. Plasmid stability test revealed plasmid loss rate between 4.3% and 12.4%. The results also demonstrated that carriage of IncX3- bla OXA-181 or IncL- bla OXA-48 plasmids was not associated with any fitness defect, but rather an enhanced competitive ability of host cells. This study underscores the significant contribution of IncX3 and IncL plasmids in the dissemination of resistance genes and their efficient transfer calls for regular monitoring to control the expansion of resistant strains. IMPORTANCE The growing rate of antibiotic resistance is an important global health threat. This threat is exacerbated by the lack of safe and potent alternatives to carbapenems in addition to the slow developmental process of newer and effective antibiotics. Infections by carbapenem-resistant Gram-negative bacteria are becoming almost untreatable, leading to poor clinical outcomes and high mortality rates. OXA-48-like carbapenemases are one of the most widespread carbapenemases accounting for resistance among Enterobacteriaecae. We characterized OXA-48- and OXA-181-producing Enterobacteriaecae to gain insights into the genetic basis and mechanism of resistance to carbapenems. Findings from the study showed that the genes encoding these enzymes were carried on highly transmissible plasmids, one of which had sequences absent in other similar plasmids. This implies that mobile genetic elements are important players in the dissemination of resistance genes. Further characterization of this plasmid is warranted to determine the role of this sequence in the spread of resistance genes.
Keyphrases
- klebsiella pneumoniae
- escherichia coli
- multidrug resistant
- drug resistant
- genome wide
- acinetobacter baumannii
- crispr cas
- body composition
- healthcare
- copy number
- type diabetes
- public health
- emergency department
- cardiovascular disease
- wastewater treatment
- signaling pathway
- transcription factor
- cell cycle arrest
- pseudomonas aeruginosa
- mass spectrometry
- fatty acid
- acute care