Evolution of ceftazidime-avibactam resistance driven by variation in blaKPC-2 to blaKPC-190 during treatment of ST11-K64 hypervirulent Klebsiella pneumoniae
Zeshi Liu, Jing Lei, Xue Zhang, Jian Yin, Yanping Zhang, Ke Lei, Yan Geng, Lingjuan Huang, Qiang Han, He Aili
Abstract
Introduction The emergence of Klebsiella pneumoniae carbapenemase (KPC) variants has significantly compromised the efficacy of ceftazidime-avibactam (CZA), a critical antibiotic for treating carbapenem-resistant K. pneumoniae (CRKP) infections. This study investigates the novel KPC-190 variant, identified in a hypervirulent ST11-K64 K. pneumoniae strain during CZA therapy, which confers resistance to CZA while partially restoring carbapenem susceptibility. Methods The K. pneumoniae clinical isolate LX02 harboring bla KPC-190 was characterized using antimicrobial susceptibility testing, whole-genome sequencing (Illumina and Nanopore), and plasmid analysis. Functional studies included plasmid transformation, cloning assays, and enzyme kinetics (spectrophotometric analysis of purified KPC-190 protein). Genetic context was mapped using bioinformatics tools (RAST, ResFinder, Proksee), and virulence determinants were identified. Results KPC-190 exhibited a unique resistance profile: high-level CZA resistance (MIC >64 μg/mL) with reduced carbapenem MICs (imipenem MIC = 2 μg/mL). Enzyme kinetics revealed decreased K cat/Km for carbapenems and ceftazidime, alongside a 9-fold higher IC50 for avibactam (0.13 μM vs. KPC-2’s 0.014 μM). Genomic analysis identified bla KPC-190 within an IS26 flanked mobile element (IS26-ISKpn8- bla KPC -ΔISKpn6-ΔtnpR-IS26) on an IncFII plasmid. The strain also carried hypervirulence markers ( rmpA2 , iucABCD-iutA , and type 1/3 fimbriae). Discussion The KPC-190 variant underscores the adaptive evolution of bla KPC under antibiotic pressure, combining CZA resistance via enhanced ceftazidime affinity and avibactam evasion with retained carbapenem hydrolysis. Its association with hypervirulence plasmids and IS26-mediated mobility poses a dual threat for dissemination. These findings highlight the urgent need for genomic surveillance and alternative therapies (e.g., meropenem-vaborbactam) to address KPC-190-mediated resistance.