产 KPC 肺炎克雷伯菌在头孢他啶/阿维巴坦治疗期间耐药亚群的体内进化。
In vivo evolution of resistant subpopulations of KPC-producing Klebsiella pneumoniae during ceftazidime/avibactam treatment.
机构信息
Operative Unit of Clinical Microbiology, S. Orsola-Malpighi University Hospital, Bologna, Italy.
Operative Unit of Infectious Diseases, S. Orsola-Malpighi University Hospital, Bologna, Italy.
出版信息
J Antimicrob Chemother. 2018 Jun 1;73(6):1525-1529. doi: 10.1093/jac/dky082.
OBJECTIVES
KPC-producing Klebsiella pneumoniae (KPC-Kp) represent a serious problem worldwide. Herein, we describe the evolution of ceftazidime/avibactam resistance by sequencing longitudinal clinical isolates from a patient with KPC-Kp bloodstream infection undergoing ceftazidime/avibactam treatment.
METHODS
WGS was performed on one ceftazidime/avibactam-susceptible KPC-Kp (BOT-CA-S) and two phenotypically different ceftazidime/avibactam-resistant KPC-Kp with low (BOT-CA-R) and high (BOT-EMO) carbapenem MICs. The population diversity was assessed by the frequency of allele mutations and population analysis profiles (PAPs).
RESULTS
Phylogenetic analysis demonstrated clonal relatedness of the KPC-Kp isolates, all belonging to the clone ST1519. The D179Y mutation in blaKPC-3 was detected in both of the ceftazidime/avibactam-resistant KPC-Kp, whereas it was absent in the ceftazidime/avibactam-susceptible isolate. The mutation emerged independently in the two ceftazidime/avibactam-resistant isolates and was associated with a significant reduction in carbapenem MICs in BOT-CA-R, but not in BOT-EMO. WGS analysis revealed that the frequency of the D179Y mutation was 96.32% and 51.05% in BOT-CA-R and BOT-EMO, respectively. PAP results demonstrated that carbapenem resistance in BOT-EMO was due to the coexistence of mixed subpopulations harbouring WT and mutated blaKPC-3. A bacterial subpopulation with high ceftazidime/avibactam resistance for BOT-EMO KPC-Kp showed low carbapenem MICs, whereas a subpopulation with high meropenem resistance had a low MIC of ceftazidime/avibactam.
CONCLUSIONS
Our analysis indicates that mixed subpopulations of ceftazidime/avibactam-resistant KPC-Kp emerge after ceftazidime/avibactam treatment. The evolution of different subpopulations that are highly resistant to ceftazidime/avibactam likely contributes to treatment failure, thereby highlighting the need for combination treatment strategies to limit selection of ceftazidime/avibactam-resistant KPC-Kp subpopulations.
目的
产 KPC 肺炎克雷伯菌(KPC-Kp)在全球范围内构成严重威胁。本研究通过对 1 例接受头孢他啶/阿维巴坦治疗的产 KPC-Kp 血流感染患者的纵向临床分离株进行测序,描述头孢他啶/阿维巴坦耐药性的演变。
方法
对 1 株头孢他啶/阿维巴坦敏感的 KPC-Kp(BOT-CA-S)和 2 株表型不同的头孢他啶/阿维巴坦耐药 KPC-Kp(BOT-CA-R 株和 BOT-EMO 株,其碳青霉烯类 MIC 值较低和较高)进行全基因组测序。通过等位基因突变和种群分析谱(PAP)的频率评估种群多样性。
结果
系统进化分析显示,KPC-Kp 分离株具有克隆相关性,均属于 ST1519 克隆。头孢他啶/阿维巴坦耐药的 2 株 KPC-Kp 中均检测到 blaKPC-3 的 D179Y 突变,而头孢他啶/阿维巴坦敏感株中则没有。该突变在 2 株头孢他啶/阿维巴坦耐药株中独立出现,并与 BOT-CA-R 中碳青霉烯类 MIC 显著降低相关,但与 BOT-EMO 无关。WGS 分析显示,D179Y 突变在 BOT-CA-R 和 BOT-EMO 中的频率分别为 96.32%和 51.05%。PAP 结果表明,BOT-EMO 中的碳青霉烯类耐药是由于存在同时携带 WT 和突变 blaKPC-3 的混合亚群。BOT-EMO KPC-Kp 的高头孢他啶/阿维巴坦耐药亚群显示出低碳青霉烯类 MICs,而高美罗培南耐药亚群则具有低头孢他啶/阿维巴坦 MICs。
结论
本研究表明,在头孢他啶/阿维巴坦治疗后会出现头孢他啶/阿维巴坦耐药的混合亚群。不同高耐头孢他啶/阿维巴坦亚群的进化可能导致治疗失败,因此需要联合治疗策略来限制头孢他啶/阿维巴坦耐药 KPC-Kp 亚群的选择。
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