Norwich Medical School, University of East Anglia, Norwich, UK.
Antimicrobial Resistance and Healthcare Associated Infections Reference Unit, UK Health Security Agency, London, UK.
Int J Antimicrob Agents. 2023 May;61(5):106776. doi: 10.1016/j.ijantimicag.2023.106776. Epub 2023 Mar 8.
Aztreonam/avibactam is being developed on the rationale that aztreonam evades metallo-β-lactamases (MBLs) whilst avibactam protects aztreonam against co-produced serine β-lactamases. This study measured the activity of aztreonam/avibactam against MBL-producing Enterobacterales referred to the UK Health Security Agency in 2015, 2017 and 2019. Minimum inhibitory concentrations (MICs) were determined by broth microdilution, and genome sequences were determined with Illumina technology. For Klebsiella and Enterobacter spp. with NDM, IMP or VIM enzymes, the MICs of aztreonam/avibactam were distributed unimodally, with >90% of isolates inhibited at 1+4 mg/L, and all inhibited at 8+4 mg/L. Over 85% of Escherichia coli with NDM carbapenemases were inhibited at 8+4 mg/L, but their MIC distribution was multi-modal with major peaks at 0.12 and 8 mg/L. Forty-eight of 50 NDM E. coli with high aztreonam/avibactam MICs (defined as ≥8 mg/L) had YRIK inserted after amino acid 333 of penicillin-binding protein (PBP)3, or had a YRIN insert plus an acquired AmpC β-lactamase, commonly CMY-42. Ten of 15 E. coli with moderately raised aztreonam/avibactam MICs (defined as 0.5-4 mg/L) had YRIN inserts without acquired AmpC. Twenty-two of 24 E. coli isolates with normal MICs (defined as 0.03-0.25 mg/L) lacked PBP3 inserts. YRIK inserts were associated with E. coli ST405, and YRIN inserts with ST167; however, many isolates with high or moderately raised MICs were clonally diverse. No substantive MIC distribution shifts occurred across the three survey years; ST405 isolates with YRIK comprised more high-MIC organisms in 2019 compared with earlier years, but the apparent increase lacked significance (P>0.05).
氨曲南/阿维巴坦的开发基于以下原理:氨曲南逃避金属β-内酰胺酶(MBLs),而阿维巴坦则保护氨曲南免受同时产生的丝氨酸β-内酰胺酶的影响。本研究测量了 2015 年、2017 年和 2019 年向英国卫生安全局报告的产 MBL 肠杆菌科对氨曲南/阿维巴坦的活性。通过肉汤微量稀释法测定最小抑菌浓度(MICs),并使用 Illumina 技术测定基因组序列。对于产 NDM、IMP 或 VIM 酶的克雷伯菌属和肠杆菌属,氨曲南/阿维巴坦的 MIC 呈单峰分布,超过 90%的分离物在 1+4mg/L 时被抑制,所有分离物在 8+4mg/L 时被抑制。超过 85%的产 NDM 碳青霉烯酶的大肠杆菌在 8+4mg/L 时被抑制,但它们的 MIC 分布呈多峰型,主要峰值在 0.12 和 8mg/L。50 株高氨曲南/阿维巴坦 MIC(定义为≥8mg/L)的 NDM 大肠杆菌中有 48 株在青霉素结合蛋白(PBP)3 的第 333 位氨基酸后插入 YRIK,或插入 YRIN 加获得的 AmpCβ-内酰胺酶,通常是 CMY-42。15 株中度升高的氨曲南/阿维巴坦 MIC(定义为 0.5-4mg/L)的大肠杆菌中有 10 株没有获得的 AmpC。24 株正常 MIC(定义为 0.03-0.25mg/L)的大肠杆菌中有 22 株缺乏 PBP3 插入物。YRIK 插入物与大肠杆菌 ST405 相关,YRIN 插入物与 ST167 相关;然而,许多高或中度升高 MIC 的分离株具有克隆多样性。在这三年的调查中,没有实质性的 MIC 分布变化;与早期相比,2019 年 YRIK 携带的 ST405 分离株中高 MIC 生物体更多,但这种明显的增加没有统计学意义(P>0.05)。
