The Structural Role of N170 in Substrate‐Assisted Deacylation in KPC‐2 β‐Lactamase

Author:

Parwana Diksha1,Gu Jing1,Chen Shuang1,Bethel Christopher R.2,Marshall Emma2,Hujer Andrea M.23,Bonomo Robert A.23456,Haider Shozeb17ORCID

Affiliation:

1. UCL School of Pharmacy London UK

2. Research Service, Louis Stokes Cleveland Department of Veterans Affairs Medical Center Cleveland, OH USA

3. Department of Medicine Case Western Reserve University School of Medicine Cleveland, OH USA

4. Clinician Scientist Investigator Louis Stokes Cleveland Department of Veterans Affairs Medical Center Cleveland, OH USA

5. Department of Molecular Biology and Microbiology Pharmacology, Biochemistry, and Proteomics and Bioinformatics Case Western Reserve University School of Medicine Cleveland, OH USA

6. CWRU-Cleveland VAMC Center for Antimicrobial Resistance and Epidemiology (Case VA CARES) Cleveland, OH USA

7. UCL Centre for Advanced Research Computing London UK

Abstract

AbstractThe amino acid substitutions in Klebsiella pneumoniae carbapenemase 2 (KPC‐2) that have arisen in the clinic are observed to lead to the development of resistance to ceftazidime‐avibactam, a preferred treatment for KPC bearing Gram‐negative bacteria. Specific substitutions in the omega loop (R164‐D179) result in changes in the structure and function of the enzyme, leading to alterations in substrate specificity, decreased stability, and more recently observed, increased resistance to ceftazidime/avibactam. Using accelerated rare‐event sampling well‐tempered metadynamics simulations, we explored in detail the structural role of R164 and D179 variants that are described to confer ceftazidime/avibactam resistance. The buried conformation of D179 substitutions produce a pronounced structural disorder in the omega loop ‐ more than R164 mutants, where the crystallographic omega loop structure remains mostly intact. Our findings also reveal that the conformation of N170 plays an underappreciated role impacting drug binding and restricting deacylation. The results further support the hypothesis that KPC‐2 D179 variants employ substrate‐assisted catalysis for ceftazidime hydrolysis, involving the ring amine of the aminothiazole group to promote deacylation and catalytic turnover. Moreover, the shift in the WT conformation of N170 contributes to reduced deacylation and an altered spectrum of enzymatic activity.

Publisher

Wiley

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