4.7 Article

Structural Characterization of the D179N and D179Y Variants of KPC-2 β-Lactamase: Ω-Loop Destabilization as a Mechanism of Resistance to Ceftazidime-Avibactam

期刊

出版社

AMER SOC MICROBIOLOGY
DOI: 10.1128/aac.02414-21

关键词

antibiotic resistance; beta-lactamase; protein crystallography

资金

  1. National Institute of Allergy and Infectious Diseases of the National Institutes of Health (NIH) [R21AI142049]
  2. Cleveland Department of Veterans Affairs from the Biomedical Laboratory Research & Development Service of the VA Office of Research and Development [1I01BX001974]
  3. Geriatric Research Education and Clinical Center VISN 10

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The structural study of KPC-2 D179 variants revealed destabilization of the Omega loop, contributing to ceftazidime-avibactam resistance.
Klebsiella pneumoniae carbapenemases (KPC-2 and KPC-3) present a global clinical threat, as these beta-lactamases confer resistance to carbapenems and oxyimino-cephalosporins. Recent clinically identified KPC variants with substitutions at Ambler position D179, located in the Omega loop, are resistant to the beta-lactam/beta-lactamase inhibitor combination ceftazidime-avibactam, but susceptible to meropenem-vaborbactam. To gain insights into ceftazidime-avibactam resistance conferred by D179N/Y variants of KPC-2, crystal structures of these variants were determined. The D179N KPC-2 structure revealed that the change of the carboxyl to an amide moiety at position 179 disrupted the salt bridge with R164 present in wild-type KPC-2. Additional interactions were disrupted in the Omega loop, causing a decrease in the melting temperature. Shifts originating from N179 were also transmitted toward the active site, including similar to 1-angstrom shifts of the deacylation water and interacting residue N170. The structure of the D179Y KPC-2 beta-lactamase revealed more drastic changes, as this variant exhibited disorder of the X loop, with other flanking regions also being disordered. We postulate that the KPC-2 variants can accommodate ceftazidime because the Omega loop is displaced in D179Y or can be more readily displaced in D179N KPC2. To understand why the beta-actamase inhibitor vaborbactam is less affected by the D179 variants than avibactam, we determined the crystal structure of D179N KPC-2 in complex with vaborbactam, which revealed wild-type KPC-2-like vaborbactam-active site interactions. Overall, the structural results regarding KPC-2 D179 variants revealed various degrees of destabilization of the Omega loop that contribute to ceftazidime-avibactam resistance, possible substrate-assisted catalysis of ceftazidime, and meropenem and meropenem-vaborbactam susceptibility.

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