Deciphering the Evolution of Cephalosporin Resistance to Ceftolozane-Tazobactam in Pseudomonas aeruginosa-Reference-Cited by-同舟云学术

Deciphering the Evolution of Cephalosporin Resistance to Ceftolozane-Tazobactam in Pseudomonas aeruginosa

Published:2018-12-21 Issue:6 Volume:9 Page:
ISSN:2161-2129
Container-title:mBio
language:en
Short-container-title:mBio

Author:

Barnes Melissa D.¹²,Taracila Magdalena A.¹²,Rutter Joseph D.¹,Bethel Christopher R.¹,Galdadas Ioannis³,Hujer Andrea M.¹²,Caselli Emilia⁴,Prati Fabio⁴,Dekker John P.⁵,Papp-Wallace Krisztina M.¹²⁶⁷^ORCID,Haider Shozeb³,Bonomo Robert A.¹²⁸⁹⁶

Affiliation:

1. Research Service, Louis Stokes Cleveland Department of Veterans Affairs, Cleveland, Ohio, USA

2. Department of Medicine, Case Western Reserve University, Cleveland, Ohio, USA

3. UCL School of Pharmacy, University College London, London, United Kingdom

4. Department of Life Science, University of Modena and Reggio Emilia, Modena, Italy

5. Department of Laboratory Medicine, Clinical Center, Microbiology Service, National Institutes of Health, Bethesda, Maryland, USA

6. Department of Biochemistry, Case Western Reserve University, Cleveland, Ohio, USA

7. Department of Proteomics and Bioinformatics, Case Western Reserve University, Cleveland, Ohio, USA

8. Department of Molecular Biology and Microbiology, Case Western Reserve University, Cleveland, Ohio, USA

9. Department of Pharmacology, Case Western Reserve University, Cleveland, Ohio, USA

Abstract

The presence of β-lactamases (e.g., PDC-3) that have naturally evolved and acquired the ability to break down β-lactam antibiotics (e.g., ceftazidime and ceftolozane) leads to highly resistant and potentially lethal Pseudomonas aeruginosa infections. We show that wild-type PDC-3 β-lactamase forms an acyl enzyme complex with ceftazidime, but it cannot accommodate the structurally similar ceftolozane that has a longer R2 side chain with increased basicity. A single amino acid substitution from a glutamate to a lysine at position 221 in PDC-3 (E221K) causes the tyrosine residue at 223 to adopt a new position poised for efficient hydrolysis of both cephalosporins. The importance of the mechanism of action of the E221K variant, in particular, is underscored by its evolutionary recurrences in multiple bacterial species. Understanding the biochemical and molecular basis for resistance is key to designing effective therapies and developing new β-lactam/β-lactamase inhibitor combinations.

Funder

Veterans Affairs Merit Review Program Award

HHS | NIH | National Institute of Allergy and Infectious Diseases

Publisher

American Society for Microbiology

Subject

Virology,Microbiology

Link

https://journals.asm.org/doi/pdf/10.1128/mBio.02085-18

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