Spheroplast-Mediated Carbapenem Tolerance in Gram-Negative Pathogens

Overview

Journal Antimicrob Agents Chemother

Publisher American Society for Microbiology

Specialty Pharmacology

Date 2019 Jul 10

PMID 31285232

Citations 29

Authors

Trevor Cross

Brett Ransegnola

Jung-Ho Shin

Anna Weaver

Kathy Fauntleroy

Michael S VanNieuwenhze

Lars F Westblade

Tobias Dorr

Affiliations

Soon will be listed here.

Abstract

Antibiotic tolerance, the ability to temporarily sustain viability in the presence of bactericidal antibiotics, constitutes an understudied and yet potentially widespread cause of antibiotic treatment failure. We have previously shown that the Gram-negative pathogen can tolerate exposure to the typically bactericidal β-lactam antibiotics by assuming a spherical morphotype devoid of detectable cell wall material. However, it is unclear how widespread β-lactam tolerance is. Here, we tested a panel of clinically significant Gram-negative pathogens for their response to the potent, broad-spectrum carbapenem antibiotic meropenem. We show that clinical isolates of , , and , but not , exhibited moderate to high levels of tolerance of meropenem, both in laboratory growth medium and in human serum. Importantly, tolerance was mediated by cell wall-deficient spheroplasts, which readily recovered wild-type morphology and growth upon removal of antibiotic. Our results suggest that carbapenem tolerance is prevalent in clinically significant bacterial species, and we suggest that this could contribute to treatment failure associated with these organisms.

Citing Articles

Prevalence and mechanisms of high-level carbapenem antibiotic tolerance in clinical isolates of .

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Sugar phosphate-mediated inhibition of peptidoglycan precursor synthesis.

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Mechanisms conferring bacterial cell wall variability and adaptivity.

Torrens G, Cava F Biochem Soc Trans. 2024; 52(5):1981-1993.

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Cell morphology as biomarker of carbapenem exposure.

Caliskan-Aydogan O, Zaborney Kline C, Alocilja E J Antibiot (Tokyo). 2024; 77(9):600-611.

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