Clinically relevant mutations in core metabolic genes confer antibiotic resistance

Although metabolism plays an active role in antibiotic lethality, antibiotic resistance is generally associated with drug target modification, enzymatic inactivation, and/or transport rather than metabolic processes. Evolution experiments of rely on growth-dependent selection, which may provide a li...

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Veröffentlicht in:	Science (American Association for the Advancement of Science) 2021-02, Vol.371 (6531)
Hauptverfasser:	Lopatkin, Allison J, Bening, Sarah C, Manson, Abigail L, Stokes, Jonathan M, Kohanski, Michael A, Badran, Ahmed H, Earl, Ashlee M, Cheney, Nicole J, Yang, Jason H, Collins, James J
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Adaptation, Physiological Anti-Bacterial Agents - pharmacology Antibacterial materials Antibiotic resistance Antibiotics Carbenicillin - pharmacology Carbon Ciprofloxacin - pharmacology Citric Acid Cycle - genetics Clinical significance Complexity Deactivation Directed Molecular Evolution Drug metabolism Drug resistance Drug Resistance, Bacterial - genetics Drug Therapy E coli Energy metabolism Energy Metabolism - genetics Escherichia coli Escherichia coli - drug effects Escherichia coli - genetics Escherichia coli - growth & development Escherichia coli - metabolism Escherichia coli Infections - microbiology Escherichia coli Proteins - genetics Evolution Gene Knockdown Techniques Gene sequencing Genes Genes, Bacterial Genetic diversity Genome, Bacterial Genomes Inactivation Ketoglutarate Dehydrogenase Complex - genetics Ketoglutaric acid Laboratories Lethality Logical Thinking Metabolic pathways Metabolic response Metabolism Microbial Sensitivity Tests Microorganisms Minimum inhibitory concentration Mutants Mutation Oxoglutarate dehydrogenase (lipoamide) Pathogens Population genetics Respiration Sequence Analysis, DNA Streptomycin - pharmacology Therapeutic targets Toxicity Tricarboxylic acid cycle
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Zusammenfassung:	Although metabolism plays an active role in antibiotic lethality, antibiotic resistance is generally associated with drug target modification, enzymatic inactivation, and/or transport rather than metabolic processes. Evolution experiments of rely on growth-dependent selection, which may provide a limited view of the antibiotic resistance landscape. We sequenced and analyzed adapted to representative antibiotics at increasingly heightened metabolic states. This revealed various underappreciated noncanonical genes, such as those related to central carbon and energy metabolism, which are implicated in antibiotic resistance. These metabolic alterations lead to lower basal respiration, which prevents antibiotic-mediated induction of tricarboxylic acid cycle activity, thus avoiding metabolic toxicity and minimizing drug lethality. Several of the identified metabolism-specific mutations are overrepresented in the genomes of >3500 clinical pathogens, indicating clinical relevance.
ISSN:	0036-8075 1095-9203
DOI:	10.1126/science.aba0862