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Rapid Freezing Enables Aminoglycosides To Eradicate Bacterial Persisters via Enhancing Mechanosensitive Channel MscL-Mediated Antibiotic Uptake
- Source :
- mBio, Vol 11, Iss 1 (2020), mBio, Vol 11, Iss 1, p e03239-19 (2020), mBio
- Publication Year :
- 2020
- Publisher :
- American Society for Microbiology, 2020.
-
Abstract
- Antibiotics have long been used to successfully kill bacterial pathogens, but antibiotic resistance/tolerance usually has led to the failure of antibiotic therapy, and it has become a severe threat to human health. How to improve the efficacy of existing antibiotics is of importance for combating antibiotic-resistant/tolerant pathogens. Here, we report that 10-s rapid freezing with liquid nitrogen dramatically enhanced the bactericidal action of aminoglycoside antibiotics by 2 to 6 orders of magnitude against many bacterial pathogens in vitro and also in a mouse skin wound model. In particular, such combined treatment was able to effectively kill persister cells of Escherichia coli and Pseudomonas aeruginosa, which are per se tolerant of conventional treatment with bactericidal antibiotics for several hours. We also demonstrated that freezing-induced aminoglycoside potentiation was apparently linked to freezing-induced cell membrane damage that may have activated the mechanosensitive ion channel MscL, which, in turn, was able to effectively uptake aminoglycoside antibiotics in a proton motive force-independent manner. Our report sheds light on the development of a new strategy against bacterial pathogens by combining existing antibiotics with a conventional physical treatment or with MscL agonists.<br />Bacterial persisters exhibit noninherited antibiotic tolerance and are linked to the recalcitrance of bacterial infections. It is very urgent but also challenging to develop antipersister strategies. Here, we report that 10-s freezing with liquid nitrogen dramatically enhances the bactericidal action of aminoglycoside antibiotics by 2 to 6 orders of magnitude against many Gram-negative pathogens, with weaker potentiation effects on Gram-positive bacteria. In particular, antibiotic-tolerant Escherichia coli and Pseudomonas aeruginosa persisters—which were prepared by treating exponential-phase cells with ampicillin, ofloxacin, the protonophore cyanide m-chlorophenyl hydrazone (CCCP), or bacteriostatic antibiotics—can be effectively killed. We demonstrated, as a proof of concept, that freezing potentiated the aminoglycosides' killing of P. aeruginosa persisters in a mouse acute skin wound model. Mechanistically, freezing dramatically increased the bacterial uptake of aminoglycosides regardless of the presence of CCCP, indicating that the effects are independent of the proton motive force (PMF). In line with these results, we found that the effects were linked to freezing-induced cell membrane damage and were attributable, at least partly, to the mechanosensitive ion channel MscL, which was able to directly mediate such freezing-enhanced aminoglycoside uptake. In view of these results, we propose that the freezing-induced aminoglycoside potentiation is achieved by freezing-induced cell membrane destabilization, which, in turn, activates the MscL channel, which is able to effectively take up aminoglycosides in a PMF-independent manner. Our work may pave the way for the development of antipersister strategies that utilize the same mechanism as freezing but do so without causing any injury to animal cells.
- Subjects :
- Male
antibiotic resistance
Antibiotics
antibiotic tolerance
medicine.disease_cause
Ion Channels
pseudomonas aeruginosa
Mice
drug uptake
Skin
Mice, Inbred ICR
0303 health sciences
biology
Chemistry
Escherichia coli Proteins
Aminoglycoside
Proton-Motive Force
persistence
mechanosensitive ion channel
QR1-502
Anti-Bacterial Agents
Mechanosensitive channels
Research Article
Multidrug tolerance
Nitrogen
medicine.drug_class
Microbial Sensitivity Tests
freezing
Microbiology
03 medical and health sciences
Antibiotic resistance
Mechanosensitive ion channel
Virology
Escherichia coli
medicine
Animals
030304 developmental biology
membrane channel proteins
Bacteria
030306 microbiology
Pseudomonas aeruginosa
persister
Therapeutics and Prevention
biology.organism_classification
MscL
Aminoglycosides
Biofilms
aminoglycoside
antibiotic uptake
cryotherapy
Subjects
Details
- Language :
- English
- ISSN :
- 21507511
- Volume :
- 11
- Issue :
- 1
- Database :
- OpenAIRE
- Journal :
- mBio
- Accession number :
- edsair.doi.dedup.....ff4083deb6f55c03ec8bc994df7c76bc