Wouter Knapen scite author profile

Within bacterial populations, a small fraction of persister cells is transiently capable of surviving exposure to lethal doses of antibiotics. As a bet-hedging strategy, persistence levels are determined both by stochastic induction and by environmental stimuli called responsive diversification. Little is known about the mechanisms that link the low frequency of persisters to environmental signals. Our results support a central role for the conserved GTPase Obg in determining persistence in Escherichia coli in response to nutrient starvation. Obg-mediated persistence requires the stringent response alarmone (p)ppGpp and proceeds through transcriptional control of the hokB-sokB type I toxin-antitoxin module. In individual cells, increased Obg levels induce HokB expression, which in turn results in a collapse of the membrane potential, leading to dormancy. Obg also controls persistence in Pseudomonas aeruginosa and thus constitutes a conserved regulator of antibiotic tolerance. Combined, our findings signify an important step toward unraveling shared genetic mechanisms underlying persistence.

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The Persistence-Inducing Toxin HokB Forms Dynamic Pores That Cause ATP Leakage

Wilmaerts

Bayoumi

Dewachter

et al. 2018

mBio

111

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Bacterial populations harbor a small fraction of cells that display transient multidrug tolerance. These so-called persister cells are extremely difficult to eradicate and contribute to the recalcitrance of chronic infections. Several signaling pathways leading to persistence have been identified. However, it is poorly understood how the effectors of these pathways function at the molecular level. In a previous study, we reported that the conserved GTPase Obg induces persistence in Escherichia coli via transcriptional upregulation of the toxin HokB. In the present study, we demonstrate that HokB inserts in the cytoplasmic membrane where it forms pores. The pore-forming capacity of the HokB peptide is demonstrated by in vitro conductance measurements on synthetic and natural lipid bilayers, revealing an asymmetrical conductance profile. Pore formation is directly linked to persistence and results in leakage of intracellular ATP. HokB-induced persistence is strongly impeded in the presence of a channel blocker, thereby providing a direct link between pore functioning and persistence. Furthermore, the activity of HokB pores is sensitive to the membrane potential. This sensitivity presumably results from the formation of either intermediate or mature pore types depending on the membrane potential. Taken together, these results provide a detailed view on the mechanistic basis of persister formation through the effector HokB.

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Identification of 1-((2,4-Dichlorophenethyl)Amino)-3-Phenoxypropan-2-ol, a Novel Antibacterial Compound Active against Persisters of Pseudomonas aeruginosa

Liebens

Defraine

Knapen

et al. 2017

Antimicrob Agents Chemother

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Antibiotics typically fail to completely eradicate a bacterial population, leaving a small fraction of transiently antibiotic-tolerant persister cells intact. Persisters are therefore seen to be a major cause of treatment failure and greatly contribute to the recalcitrant nature of chronic infections. The current study focused on Pseudomonas aeruginosa, a Gram-negative pathogen belonging to the notorious ESKAPE group of pathogens (Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacter species) and, due to increasing resistance against most conventional antibiotics, posing a serious threat to human health. Greatly contributing to the difficult treatment of P. aeruginosa infections is the presence of persister cells, and elimination of these cells would therefore significantly improve patient outcomes. In this study, a smallmolecule library was screened for compounds that, in combination with the fluoroquinolone antibiotic ofloxacin, reduced the number of P. aeruginosa persisters compared to the number achieved with treatment with the antibiotic alone. Based on the early structure-activity relationship, 1-((2,4-dichlorophenethyl)amino)-3-phenoxypropan-2-ol (SPI009) was selected for further characterization. Combination of SPI009 with mechanistically distinct classes of antibiotics reduced the number of persisters up to 10 6 -fold in both lab strains and clinical isolates of P. aeruginosa. Further characterization of the compound revealed a direct and efficient killing of persister cells. SPI009 caused no erythrocyte damage and demonstrated minor cytotoxicity. In conclusion, we identified a novel antipersister compound active against P. aeruginosa with promising applications for the design of novel, case-specific combination therapies in the fight against chronic infections.

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Identification and characterization of an anti-pseudomonal dichlorocarbazol derivative displaying anti-biofilm activity

Liebens

Gerits

Knapen

et al. 2014

Bioorganic & Medicinal Chemistry Letters

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Biochemical determinants of ObgE‐mediated persistence

Verstraeten

Gkekas

Kint

et al. 2019

Molecular Microbiology

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Obg is a versatile GTPase that plays a pivotal role in bacterial persistence. We previously showed that the Escherichia coli homolog ObgE exerts this activity through transcriptional activation of a toxin-antitoxin module and subsequent membrane depolarization. Here, we assessed the role of G-domain functionality in ObgE-mediated persistence. Through screening of a mutant library, we identified five obgE alleles (with substitutions G166V, D246G, S270I, N283I and I313N) that have lost their persistence function and no longer activate hokB expression. These alleles support viability of a strain otherwise deprived of ObgE, indicating that ObgE's persistence function can be uncoupled from its essential role. Based on the ObgE crystal structure, we designed two additional mutant proteins (T193A and D286Y), one of which (D286Y) no longer affects persistence. Using isothermal titration calorimetry, stopped-flow experiments and kinetics, we subsequently assessed nucleotide binding and GTPase activity in all mutants. With the exception of the S270I mutant that is possibly affected in protein-protein interactions, all mutants that have lost their persistence function display severely reduced binding to GDP or the alarmone ppGpp. However, we find no clear relation between persistence and GTP or pppGpp binding nor with GTP hydrolysis. Combined, our results signify an important step toward understanding biochemical determinants underlying persistence.

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Wouter Knapen

Obg and Membrane Depolarization Are Part of a Microbial Bet-Hedging Strategy that Leads to Antibiotic Tolerance

The Persistence-Inducing Toxin HokB Forms Dynamic Pores That Cause ATP Leakage

Identification of 1-((2,4-Dichlorophenethyl)Amino)-3-Phenoxypropan-2-ol, a Novel Antibacterial Compound Active against Persisters of Pseudomonas aeruginosa

Identification and characterization of an anti-pseudomonal dichlorocarbazol derivative displaying anti-biofilm activity

Biochemical determinants of ObgE‐mediated persistence

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