Abstract
Bacterial persister cells are considered a basis for chronic infections and relapse caused by bacterial pathogens. Persisters are phenotypic variants characterized by low metabolic activity and slow or no replication. This low metabolic state increases pathogen tolerance to antibiotics and host immune defenses that target actively growing cells. In this study we demonstrate that within a population of Salmonella enterica serotype Typhimurium, a small percentage of bacteria are reversibly tolerant to specific stressors that mimic the macrophage host environment. Numerous studies show that Toxin-Antitoxin (TA) systems contribute to persister states, based on toxin inhibition of bacterial metabolism or growth. To identify toxins that may promote a persister state in response to host-associated stressors, we analyzed the six TA loci specific to S. enterica serotypes that cause systemic infection in mammals, including five RelBE family members and one VapBC member. Deletion of TA loci increased or decreased tolerance depending on the stress conditions. Similarly, exogenous expression of toxins had mixed effects on bacterial survival in response to stress. In macrophages, S. Typhimurium induced expression of three of the toxins examined. These observations indicate that distinct toxin family members have protective capabilities for specific stressors but also suggest that TA loci have both positive and negative effects on tolerance.
Highlights
Persister bacteria play an important role in recalcitrant chronic infections and their hallmark is non-heritable stress tolerance [1,2]
Non-replicating bacteria have been observed in primary macrophages and in mice infected with S
While polymyxin B is not produced by mammals, other cationic antimicrobial peptides are within the macrophage Salmonella Containing Vacuole (SCV), but their concentrations have not been established [38]
Summary
Persister bacteria play an important role in recalcitrant chronic infections and their hallmark is non-heritable stress tolerance [1,2]. Persister populations have since been identified upon treatment of bacteria with multiple classes of antibiotics and under broad environmental stress conditions [4,5,6]. Whether persisters arise in response to stress or pre-exist within a phenotypically heterogeneous population of isogenic bacteria or both remains a matter of debate [9,10]. Regardless, these cells play important roles in chronic infections and tolerance to antibiotic therapy. Persisters may represent a survival strategy for a clonal population, enabling some individuals to withstand and later recover from environmental stress, such as those encountered within a host
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