Mesrop Ayrapetyan scite author profile

Bacteria have evolved numerous means of survival in adverse environments with dormancy, as represented by "persistence" and the "viable but nonculturable" (VBNC) state, now recognized to be common modes for such survival. VBNC cells have been defined as cells which, induced by some stress, become nonculturable on media that would normally support their growth but which can be demonstrated by various methods to be alive and capable of returning to a metabolically active and culturable state. Persister cells have been described as a population of cells which, while not being antibiotic resistant, are antibiotic tolerant. This drug-tolerant phenotype is thought to be a result of stress-induced and stochastic physiological changes as opposed to mutational events leading to true resistance. In this review, we describe these two dormancy strategies, characterize the molecular underpinnings of each state, and highlight the similarities and differences between them. We believe these survival modes represent a continuum between actively growing and dead cells, with VBNC cells being in a deeper state of dormancy than persister cells.

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Viable but Nonculturable and Persister Cells Coexist Stochastically and Are Induced by Human Serum

Ayrapetyan

et al. 2015

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Dormancy holds a vital role in the ecological dynamics of microorganisms. Specifically, entry into dormancy allows cells to withstand times of stress while maintaining the potential for reentry into an active existence. The viable but nonculturable (VBNC) state and antibiotic persistence are two well-recognized conditions of dormancy demonstrated to contribute to bacterial stress tolerance and, as a consequence, yield populations that are tolerant to high-dose antibiotics. Aside from this commonality, more evidence is being presented that indicates the relatedness of these two states. Here, we demonstrate that VBNC cells are present during persister isolation experiments, further indicating that these cells coexist and are induced by the same conditions. Interestingly, we reveal that VBNC cells can exist stochastically in unstressed growing cultures, a finding that is characteristic of persisters. Furthermore, human serum induces the formation of both VBNC cells and persisters, a finding not previously described for either dormancy state. Lastly, we describe the role of toxin-antitoxin systems (TAS) in the induction of the VBNC state and report that these TAS, which are classically implicated in persister cell formation, are also induced during incubation in human serum. This study provides evidence for the recently proposed "dormancy continuum hypothesis" and substantiates the physical and molecular relatedness of VBNC and persister cells in a standardized model organism. Notably, these results provide new evidence for the clinical significance of VBNC and persister cells.A s inhabitants of a dynamic biosphere, bacteria are constantly challenged with potentially harmful environmental uncertainty. To defy such perpetual instability, many microorganisms maintain subpopulations with the capability to enter a temporary state of dormancy during which cells exhibit reduced growth rates and metabolic demand (1). When the environment becomes permissive, dormant cells can resuscitate and subsequently regain growth (2, 3). The evolutionary role of the maintenance of such population heterogeneity is analogous to a bet-hedging strategy in which cells of various phenotypes arise and increase the chance of survival in a fluctuating milieu (1). Importantly, dormancy that allows bacteria to oppose environmental stress can also render them tolerant to antibiotics (4-6), highlighting the clinical relevance of this physiological state.Currently, two well-defined dormancy states have been described in nonsporulating bacteria: the viable but nonculturable state (VBNC) and antibiotic persistence (2, 7). Persister cells are described as slow or nongrowing subpopulations present within a growing culture that are consequently able to withstand multiple types of antibiotics (8). As opposed to antibiotic-resistant cells, persister cells are thought to be genetically identical to the nonpersister cells but exhibit a drug-tolerant phenotype (9). The persister phenotype has been shown to exist stochastically within growing cultures (10) but...

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Interspecific Quorum Sensing Mediates the Resuscitation of Viable but Nonculturable Vibrios

Ayrapetyan

Williams

Oliver

2014

Appl Environ Microbiol

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bEntry and exit from dormancy are essential survival mechanisms utilized by microorganisms to cope with harsh environments. Many bacteria, including the opportunistic human pathogen Vibrio vulnificus, enter a form of dormancy known as the viable but nonculturable (VBNC) state. VBNC cells can resuscitate when suitable conditions arise, yet the molecular mechanisms facilitating resuscitation in most bacteria are not well understood. We discovered that bacterial cell-free supernatants (CFS) can awaken preexisting dormant vibrio populations within oysters and seawater, while CFS from a quorum sensing mutant was unable to produce the same resuscitative effect. Furthermore, the quorum sensing autoinducer AI-2 could induce resuscitation of VBNC V. vulnificus in vitro, and VBNC cells of a mutant unable to produce AI-2 were unable to resuscitate unless the cultures were supplemented with exogenous AI-2. The quorum sensing inhibitor cinnamaldehyde delayed the resuscitation of wild-type VBNC cells, confirming the importance of quorum sensing in resuscitation. By monitoring AI-2 production by VBNC cultures over time, we found quorum sensing signaling to be critical for the natural resuscitation process. This study provides new insights into the molecular mechanisms stimulating VBNC cell exit from dormancy, which has significant implications for microbial ecology and public health.

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