Evolutionary loss of the rdar morphotype in <i>Salmonella</i> as a result of high mutation rates during laboratory passage

Davidson, Carla J; White, Aaron P.; Surette, Michael G.

doi:10.1038/ismej.2008.4

Cited by 38 publications

(32 citation statements)

References 55 publications

(82 reference statements)

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“…Next to the two clear sequence (cis) mutations, generating inactive csgB and csgD promoters, reflecting a different evolutionary lifestyle (no or minimal non-host environmental passage during lifecycle), six other isolates harboured upstream regulatory (trans) mutations, responsible for rdar phenotype loss, probably originating from domestication. In line with this, recent evidence indeed showed that rapid domestication due to laboratory passage in rich medium was responsible for the evolutionary loss of the rdar morphotype (Davidson, White, & Surette, 2008). This loss most of the times appeared to be related to mutations in rpoS, within the cellulose biosynthesis pathway or in unknown upstream rdar morphotype regulators.…”

Section: Csgdmentioning

confidence: 76%

Salmonella biofilms: An overview on occurrence, structure, regulation and eradication

Steenackers

Hermans

Vanderleyden

et al. 2012

Food Research International

447

341

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Section: Csgdmentioning

confidence: 76%

Salmonella biofilms: An overview on occurrence, structure, regulation and eradication

Steenackers

Hermans

Vanderleyden

et al. 2012

Food Research International

447

341

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“…For pathogens like S. Typhimurium, the maintenance of a subset of cells primed for invasion but not ideally suited for environmental survival would impose a penalty unless a host is encountered. The energy commitment required to make SPI-1 T3SS organelles (82) or extracellular matrix polymers (83,84) in different subpopulations indicates that it might be a strategy for S. Typhimurium to prepare for unpredictability. A proportion of cells could survive exposure to either the host or nonhost environment, with the ultimate goal being preservation of the shared genome for the next generation (54,80).…”

Section: Discussionmentioning

confidence: 99%

Bistable Expression of CsgD in Salmonella enterica Serovar Typhimurium Connects Virulence to Persistence

MacKenzie

Wang²,

Shivak

et al. 2015

Infect Immun

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f Pathogenic bacteria often need to survive in the host and the environment, and it is not well understood how cells transition between these equally challenging situations. For the human and animal pathogen Salmonella enterica serovar Typhimurium, biofilm formation is correlated with persistence outside a host, but the connection to virulence is unknown. In this study, we analyzed multicellular-aggregate and planktonic-cell subpopulations that coexist when S. Typhimurium is grown under biofilminducing conditions. These cell types arise due to bistable expression of CsgD, the central biofilm regulator. Despite being exposed to the same stresses, the two cell subpopulations had 1,856 genes that were differentially expressed, as determined by transcriptome sequencing (RNA-seq). Aggregated cells displayed the characteristic gene expression of biofilms, whereas planktonic cells had enhanced expression of numerous virulence genes. Increased type three secretion synthesis in planktonic cells correlated with enhanced invasion of a human intestinal cell line and significantly increased virulence in mice compared to the aggregates. However, when the same groups of cells were exposed to desiccation, the aggregates survived better, and the competitive advantage of planktonic cells was lost. We hypothesize that CsgD-based differentiation is a form of bet hedging, with single cells primed for host cell invasion and aggregated cells adapted for persistence in the environment. This allows S. Typhimurium to spread the risks of transmission and ensures a smooth transition between the host and the environment.

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“…3D and 4B). The energy theory arises from the observation that the capability to express multicellular behavior is easily lost under laboratory conditions (8,34). Although there is no doubt that production of extracellular matrix is energetically expensive, another reason for phenotypic heterogeneity can be to maintain the developmental potential of the population.…”

Section: Discussionmentioning

confidence: 99%

Bistable Expression of CsgD in Biofilm Development ofSalmonella entericaSerovar Typhimurium

et al. 2010

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Bacterial persistence in the environment and in the infected host is often aided by the formation of exopolymer-enclosed communities known as biofilms. Heterogeneous gene expression takes place in microcompartments formed within the complex biofilm structure. This study describes cell differentiation within an isogenic bacterial cell population based on the example of biofilm formation by Salmonella enterica serovar Typhimurium. We analyzed the expression of the major biofilm regulator CsgD at the single-cell level with a chromosomal CsgD-green fluorescent protein (GFP) translational fusion. In individual cells, CsgD-GFP expression is mostly found in the cytoplasm. Quantitative expression analysis and results from three different models of S. Typhimurium biofilms demonstrated that CsgD is expressed in a bistable manner during biofilm development. CsgD expression is, however, monomodal when CsgD is expressed in larger amounts due to a promoter mutation or elevated levels of the secondary signaling molecule c-di-GMP. High levels of CsgD-GFP are associated with cellular aggregation in all three biofilm models. Furthermore, the subpopulation of cells expressing large amounts of CsgD is engaged in cellulose production during red, dry, and rough (rdar) morphotype development and in microcolony formation under conditions of continuous flow. Consequently, bistability at the level of CsgD expression leads to a corresponding pattern of task distribution in S. Typhimurium biofilms.

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Evolutionary loss of the rdar morphotype in Salmonella as a result of high mutation rates during laboratory passage

Cited by 38 publications

References 55 publications

Salmonella biofilms: An overview on occurrence, structure, regulation and eradication

Salmonella biofilms: An overview on occurrence, structure, regulation and eradication

Bistable Expression of CsgD in Salmonella enterica Serovar Typhimurium Connects Virulence to Persistence

Bistable Expression of CsgD in Biofilm Development ofSalmonella entericaSerovar Typhimurium

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