Choline transport activity in Staphylococcus aureus induced by osmotic stress and low phosphate concentrations

Kaenjak, Anisa; Graham, James E.; Wilkinson, Brian J.

doi:10.1128/jb.175.8.2400-2406.1993

Cited by 36 publications

(25 citation statements)

References 22 publications

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“…6B and C). Thus, B. subtilis uses exoge- 4,7,8,17,22,23,29). This oxidation is a two-step process with e as a precursor for glycine betaine synthesis.…”

Section: Resultsmentioning

confidence: 99%

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Osmoregulation in Bacillus subtilis: synthesis of the osmoprotectant glycine betaine from exogenously provided choline

1994

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Exogenously provided glycine betaine functions as an efficient osmoprotectant for Bacillus subtilis in high-osmolarity environments. This gram-positive soil organism is not able to increase the intracellular level of glycine betaine through de novo synthesis in defined medium (A. M. Whatmore, J. A. Chudek, and R. H. Reed, J. Gen. Microbiol. 136:2527Microbiol. 136: -2535Microbiol. 136: , 1990 Exogenously provided choline significantly increased the growth rate ofB. subtUis in high-osmolarity media and permitted its proliferation under conditions that are otherwise strongly inhibitory for its growth. Choline and glycine betaine were not used as sole sources of carbon or nitrogen, consistent with their functional role in the process of adaptation of B. subtilis to high-osmolarity stress.

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“…6B and C). Thus, B. subtilis uses exoge- 4,7,8,17,22,23,29). This oxidation is a two-step process with e as a precursor for glycine betaine synthesis.…”

Section: Resultsmentioning

confidence: 99%

“…to (17,27,28), the fully methylated quaternary ammonium group is a key feature for substrate recognition (Table 1). Exogenously provided glycine betaine aldehyde is an effective inhibitor for choline uptake (Table 1) and also functions as a potent osmoprotectant in B. subtilis (Fig.…”

Section: Resultsmentioning

confidence: 99%

Osmoregulation in Bacillus subtilis: synthesis of the osmoprotectant glycine betaine from exogenously provided choline

1994

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“…The alteration in the peptidoglycan composition caused by adding glycine betaine to cells growing in the presence of 2.5 M NaCl may be an indirect effect, a result of more global effects of glycine betaine, such as increasing the volume of cytoplasmic water. It is unlikely that glycine betaine is a source of glycine, as all available evidence suggests that accumulated glycine betaine is not further metabolized (11,15).…”

Section: Vol 177 1995 Ionic Stress and S Aureus Cell Size 5119mentioning

confidence: 99%

Increased cell size and shortened peptidoglycan interpeptide bridge of NaCl-stressed Staphylococcus aureus and their reversal by glycine betaine

et al. 1995

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Staphylococcus aureus cells grown in a defined medium under conditions of high ionic stress (2.5 M NaCl) were significantly larger than cells grown under unstressed conditions, even though the cells grew much more slowly under stressed conditions. Analysis of the structure of peptidoglycan from stressed cells showed a shorter interpeptide bridge than in peptidoglycan from unstressed cells. Glycine betaine inclusion in the high-NaCl medium resulted in cells with sizes and interpeptide bridges similar to those of cells grown under unstressed conditions.The gram-positive coccus Staphylococcus aureus is one of the most halotolerant eubacteria. The organism can grow in medium containing up to 3.5 M NaCl (28). During an investigation of the effects of growth in the presence of NaCl on the production of penicillin-binding protein 2a and autolytic activity (20), it was observed that cells grown in complex medium containing 0.85 M NaCl were larger than cells grown in complex medium alone (21). Similar observations of larger cells in complex medium containing NaCl than in complex medium alone have also been reported by others (13,17).When bacterial cells such as Escherichia coli are exposed to a sudden increase in external osmotic pressure, there is initially a fast efflux of water, resulting in decreased turgor pressure, plasmolysis, and cell shrinkage (1,5,18). Mitchell and Moyle (25) have shown a similar response for S. aureus cells transferred from dilute to concentrated NaCl solutions. Bacteria respond to a decrease in turgor by accumulating high concentrations of osmotically active, compatible solutes in order to restore turgor, either by transport from the medium or by biosynthesis (5). This allows the restoration of growth of the organism, and a new steady state is established.There have been several recent studies of osmoregulation in S. aureus (11,19,24), and choline, glycine betaine, L-proline, and taurine have been shown to act as osmoprotectants. Because complex media contain the osmoprotectants L-proline and glycine betaine (10), cells of S. aureus osmotically stressed by growth in complex media containing high concentrations of NaCl accumulate proline and glycine betaine to high levels (19,24). Thus, complex media are not well suited to study of the effects of NaCl on cell size because of potential modifying effects of osmoprotectants present in such media. In this paper, we report a careful examination of the effects of ionic and osmotic stress on the cell morphology and structure of peptidoglycan of S. aureus grown in defined medium in the presence and absence of the osmoprotectant glycine betaine. MATERIALS AND METHODSBacterial strains and culture conditions. S. aureus RN450 (NCTC 8325-4), a derivative of strain NCTC 8325, was used in this study. All experiments were carried out with cells grown in a defined medium that contained glycerol as the primary carbon source (31). The osmotic strength of this medium is approximately 0.20 osmol (kg of water) Ϫ1 (11). The ionic and/or osmotic strength of the mediu...

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“…These enzymes metabolize choline to glycine betaine, 14 a compatible solute involved in osmoregulation that has beneficial effects on the protein structure. 31 In addition, there was upregulation of the heat shock protein genes clpP, htrA, and groES (about 1.9-fold).…”

Section: Upregulated Genesmentioning

confidence: 99%

Studies on the Mechanism of Telavancin Decreased Susceptibility in a Laboratory-Derived Mutant

Song

Lunde

Benton

et al. 2013

Microbial Drug Resistance

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Telavancin is a novel semisynthetic lipoglycopeptide derivative of vancomycin with a dual mode of action. This study sought to understand the mechanisms of decreased telavancin susceptibility in a laboratoryderived Staphlococcus aureus mutant Tlv DS MED1952. There were extensive changes in the transcriptome of Tlv DS MED1952 compared to the susceptible parent strain MED1951. Genes upregulated included cofactor biosynthesis genes, cell wall-related genes, fatty acid biosynthesis genes, and stress genes. Downregulated genes included lysine operon biosynthesis genes and lrgB, which are induced by telavancin in susceptible strains, agr and kdpDE genes, various cell surface protein genes, phenol-soluble modulin genes, several protease genes, and genes involved in anaerobic metabolism. The decreased susceptibility mutant had somewhat thicker cell walls and a decreased autolytic activity that may be related to decreased proteolytic peptidoglycan hydrolase processing. Membrane fatty acid changes correlated with increased membrane fluidity were observed. It seems likely that there are multiple genetic changes associated with the development of decreased telavancin susceptibility. The Tlv DS mutant showed some similar features to vancomycin-intermediate S. aureus and decreased daptomycin susceptibility strains, but also exhibited its own unique features.

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Choline transport activity in Staphylococcus aureus induced by osmotic stress and low phosphate concentrations

Cited by 36 publications

References 22 publications

Osmoregulation in Bacillus subtilis: synthesis of the osmoprotectant glycine betaine from exogenously provided choline

Osmoregulation in Bacillus subtilis: synthesis of the osmoprotectant glycine betaine from exogenously provided choline

Increased cell size and shortened peptidoglycan interpeptide bridge of NaCl-stressed Staphylococcus aureus and their reversal by glycine betaine

Studies on the Mechanism of Telavancin Decreased Susceptibility in a Laboratory-Derived Mutant

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