Lysis and aberrant morphology of Bacillus subtilis cells caused by surfactants and their relation to autolysin activity

Tsuchido, Tetsuaki; Svarachorn, Ancharida; Soga, Haruka; Takano, Mitsuo

doi:10.1128/aac.34.5.781

Cited by 45 publications

(39 citation statements)

References 28 publications

(15 reference statements)

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“…1 and 2). Previous work done by others indicates that some surfactants have a toxic effect on cell membranes (15) ranging from decreased cell viability due to loss of solute-barrier properties of the cell membrane (16) to complete cell lysis (17,18). These observations are surfactant concentration dependent, with low concentrations associated with decreased cell viability and higher concentrations associated with cell lysis.…”

Section: Discussionsupporting

confidence: 46%

Lysis of Red Blood Cells and Alveolar Epithelial Toxicity by Therapeutic Pulmonary Surfactants

et al. 1995

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Section: Discussionsupporting

confidence: 46%

Lysis of Red Blood Cells and Alveolar Epithelial Toxicity by Therapeutic Pulmonary Surfactants

et al. 1995

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“…Bending of B. subtilis cells has previously been found to result from a variety of causes, including mutations affecting autolysin activity (5), Triton X-100 resistance (33), or PBPs 2a, 2b, and 3 (26) and treatment of cells with surfactants (35), fatty acid esters (34), local anesthetics (33), penicillin G (33), or electric fields (25). In some cases, this bending has been clearly associated with a decrease in autolytic activity (5,35), suggesting that it may be due to a perturbation of the balance between peptidoglycan synthetic and degradative processes. Obviously, loss of peptidoglycan synthetic activities associated with class A high-molecular-weight PBPs could also produce such an imbalance.…”

Section: Discussionmentioning

confidence: 99%

Phenotypes of Bacillus subtilis mutants lacking multiple class A high-molecular-weight penicillin-binding proteins

1996

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Examination of Bacillus subtilis strains containing multiple mutations affecting the class A high-molecularweight penicillin-binding proteins (PBPs) 1, 2c, and 4 revealed a significant degree of redundancy in the functions of these three proteins. In rich media, loss of PBPs 2c and 4 resulted in no obvious phenotype. The slight growth and cell morphology defects associated with loss of PBP 1 were exacerbated by the additional loss of PBP 4 but not PBP 2c. Loss of all three of these PBPs slowed growth even further. In minimal medium, loss of PBPs 2c and 4 resulted in a slight growth defect. The decrease in growth rate caused by loss of PBP 1 was accentuated slightly by loss of PBP 2c and greatly by loss of PBP 4. Again, a lack of all three of these PBPs resulted in the slowest growth. Loss of PBP 1 resulted in a 22% reduction in the cell radius. Cultures of a strain lacking PBP 1 also contained some cells that were significantly longer than those produced by the wild type, and some of the rod-shaped cells appeared slightly bent. The additional loss of PBP 4 increased the number of longer cells in the culture. Slow growth caused by a mutation in prfA, a gene found in an operon with the gene encoding PBP 1, was unaffected by the additional loss of PBPs 2c and 4, whereas loss of both prfA and PBP 1 resulted in extremely slow growth and the production of highly bent cells.The peptidoglycan component of eubacterial cell walls is required to maintain cell shape and resist the turgor pressure produced by high concentrations of cell solutes. Polymerization of the peptidoglycan is carried out on the outer surface of the cytoplasmic membrane by the family of penicillin-binding proteins (PBPs) (7). The PBPs have been divided into three classes based on sequence similarities (7). The low-molecularweight class of PBPs generally have D,D-carboxypeptidase activity and have not been found to be essential proteins (7). Some of the class B high-molecular-weight PBPs have been clearly shown to possess a transpeptidase activity involved in cross-linking peptidoglycan chains (9, 10, 12) and are required for cell septation and maintenance of cell shape (29,30,37). The class A high-molecular-weight PBPs appear to be bifunctional proteins with a transglycosylase N-terminal domain and a transpeptidase C-terminal domain (7,11,18,31). The two class A high-molecular-weight PBPs of Escherichia coli have been shown to have partially redundant functions (32, 38); loss of either PBP produces little or no phenotypic effect, whereas loss of both is lethal.Bacillus subtilis is studied as a model for cell differentiation and as a model gram-positive bacterium because of the availability of well-developed genetic tools. We have been studying the PBPs of B. subtilis in order to elucidate their specific roles in growth, division, and sporulation. Among the PBPs found in vegetative B. subtilis cells are the class A high-molecularweight PBPs 1, 2c, and 4, the products of the ponA, pbpF, and pbpD genes, respectively. We have previously described the lack...

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“…Relevant examples include (1) activation of LytA, the principal autolytic enzyme in Streptococcus pneumoniae R6 by penicillin action, 11,13,14 and (2) activation of S. pneumoniae LytA by the action of lysozyme. 10 Moreover, activation of autolysins of B. subtilis 168, by fatty acids 15 and TX-100, 16 has been described.…”

Section: Mechanism Of β β-Gal Release From Bau-102mentioning

confidence: 99%

“…4,[10][11][12][13][14][15][16] This was verified under our test conditions by growing cells to A660 = 0.4, at which time, cephalexin, lysozyme, or TX-100 was added. Results shown in Figure 4 FIG.…”

Section: A Role For Autolysismentioning

confidence: 99%

Differential Assay for High-Throughput Screening of Antibacterial Compounds

2007

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Lysis and aberrant morphology of Bacillus subtilis cells caused by surfactants and their relation to autolysin activity

Cited by 45 publications

References 28 publications

Lysis of Red Blood Cells and Alveolar Epithelial Toxicity by Therapeutic Pulmonary Surfactants

Lysis of Red Blood Cells and Alveolar Epithelial Toxicity by Therapeutic Pulmonary Surfactants

Phenotypes of Bacillus subtilis mutants lacking multiple class A high-molecular-weight penicillin-binding proteins

Differential Assay for High-Throughput Screening of Antibacterial Compounds

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