Cell envelope composition and sensitivity of Proteus mirabilis, Pseudomonas aeruginosa and Serratia marcescens to polymyxin and other antibacterial agents

Two strains of Proteus mirabilis (NCTC 60 and 4199) were consistently more sensitive to antibacterial agents, including methicillin, than were two other strains (NCTC 2896 and 3177). On the basis of minimum inhibitory concentrations, all four strains were resistant to polymyxin, although it has previously been shown that this antibiotic induced some changes in strains 60 and 4199. One of the three strains of Serratia marcescens , the non-pigmented NCTC 8706, was rather more sensitive to antibacterial agents than the two pigmented strains. Of the four Pseudomonas aeruginosa strains examined, NCTC 10701 tended to be the most sensitive. Chemical analyses of the cell envelopes revealed differences in gross lipid, phospholipid, Mg²⁺ and 2-ketodeoxyoctonate (KDO) levels.     

Effect of divalent cations on permeabilizer-induced lysozyme lysis of Pseudomonas aeruginosa

The presence of divalent (Mg²⁺) ions greatly reduced the lysis of Pseudomonas aeruginosa strain G48 in a system at pH 7·8 or 9·0 consisting of ethylenediamine tetraacetic acid (EDTA), lysozyme and tris. Similar reductions in lysis occurred when EDTA was replaced by nitrilotriacetic acid, sodium citrate or sodium polyphosphate. The effect depended on the cation concentration. Mg²⁺ may replace cations removed from the outer membrane, or may effectively remove the permeabilizer from the system. The results suggest that the permeabilizing activity associated with these agents against this organism has a common basis in affecting the outer membrane.     

Antibacterial Activity of a New Cephalosporin, Cefotaxime

The antibacterial activity of a new cephalosporin derivative, cefotaxime (HR 756), was determined. The antibiotic was active at low concentrations against R⁺ and R^- strains of Gram negative bacteria, including two out of three strains of Serratia marcescens. In general higher concentrations were needed to inhibit growth of Pseudomonas aeruginosa. Low concentrations induced elongation of cells in circumstances conducive to active growth; higher concentrations caused lysis in some strains. Cefotaxime was more stable than cephaloridine, cephalothin, cephalexin, cefoxitin and cefuroxime to various β-lactamases.     

Offline Controlling of Pseudomonas aeruginosa Resistant to protein Inhibitor Antibiotics Using Combination of EDTA and Na- citrate or Disinfectant (s)

P·aeruginosahave a number of virulence factors like extracellular toxins[1], protea-ses[2,3], haemolysins[4,5], and exopolysaccharide[6,7], which adapt the infection of specifichost tissues[8], causing severe problems·P·aeruginosacan survive in a numbe…     

The Action of Ethylenediaminetetra-acetic Acid on Pseudomonas aeruginosa

It has been shown that ethylenediaminetetra-acetic acid (EDTA) has a direct bactericidal action against strains of Pseudomonas aeruginosa and Alcaligenes faecalis . The action against Ps. aeruginosa is considered to take the form of competition for a metal essential to the integrity of the cells: some of the factors influencing this antibacterial action have been discussed. From a study of the release of solutes from cells of Ps. aeruginosa , it was concluded that the action of EDTA takes place at the cell wall of the organism: an effect by EDTA on the isolated walls of sensitive organisms has been demonstrated.     

Effects of Divalent Metal Cations in the Growth Medium upon Sensitivity of Batch-grown Pseudomonas aeruginosa to EDTA or Polymyxin B

The sensitivity of batch grown Pseudomonas aeruginosa to ethylenediaminetetraacetic acid (EDTA), ethyleneglycol-bis(2-aminoethyl ether)-N, N-tetraacetic acid (EGTA) and to polymyxin depended upon the nature and concentration of divalent metal cations (Ca²⁺, Mg²⁺, Ba²⁺, Mn²⁺, Sr²⁺, Zn²⁺, Fe²⁺, Al³⁺) present in the simple salts-glucose growth medium. Sensitivity to the antibacterial agents was measured in terms of per cent decrease in optical density which was proportional to total count. The rate of decrease in optical density and the per cent decrease after a given time were proportional to the cation content of the growth medium. The lytic action of the agents correlated to some extent with the stability constants of the cation for the two chelating agents.
The data support the theory that EDTA and polymyxin both act initially at a common site of action, namely the Mg²⁺ and Ca²⁺ cross bridges that stabilize components of the outer membrane.     

The Influence of Calcium or Manganese on the Resistance to EDTA, Polymyxin B or Cold Shock, and the Composition of Pseudomonas aeruginosa Grown in Glucose- or Magnesium-depleted Batch Cultures

Cultures were batch grown in simple salts media in which growth was limited either by depletion of glucose and magnesium (C/Mg-dep) or by glucose alone (C-dep). Cultures were also grown in these media supplemented by calcium and/or manganese.
All cultures grown in the C-dep media were sensitive to ethylenediaminetetraacetic acid (EDTA), polymyxin and also to cold shock but were relatively resistant to ethyleneglycol-bis(2-aminoethyl ether)-N, N-tetraacetic acid (EGTA). Inclusion of calcium or manganese in the growth medium enhanced lysis by EDTA. Cultures grown in the basic C/Mg-dep media were resistant to EDTA, EGTA, polymyxin and to cold shock. Sensitivity to these agents was retained by cultures grown in C/Mg-dep media supplemented with Ca²⁺ and/or Mn²⁺. Cells grown in C/Mg-dep media with added Mn²⁺ were more sensitive to EDTA and polymyxin than those from the unsupplemented C/Mg-dep media but still resistant compared with C-dep cultures. All cultures from supplemented C/Mg-dep media were more sensitive to EGTA than those from any of the C-dep media.
Whole cells and cell walls from these various media had differing amounts of cell wall, phosphorus, amino sugar, carbohydrates, readily extractable lipid (REL), total phospholipid (PL), and especially differences in cell wall divalent metal cation content.
The differences in PL, REL and amino sugars and carbohydrate did not correlate with the response of C-dep and C/Mg-dep bacteria to EDTA, EGTA or polymyxin. The results are discussed in relation to the hypothesis that the sensitivity of Pseudomonas aeruginosa to polymyxin and EDTA is more dependent on outer membrane cation content rather than on other components, e.g. PL and lipopolysaccharide.     

Nisin production by Lactococcus lactis using two-phase batch culture

The MAR indexes of hospital isolates of Pseudomonas aeruginosa were determined with reference to nine different cephalosporins. The values for all the strains were higher than 0·2 suggesting their origin from a high risk source of contamination where antibiotics are often used. Emergence of MAR pathogenic strains of Ps. aeruginosa indicated possible nosocomial infection in the hospital environment. β-Lactamases produced by these organisms were tested and their inhibition by clavulanic acid was studied. β-Lactamase produced by one of these strains (Ps-1) could not be inhibited by clavulanic acid whereas β-lactamases of three other strains (Ps-2, Ps-3 and Ps-4) could be inhibited by clavulanic acid in the presence of cephalosporins, suggesting a possible use of clavulanic acid in combination with cephalosporins, to combat β-lactamase induced resistance in Ps. aeruginosa.     

Combinations of Clavulanic Acid and other β-lactam Antibiotics against Strains of Pseudomonas aeruginosa, Serratia marcescens and other Bacteria

Combinations of clavulanic acid, a new β-lactamase inhibitor, with five cephalosporins and one cephamycin were tested against cell-free β-lactamases obtained from Serratia marcescens, Pseudomonas aeruginosa and an Enterobacter strain, 265A. Cefotaxime was the most resistant antibiotic and cephalothin the most sensitive antibiotic to β-lactamases. Low concentrations of clavulanic acid gave some protection against the Serratia and Pseudomonas enzymes. The most active source of β-lactamase was the 265A strain, against which only cefotaxime was highly resistant. Clavulanic acid had only a slight inhibitory effect on this enzyme, which was confirmed by an agar method, and potentiated slightly the activity of cephalothin and cefoxitin against two β-lactamase producing strains of Staphylococcus aureus. Lysis by cephalothin of one strain of S. marcescens was potentiated in the presence of clavulanic acid.     

Factors affecting the lytic susceptibility of some marine and terrestrial bacteria

Eighteen gram-negative marine bacteria and two terrestrial species, Escherichia coli and Pseudomonas aeruginosa, were examined for their sensitivity to lysis in distilled water after exposure to a salt solution containing a sea water concentration of Mg2+ (0.05 M) or to 0.5 M NaCl. A spectrum of lytic susceptibility was observed among the marine bacteria ranging from those organisms which lysed in distilled water after exposure to the Mg2+-containing solution, through organisms which could be sensitized to lysis by washing with the NaCl solution, to organisms which failed to lyse in distilled water even after having been washed with a solution of 0.5 M NaCl. Pseudomonas aeruginosa and E. coli fell within this spectrum, the former being capable of being induced to lyse in distilled water by washing with 0.5 M NaCl, while the latter failed to lyse in distilled water after this treatment. It was thus concluded that no overall distinction could be made between marine and terrestrial bacteria on the basis of the sensitivity of the two groups of organisms to lysis in freshwater. Quite large decreases in optical density and increases in the release of ultraviolet-absorbing material took place when cells preexposed to the Mg2+-containing solution or to 0.5 M NaCl were subsequently suspended in distilled water even though in some cases no loss of cell numbers could be detected. In most cases two to three times as much K+ as Na+ and 1/10 to 1/100 as much Mg2+ was required to prevent these changes. For three of the marine bacteria and P. aeruginosa grown in a terrestrial type medium little difference in the requirements for Na+ and K+ to prevent the optical density changes was noted. For P. aeruginosa grown in a marine type medium, cells required more K+ than Na+ to prevent these changes.     

Isolation and preliminary characterization of β-lactamase excretory mutants of Escherichia coli K-12

Abstract Escherichia coli exc mutants able to release the plasmid pBR322-encoded β-lactamase (EC 3.5.2.6) into the extracellular medium have been isolated using a new in situ plate assay.
A preliminary characterization of the exc mutants was carried out: the presence of exc mutations was associated with a specific or pleiotropic pattern of excretion of periplasmic enzymes, an increased sensitivity to different growth inhibitors (EDTA, chloramphenicol, cholic acid) and a poor growth on various carbon sources.
After quantitative analysis, three groups of exc mutants were identified on the basis of their temperature-dependent or -independent pattern of growth and β-lactamase synthesis and excretion.     

Induction of the PhoE porin by NaCI as the basis for salt-induced acid sensitivity in Escherichia coli

Z. LAZIM, T.J. HUMPHREY AND R.J. ROWBURY. 1996. Organisms grown in low salt broth (LSB) are acid resistant but become sensitive on growth for 30-60 min with 300 mmol 1⁻¹ added NaCl. Salt-induced acid sensitivity only occurs in relA⁺ strains and sensitization is abolished by glucose, this catabolite repression effect being reversed by cAMP. The finding that sensitization did not occur in a phoE strain but did occur in a phoE⁺ derivative of it suggested that the response might result from PhoE induction, since PhoE acts as the major outer membrane (OM) proton pore under most conditions. In agreement with this, low-salt broth (LSB)-grown cells of a chromosomally lac⁻ strain carrying pJP102 ( phoE-lacZ ) produced low levels of β-galactosidase but growth with added NaCl led to rapid and appreciable induction. Also, a phoA mutant carrying a phoE-phoA fusion produced little alkaline phosphatase after growth in LSB but much more in LSB with added NaCl. Increased β-galactosidase synthesis (in phoE-lacZ strains) in the presence of NaCl was abolished by glucose, this effect being reversible by cAMP, and there was more NaCl-induced synthesis of this enzyme in relA⁺ strains.
Accordingly, it appears that addition of NaCl to LSB leads to acid sensitivity because it induces synthesis of the OM proton pore PhoE.     

Comparative responses of Pseudomonas stutzeri and Pseudomonas aeruginosa to antibacterial agents

The sensitivity of six strains of Pseudomonas stutzeri (NCIMB 568, 10783, 11358, 11359, JM 302, JM 375) to cationic antiseptics, mercury compounds, the parabens, phenolics, EDTA and various antibiotics was compared with Pseudomonas aeruginosa NCIMB 8626. All Ps. stutzeri strains were highly sensitive to chlorhexidine diacetate, organomercurials and triclosan, but rather less so to quarternary ammonium compounds (QACs). They were also sensitive to other biocidal agents and more sensitive to many antibiotics than the strain of Ps. aeruginosa. There was little correlation between uptake of chlorhexidine diacetate or cetylpyridinium chloride by dense suspensions of organisms, leakage of intracellular constituents and loss of cell viability.     

PhoE porin of Escherichia coli and phosphate reversal of acid damage and killing and of acid induction of the CadA gene product

The lethal effects of inorganic acid on phoE + Escherichia coli strains, grown at neutral pH₀, were enhanced by chloramphenicol, apparently because some organisms acquire acid tolerance (habituate) during challenge and chloramphenicol stops this. Phosphate (and/or polyphosphate) present during challenge prevented killing and damage by acid to outer membranes, DNA and cellular enzymes but did not prevent acid pH₀ enhancing novobiocin activity. To reverse acid effects, phosphate must interact with or cross the outer membrane but need not enter the cytoplasm; it is probable that it competes with H+ (or protonated anions) for passage through the PhoE pore. Phosphate also prevented induction of β-galactosidase in a strain with the cadA promoter fused to lacZ. Four unc mutants showed essentially normal acid sensitivity and habituation; the same was true for strains with lesions in fur, oxyR, katF, phoP, cadA and hycB. In contrast, deletion of rpoH led to slightly increased acid sensitivity for cells grown at pH₀ 7·0, although habituation was relatively normal.     

Characterization of a cell wall β-galactosidase of Cicer arietinum epicotyls involved in cell wall autolysis

β-Galactosidase (EC 3.2.1.23) has been established as the main enzyme involved in the autolytic process. The enzyme extracted from cell walls of epicotyls of Cicer arietinum L. cv. Castellana with 3 M LiCl is a 45 kDa protein composed of a single subunit, having an optimum pH of 4; an optimum temperature of 45°C and K_m and V_max of 1.72 m M and 18.5 nkat (mg protein)^–1 respectively, as evaluated against p -nitrophenyl-β- d -galactopyranoside. The enzyme is inhibited by Hg²⁺, d -galactono-1,4-lactone and galactose, substances that also inhibit the autolytic process. Ca²⁺ and EDTA, which do not affect the activity of the β-gaiactosidase, do however modify the hydrolysis of the cell wall mediated by the enzyme, and they also inhibit the autolytic process. Ca²⁺ decreased both processes, whereas EDTA increased them; and when both substances were added together, their individual effects were neutralized. The effects of both agents is probably due to modifications in the cell wall that prevent access of the enzyme to its substrate.     

HYPEROSMOLALITY-INDUCED GABA RELEASE FROM RAT BRAIN SLICES: STUDIES OF CALCIUM DEPENDENCY AND SOURCES OF RELEASE

Abstract— The effects of hyperosmolal superfusion upon the release of preloaded, radio-labeled GABA has been studied, using both first cortical and first pontine brain slices. GABA release was stimulated with either hyperosmolal Na⁺ or sucrose superfusion in cortical slices. This stimulated release of radio-labeled GABA was partially Ca²⁺-dependent in cortical slices. When barium ions replaced Ca²⁺ in hyperosmolal medium, a similar effect was seen. High concentration of magnesium in Ca²⁺ -free hyperosmolal medium did not induce stimulation. The increased release of α-aminoisobutyric acid (AIBA), a non-metabolized amino acid induced by hyperosmolality, was not Ca²⁺-dependent.
GABA release was also stimulated with hyperosmolal sucrose superfusion in pontine slices. The effect of pre-treatment of cortical and pontine slices with β-alanine or L-2,4-diaminobutyric acid (DABA) was used to study the source of exogenous GABA release induced by hyperosmolality. In cortical slices, β-alanine blocked the hyperosmolal release of GABA and also slightly inhibited GABA uptake. DABA did not change hyperosmolal GABA release, although it inhibited GABA uptake. In pontine slices, both DABA and β-alanine inhibited GABA uptake, but were unable to inhibit the hyperosmolal release of GABA.
The data suggest that hyperosmolality causes increased release of GABA from neurons, analogous to that seen with K⁺-depolarization. AIBA, unlike GABA, is released from brain cells as a non-Ca²⁺ -dependent response to osmotic equilibration. The observation that pre-treatment with β-alanine inhibits the hyperosmolal release of GABA suggests that hyperosmolality alters glial cell function.     

Chlorophyll Formation in Euglena gracilis var. bacillaris: Effect of Chelating Agents

SYNOPSIS. 8-Hydroxyquinoline (8-HQ) and cysteine markedly inhibit the synthesis of chlorophylls in non-proliferating etiolated Euglena gracilis var. bacillaris on illumination. This is thought to be due, at least to some extent, to the binding of Mg²⁺ ions in the non-proliferation medium, but largely as a consequence of intracellular chelating action. The effect of 8-HQ could be reversed by the presence of metal ions higher in the Mellor-Malley series than Mg²⁺, e.g., Zn²⁺ and Co²⁺. Sodium diethyldithiocarbamate (Na-DDG) and ethylenediaminetetraacetic acid (EDTA) have no effect on chlorophyll synthesis in non-proliferation conditions. Growth in the light is more affected than growth in the dark by all these chelating agents, including Na-DDG and EDTA. This is due to the differential requirement of Mg²⁺ under these 2 growth conditions.     

Lysis of Vibrio succinogenes by ethylenediamine-tetraacetic acid or lysozyme

Wolin, M. J. (University of Illinois, Urbana). Lysis of Vibrio succinogenes by ethylenediaminetetraacetic acid or lysozyme. J. Bacteriol. 91:1781-1786. 1966.-Cell suspensions of Vibrio succinogenes are lysed by ethylenediaminetetraacetic acid (EDTA) or lysozyme. Lysis occurs at alkaline pH and is prevented by 0.15 m NaCl or KCl or 0.3 m sucrose. The addition of 10(-3)m Mg(++), 10(-3)m spermine, or 10(-2)m Ca(++) prevents lysozyme lysis, and 10(-4)m spermine prevents EDTA lysis. EDTA lysis leads to the formation of a cell ghost, and lysozyme lysis leads to the formation of an empty round body. Freezing and thawing of cells permits lysozyme attack which is not prevented by the protective agents mentioned above. Much of the cell protein, and almost all of the nucleic acids, are released from the cells during EDTA lysis. Treatment of frozen-thawed cells with lysozyme at neutral pH does not cause release of more than 50% of the cell protein and 60% of the nucleic acids of the cells.     

Remobilization of toxic heavy metals adsorbed to bacterial wall-clay composites

Significant quantities of Ag(I), Cu(II), and Cr(III) were bound to isolated Bacillus subtilis 168 walls, Escherichia coli K-12 envelopes, kaolinite and smectite clays, and the corresponding organic material-clay aggregates (1:1, wt/wt). These sorbed metals were leached with HNO3, Ca(NO3)2, EDTA, fulvic acid, and lysozyme at several concentrations over 48 h at room temperature. The remobilization of the sorbed metals depended on the physical properties of the organic and clay surfaces and on the character and concentration of the leaching agents. In general, the order of remobilization of metals was Cr much less than Ag less than Cu. Cr was very stable in the wall, clay, and composite systems; pH 3.0, 500 microM EDTA, 120-ppm [mg liter-1] fulvic acid, and 160-ppm Ca remobilized less than 32% (wt/wt) of sorbed Cr. Ag (45 to 87%) and Cu (up to 100%) were readily removed by these agents. Although each leaching agent was effective at mobilizing certain metals, elevated Ca or acidic pH produced the greatest overall mobility. The organic chelators were less effective. Lysozyme digestion of Bacillus walls remobilized Cu from walls and Cu-wall-kaolinite composites, but Ag, Cr, and smectite partially inhibited enzyme activity, and the metals remained insoluble. The extent of metal remobilization was not always dependent on increasing concentrations of leaching agents; for example, Ag mobility decreased with some clays and some composites treated with high fulvic acid, EDTA, and lysozyme concentrations. Sometimes the organic material-clay composites reacted in a manner distinctly different from that of their individual counterparts; e.g., 25% less Cu was remobilized from wall- and envelope-smectite composites than from walls, envelopes, or smectite individually in 500 microM EDTA. Alternatively, treatment with 160-ppm Ca removed 1.5 to 10 times more Ag from envelope-kaolinite composites than from the individual components. The particle size of the deposited metal may account for some of the stability changes; those metals that formed large, compact aggregates (Cr and Ag) as seen by transmission electron microscopy were less likely to be remobilized. In summary, it is apparent that remobilization of toxic heavy metals in sediments, soils, and the vadose zone is a complicated issue. Predictions based on single inorganic or organic component systems are too simplistic.     

Remobilization of toxic heavy metals adsorbed to bacterial wall-clay composites.

Significant quantities of Ag(I), Cu(II), and Cr(III) were bound to isolated Bacillus subtilis 168 walls, Escherichia coli K-12 envelopes, kaolinite and smectite clays, and the corresponding organic material-clay aggregates (1:1, wt/wt). These sorbed metals were leached with HNO3, Ca(NO3)2, EDTA, fulvic acid, and lysozyme at several concentrations over 48 h at room temperature. The remobilization of the sorbed metals depended on the physical properties of the organic and clay surfaces and on the character and concentration of the leaching agents. In general, the order of remobilization of metals was Cr much less than Ag less than Cu. Cr was very stable in the wall, clay, and composite systems; pH 3.0, 500 microM EDTA, 120-ppm [mg liter-1] fulvic acid, and 160-ppm Ca remobilized less than 32% (wt/wt) of sorbed Cr. Ag (45 to 87%) and Cu (up to 100%) were readily removed by these agents. Although each leaching agent was effective at mobilizing certain metals, elevated Ca or acidic pH produced the greatest overall mobility. The organic chelators were less effective. Lysozyme digestion of Bacillus walls remobilized Cu from walls and Cu-wall-kaolinite composites, but Ag, Cr, and smectite partially inhibited enzyme activity, and the metals remained insoluble. The extent of metal remobilization was not always dependent on increasing concentrations of leaching agents; for example, Ag mobility decreased with some clays and some composites treated with high fulvic acid, EDTA, and lysozyme concentrations. Sometimes the organic material-clay composites reacted in a manner distinctly different from that of their individual counterparts; e.g., 25% less Cu was remobilized from wall- and envelope-smectite composites than from walls, envelopes, or smectite individually in 500 microM EDTA. Alternatively, treatment with 160-ppm Ca removed 1.5 to 10 times more Ag from envelope-kaolinite composites than from the individual components. The particle size of the deposited metal may account for some of the stability changes; those metals that formed large, compact aggregates (Cr and Ag) as seen by transmission electron microscopy were less likely to be remobilized. In summary, it is apparent that remobilization of toxic heavy metals in sediments, soils, and the vadose zone is a complicated issue. Predictions based on single inorganic or organic component systems are too simplistic.