Effect of aerobic and anaerobic growth on the cell wall ofStaphylococcus aureus

Electron micrographs ofStaphylococcus aureus 7167 which had been grown anaerobically showed that the cell wall was approximately 5 times thicker than the wall of bacteria after aerobic growth. Cell walls prepared from anaerobically grownS. aureus were more sensitive to the bacteriolytic enzymes: lysostaphin, lysozyme, and the wall-associated autolytic enzyme ofB. subtilis 168 I^?. Our findings are interpreted as evidence that the cell wall or surface of anaerobically grownS. aureus 7167 is different from that of aerobically grownS. aureus 7167. The findings suggest that the cell wall peptidoglycan of the anaerobe is a more loosely formed network, resulting in a more rapid solubilization by the bacteriolytic enzymes.     

Stability and refractoriness of the high catalase activity in the oxidative-stress-resistant fission yeastSchizosaccharomyces pombe

Effect of oxygen and metabolic substrates (glucose, ethanol) on the catalase activity of anaerobically grownSchizosaccharomyces pombe cells was assessed, and compared with that ofSaccharomyces cerevisiae in order to determine the catalase activity regulation inS. pombe. In contrast toS. cerevisiae, the total catalase activity of permeabilizedS. pombe anaerobically grown cells is higher than that found in aerobically grown cells, is stable and constant under all circumstances (i.e. it is not induced by oxygen and/or substrates), and only a negligible part (3–5%) of it is contributed byde novo protein synthesis during aeration with or without substrates. The patent catalase activity of intact cells rises 2-fold during 6-h aeration without substrate and 7–8-fold in the presence of glucose or ethanol. The increase is not inhibited by cycloheximide and is thus not due tode novo catalase synthesis, but may reflect enhanced transport of catalase to the cell surface or a permeabilization of the plasma membrane during the aeration.     

Comparison of Macromolecular Oxidation by Reactive Oxygen Species in Three Bacterial Genera Exposed to Different Antibiotics

Proteins and lipids maybe important targets of oxidation and this may alter their functions. We evaluated whether ceftazidima (CAZ), piperacillin (PIP), chloramphenicol (CMP), and ciprofloxacin (CIP) could oxidize the macromolecules in the three bacterial genera Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa. There was an increase in lipid peroxidation observed in these three species. However, this was lower in the Gram negative bacteria than in S. aureus. A reduction of the carbonyl residue in S. aureus with ciprofloxacin was observed whereas in Gram negative bacteria the antibiotics increased the carbonyl residue with respect to the control. Although the strains suffered a rise in advanced oxidation protein products (AOPP) in the presence of ciprofloxacin, the S. aureus strain had a smaller increase of AOPP than the other strains. The results described in this article provide data about the susceptibility of the three bacterial genera to the oxidative stress induced by the antibiotics studied.     

Redox sensing by a Rex‐family repressor is involved in the regulation of anaerobic gene expression in Staphylococcus aureus

An alignment of upstream regions of anaerobically induced genes in Staphylococcus aureus revealed the presence of an inverted repeat, corresponding to Rex binding sites in Streptomyces coelicolor. Gel shift experiments of selected upstream regions demonstrated that the redox‐sensing regulator Rex of S. aureus binds to this inverted repeat. The binding sequence – TTGTGAAW₄TTCACAA – is highly conserved in S. aureus. Rex binding to this sequence leads to the repression of genes located downstream. The binding activity of Rex is enhanced by NAD⁺ while NADH, which competes with NAD⁺ for Rex binding, decreases the activity of Rex. The impact of Rex on global protein synthesis and on the activity of fermentation pathways under aerobic and anaerobic conditions was analysed by using a rex‐deficient strain. A direct regulatory effect of Rex on the expression of pathways that lead to anaerobic NAD⁺ regeneration, such as lactate, formate and ethanol formation, nitrate respiration, and ATP synthesis, is verified. Rex can be considered a central regulator of anaerobic metabolism in S. aureus. Since the activity of lactate dehydrogenase enables S. aureus to resist NO stress and thus the innate immune response, our data suggest that deactivation of Rex is a prerequisite for this phenomenon.     

Relationship between the F0F1-ATPase and the K+-transport system within the membrane of anaerobically grownEscherichia coli. N,N′-dicyclohexylcarbodiimide-sensitive ATPase activity in mutants with defects in K+-transport

A considerable (2-fold) stimulation of the DCCD-sensitive ATPase activity by K⁺ or Rb⁺, but not by Na⁺, over the range of zero to 100mM was shown in the isolated membranes ofE. coli grown anaerobically in the presence of glucose. This effect was observed only in parent and in thetrkG, but not in thetrkA, trkE, ortrkH mutants. ThetrkG or thetrkH mutant with anunc deletion had a residual ATPase activity not sensitive to DCCD. A stimulation of the DCCD-sensitive ATPase activity by K⁺ was absent in the membranes from bacteria grown anaerobically in the presence of sodium nitrate. Growth of thetrkG, but not of othertrk mutants, in the medium with moderate K⁺ activity did not depend on K⁺ concentration. Under upshock, K⁺ accumulation was essentially higher in thetrkG mutant than in the othertrk mutant. The K⁺-stimulated DCCD-sensitive ATPase activity in the membranes isolated from anaerobically grownE. coli has been shown to depend absolutely on both the F₀F₁ and theTrk system and can be explained by a direct interaction between these transport systems within the membrane of anaerobically grown bacteria with the formation of a single supercomplex functioning as a H⁺-K⁺ pump. ThetrkG gene is most probably not functional in anaerobically grown bacteria.This study was performed at the Department of Molecular Genetics and Cell Biology, The University of Chicago, Chicago, Illinois 60637.     

The effect of ethanol on cell wall antigens ofSaccharomyces cerevisiae and specific isolation of high ethanol producing strains of this yeast,making use of a serological technique

Generally, natural isolates of high ethanol producingSaccharomyces cerevisiae obtained by screening are used in alcoholic industries. The methods involved in their isolation and identification are elaborate. Antigenic analysis using antibodies raised against wholeSaccharomyces cells indicated species specificity of cell wall surface thermostable antigens. By affinity purification, the specific antibodies could be obtained and used for specific isolation ofS. cerevisiae. Antigenic studies using antibodies raised against isolated cell walls of fermentatively grownS. cerevisiae indicated the occurrence of thermolabile antigens common toSaccharomyces species. Higher concentrations of these antigens could be detected in thoseS. cerevisiae that had the ability for high ethanol production. The concentrations of these cell wall common antigens increased with increasing culture age and ethanol accumulation in culture broths. In younger yeast cells, the concentration could be increased by growing the cells in a medium containing added ethanol. Using dilutions of cross absorbed antibody specific for common antigens and Ouchterlony test, high ethanol producingS. cerevisiae could be identified.     

Culture conditions and sample preparation methods affect spectrum quality and reproducibility during profiling of Staphylococcus aureus with matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry

Matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry (MALDI‐TOF MS) has emerged as a promising tool to rapidly characterize Staphylococcus aureus. Different protocols have been employed, but effects of experimental factors, such as culture condition and sample preparation, on spectrum quality and reproducibility have not been rigorously examined. We applied MALDI‐TOF MS to characterize a model system consisting of five methicillin‐sensitive (MSSA) and five methicillin‐resistant S. aureus isolates (MRSA) under two culture conditions (agar and broth) and using two sample preparation methods [intact cell method and protein extraction method (PEM)]. The effects of these treatments on spectrum quality and reproducibility were quantified. PEM facilitated increases in the number of peaks and mass range width. Broth cultures further improved spectrum quality in terms of increasing the number of peaks. In addition, PEM increased reproducibility in samples prepared using identical culture conditions. MALDI imaging data suggested that the improvement in reproducibility may result from a more homogeneous distribution of sample associated with the broth/PEM treatment. Broth/PEM treatment also yielded the highest rate (96%) of correct classification for MRSA. Taken together, these results suggest that broth/PEM maximizes the performance of MALDI‐TOF MS to characterize S. aureus.

Significance and Impact of the Study

Two culture conditions (agar or broth) and two sample preparation methods (intact cell or protein extraction) were evaluated for their effects on profiling of Staphylococcus aureus using matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry (MALDI‐TOF MS). Results indicated that MALDI‐enabled profiling of S. aureus is most effective when cultures are grown in broth and processed using a protein extraction‐based approach. These findings should enhance future efforts to maximize the performance of this approach to characterize strains of S. aureus.     

A derivative of the menaquinone precursor 1,4-dihydroxy-2-naphthoate is involved in the reductive transformation of carbon tetrachloride by aerobically grown<Emphasis Type="Italic"> Shewanella oneidensis</Emphasis> MR-1

Transformation of carbon tetrachloride (CT) by Shewanella oneidensis MR-1 has been proposed to involve the anaerobic respiratory-chain component menaquinone. To investigate this hypothesis a series of menaquinone mutants were constructed. The menF mutant is blocked at the start of the menaquinone biosynthetic pathway. The menB, menA and menG mutants are all blocked towards the end of the pathway, being unable to produce 1,4-dihydroxy-2-naphthoic acid (DHNA), demethyl-menaquinone and menaquinone , respectively. Aerobically grown mutants unable to produce the menaquinone precursor DHNA (menF and menB mutants) showed a distinctly different CT transformation profile than mutants able to produce DHNA but unable to produce menaquinone (menA and menG mutants). While DHNA did not reduce CT in an abiotic assay, the addition of DHNA to the menF and menB mutants restored normal CT transformation activity. We conclude that a derivative of DHNA, that is distinct from menaquinone, is involved in the reduction of CT by aerobically grown S. oneidensis MR-1. When cells were grown anaerobically with trimethylamine-N-oxide as the terminal electron acceptor, all the menaquinone mutants showed wild-type levels of CT reduction. We conclude that S. oneidensis MR-1 produces two different factors capable of dehalogenating CT. The factor produced under anaerobic growth conditions is not a product of the menaquinone biosynthetic pathway.     

Comparative Studies of Glucose Catabolism by Escherichia coli Grown in a Complex Medium under Aerobic and Anaerobic Conditions

Escherichia coli HB101 was grown in complex medium under anaerobic and aerobic conditions. Cells prepared under these two different conditions were characterized by two-dimensional protein gel electrophoresis, by NMR measurements under identical (anaerobic) conditions, and by measuring the kinetics of glucose uptake and catabolite end-product appearance in the medium under identical anaerobic conditions. Specific rates of glucose uptake and end-product formation were significantly greater for the anaerobically grown cells, which also exhibited lower intracellular concentrations of sugar phosphates, nucleoside di-and triphosphates, UDPG, and NAD(H). Two-dimensional gel electrophoretic analyses reveal changes in the intracellular levels of proteins involved in pyruvate catabolism that have been observed previously for E. coli grown in minimal medium under aerobic and anaerobic conditions. Enzymes involved in the TCA cycle were not detected in cells grown aerobically or anaerobically in complex medium.     

Nisin F-loaded brushite bone cement prevented the growth of Staphylococcus aureus in vivo

Aims: To determine if nisin F‐loaded self‐setting brushite cement could control the growth of Staphylococcus aureus in vivo. Methods and Results: Brushite cement was prepared by mixing equimolar concentrations of β‐tricalcium phosphate and monocalcium phosphate monohydrate. Nisin F was added at 5·0, 2·5 and 1·0% (w/w) and the cement moulded into cylinders. In vitro antibacterial activity was determined using a delayed agar diffusion assay. Release of nisin F from the cement was determined using BCA protein assays. Based on scanning electron microscopy and X‐ray diffraction analysis, nisin F did not cause significant changes in cement structure or chemistry. Cement containing 5·0% (w/w) nisin F yielded the most promising in vitro results. Nisin F‐loaded cement was implanted into a subcutaneous pocket on the back of mice and then infected with S. aureus Xen 36. Infection was monitored for 7 days, using an in vivo imaging system. Nisin F prevented S. aureus infection for 7 days and no viable cells were isolated from the implants. Conclusions: Nisin F‐loaded brushite cement successfully prevented in vivo growth of S. aureus. Significance and Impact of the Study: Nisin F incorporated into bone cement may be used to control S. aureus infection in vivo.     

Growth and development of tomato fruitsin vivo andin vitro

Tomato (Lycopersicon esculentum Mill.) fruits of the male sterile cultivar Pearson (MS35 BC4, 61) were transferred toin vitro culture during the cell division period. Fruits grownin vivo andin vitro were compared throughout their development according to various growth parameters: fresh and dry weight, cell number, cell diameter, and DNA and total protein content. In all cases, the values pertaining to fruits grownin vitro were significantly lower than theirin vivo counterparts. The final fresh weight of fruits transferred to culture 2, 5, or 10 days after pollination was only 0.7, 1.2, and 3.4%, respectively, of that of plant-grown fruits. The results indicate that the reduced fruit sizein vitro is related to the reduction in both cell number and cell size. It is interesting to note that the DNA content per cell increased 15-fold during the growth of the plant-grown fruits while this accumulation was only between 2-and 3-fold in all the cultured fruits. The time to first colour appearance of fruits cultured 2, 5, or 10 days after pollination was 196, 132 and 85%, respectively, of that of plant-grown fruits.     

The Synergistic Antibacterial Properties of Glycinin Basic Peptide against Bacteria via Membrane Damage and Inactivation of Enzymes

This study investigated the antibacterial properties of glycinin basic peptide (GBP), a natural antibacterial component from soybean protein, against Staphylococcus aureus (S. aureus). The minimum inhibitory and bactericidal concentrations of GBP against S. aureus were 0.2 mg/mL and 0.8 mg/mL, respectively. Flow cytometry analysis manifested that GBP decreased the number of intact and normal cells. Higher concentrations of GBP induced more severe damage of the bacterial membrane; the maximal percentage of injured and dead cells was 93.8% with 0.8 mg/mL GBP. Electron microscopy imaging visually showed the morphological damage of S. aureus by GBP. Intracellular K⁺ leakage and the membrane depolarization of S. aureus further verified that GBP could destroy the bacterial membrane. Moreover, GBP decreased the activity of nonspecific esterase and ATPase of S. aureus in a concentration-dependent manner. These results demonstrated that GBP exhibited antibacterial properties against S. aureus via synergistic actions of damage to the cell membrane and inactivation of metabolic enzymes.

     

Polyclonal Antibody Production in Murine Spleen Cells Induced by Staphylococcus

Polyclonal plaque-forming cell (PFC) responses in murine spleen cells induced by Staphylococcus aureus and S. epidermidis were studied. Injection of Balb/c mice with S. aureus strain 248βH resulted in the generation of anti-trinitrophenyl (TNP) and anti-sheep red blood cell PFC in their spleens. Cultures of Balb/c spleen cells in the presence of S. aureus 248βH, Cowan I, or a protein A-deficient mutant yielded many anti-TNP PFC. The larger the number of organisms that were added to the cultures, the better was the PFC response. Both living and killed organisms, were capable of inducing the response, but an excess of living 248βH organisms in the cultures abrogated the response. All of the organisms (12 strains of S. aureus and 11 strains of S. epidermidis) freshly isolated from patients had the ability to induce the polyclonal PFC response in cell cultures. These organisms stimulated cultured C3H/HeJ mouse spleen cells, which were unresponsive to bacterial lipopolysaccharide (LPS). Cultured cells from the spleens of athymic nu/nu mice also responded to these organisms, and the number of PFC in nu/nu cell cultures was always greater than that in nu/+ cells prepared from a haired litter mate. Moreover, the responses of nu/nu spleen cell cultures to which nylon wool column-filtered splenic nu/+ T cells were added were lower than expected. These findings suggest that the polyclonal PFC response to staphylococci is thymus independent, but that the magnitude of the response is regulated by mature T cells. Cultures of macrophage-depleted spleen cells responded to the organisms to an extent similar to that of the control. The 248βH organisms were less capable of stimulating spleen cells of 2-week-old mice (i.e., early maturing B cells) than LPS. However, spleen cells from adult (7-week-old) and aged (9-month-old) mice responded well to both the organisms and LPS. Previous sensitization with the organisms in vivo did not affect any polyclonal responses of spleen cells in vitro to either the organisms or LPS. The role of staphylococcal protein A in the polyclonal PFC response to staphylococci is discussed.     

Reduction of the Peptidoglycan Crosslinking Causes a Decrease in Stiffness of the Staphylococcus aureus Cell Envelope

We have used atomic-force microscopy (AFM) to probe the effect of peptidoglycan crosslinking reduction on the elasticity of the Staphylococcus aureus cell wall, which is of particular interest as a target for antimicrobial chemotherapy. Penicillin-binding protein 4 (PBP4) is a nonessential transpeptidase, required for the high levels of peptidoglycan crosslinking characteristic of S. aureus. Importantly, this protein is essential for β-lactam resistance in community-acquired, methicillin-resistant S. aureus (MRSA) strains but not in hospital-acquired MRSA strains. Using AFM in a new mode for recording force/distance curves, we observed that the absence of PBP4, and the concomitant reduction of the peptidoglycan crosslinking, resulted in a reduction in stiffness of the S. aureus cell wall. Importantly, the reduction in cell wall stiffness in the absence of PBP4 was observed both in community-acquired and hospital-acquired MRSA strains, indicating that high levels of peptidoglycan crosslinking modulate the overall structure and mechanical properties of the S. aureus cell envelope in both types of clinically relevant strains. Additionally, we were able to show that the applied method enables the separation of cell wall properties and turgor pressure.     

Immunization with heat‐inactivated Staphylococcus aureus induced an antibody response mediated by IgG1 and IgG2 in patients with recurrent tonsillitis

Currently Staphylococcus aureus is the predominant pathogen isolated from the respiratory tract of patients with recurrent tonsillitis. Because of an increase in multi‐drug resistant strains of S. aureus, there is a pressing need for effective treatments and preventive approaches to reduce the risk of invasive and life‐threatening infections. A preventive vaccine against S. aureus would have a tremendous clinical impact. However, multiple clinical trials have failed to identify an agent that can induce protective responses. Most trials have been based on subunit vaccines using one or a few purified antigens, which may not be enough to confer protection. Here, the impact of a whole‐cell vaccine comprised of heat‐inactivated S. aureus was investigated in patients with RT. The vaccine was well tolerated and had no significant local or systemic reactions. Immunization with heat‐inactivated S. aureus elicited a significant antibody response characterized by production of IgG1 and IgG2 antibodies and, to a lesser extent, of IgA antibodies. Notably, this response was associated with an important decrease in the incidence of tonsillitis and bacterial colonization of the oropharyngeal mucosa. Our results show that whole‐cell inactivated S. aureus is safe and capable of evoking specific antibody responses in patients with recurrent tonsillitis.     

Activities of mitochondrial enzymes during aerobic synchronous growth of aerobically and anaerobically grownSaccharomyces cerevisiae

The mitochondrial enzymes eytoehrome-c: O₂-oxidoreductase (E.C.1.9.3.1), NADH: cytochrome-c-oxidoreductase (E.C.1.6.2.1), NADH: ferrioyanide oxidoreductase (E.C.1.6.2.99),l-malate hydrolyase (E.C.4.2.1.2) andl-malate: NADH-oxidoreductase (E.C.1.1.3.7) increase their activities during the aerobic synchronous growth of aerobically grownSaccharomyces cerevisiae in discrete steps and only once during the cell cycle. An identical phenomenon was observed during the aerobic synchronous growth of anaerobically grown yeast. The mechanism of completization of mitochondrial membranes is thus likely to be discontinuous and the same during both mitochondrial multiplication and the conversion of promitochondria to fully functioning mitochondria.     

PIA and rSesC Mixture Arisen Antibodies Could Inhibit the Biofilm-Formation in Staphylococcus aureus

Background:Staphylococcus aureus as a causative agent of hospital-acquired infections has been considered as the primary concern in biomaterial-related infections (BAIs).Methods:Following the purification of polysaccharide intercellular adhesion (PIA) as an efficient macromolecule in biofilm formation in the native condition, recombinant S. epidermidis surface-exposed rSesC protein, with the most homology to clumping factor A (ClfA) in S. aureus was cloned and expressed in a prokaryotic host as well. Fourier transform infrared spectrometry (FTIR) and Western blotting procedure analyzed purified PIA and protein, respectively. Then, the immune response was evaluated by measuring total IgG titers. Moreover, the capacity of Anti-biofilm forming activity of arisen antibodies to a biofilm-forming S. aureus strains was assessed by the semi-quantitative micro-plate procedure.Results:Data showed that the total IgGs were boosted in mice immunized sera. By performing an inhibition assay, the biofilm inhibitory effect of secreted antibodies to test strain was observed. Arisen antibodies against the mixture significantly were more potent than PIA and rSesC, when comparing individual antigens in a biofilm inhibition assay.Conclusion:immunization of mice with mentioned antigens especially a mixture of them, could eliminate the biofilm formation process in S. aureus. Hopefully, this study corresponds to the suggestion that the immunization of mice with PIA and rSesC candidate vaccines could protect against S. aureus infection.Key Words: PIA, Purification, Staphylococcus aureus, rSesC, Vaccine candidates     

Adaptive immune response to lipoproteins of Staphylococcus aureus in healthy subjects

Staphylococcus aureus is a frequent commensal but also a dangerous pathogen, causing many forms of infection ranging from mild to life‐threatening conditions. Among its virulence factors are lipoproteins, which are anchored in the bacterial cell membrane. Lipoproteins perform various functions in colonization, immune evasion, and immunomodulation. These proteins are potent activators of innate immune receptors termed Toll‐like receptors 2 and 6. This study addressed the specific B‐cell and T‐cell responses directed to lipoproteins in human S. aureus carriers and non‐carriers. 2D immune proteomics and ELISA approaches revealed that titers of antibodies (IgG) binding to S. aureus lipoproteins were very low. Proliferation assays and cytokine profiling data showed only subtle responses of T cells; some lipoproteins did not elicit proliferation. Hence, the robust activation of the innate immune system by S. aureus lipoproteins does not translate into a strong adaptive immune response. Reasons for this may include inaccessibility of lipoproteins for B cells as well as ineffective processing and presentation of the antigens to T cells.