Autolysis of Listeria monocytogenes

Physiological conditions that could provide maximal rates of autolysis of Listeria monocytogenes were examined. L. monocytogenes was found to be refractory to most treatments that promote rapid autolysis in other bacteria. Best rates of autolysis were obtained after resuspending the cells in Tris-hydrochloride buffer at 37 degrees C with the pH optimum at 8.0. Autolysis was also efficiently promoted by the surfactant Triton X-100. Antibiotics that interfere with the biosynthesis of the cell wall murein (peptidoglycan) caused death of the cells without autolysis after prolonged incubation in the presence of the drug. Only nisin, which has been shown to bind in vitro to the murein precursors lipid I and lipid II brings about autolysis of L. monocytogenes cells, although with slower kinetics than in the case of Tris-HCl and Triton.     

Penicillin-binding proteins of listeria monocytogenes--a re-evaluation

Intact Listeria monocytogenes cells or membranes isolated from them were treated with [3H]penicillin to allow identification of the penicillin binding proteins (PBPs) located in the cytoplasmic membrane. In the former case the PBPs were released from the cells following disruption of the cell wall murein with Listeria monocytogenes bacteriophage lysin. The procedure described by Dougherty et al. (1996) for Escherichia coli, with some modifications, was used to evaluate the M(r)s of the individual PBPs and allowed direct quantitation of their copy number.     

Evidence for multisite growth of Escherichia coli murein involving concomitant endopeptidase and transpeptidase activities.

During diaminopimelic acid starvation of Escherichia coli W7, a large fraction of the preexisting murein cross-links are opened by murein endopeptidase and the resulting uncross-linked material is degraded. This is reflected morphologically in a general loss of rigidity of the murein sacculus long before lysis occurs. In growing cells, a dynamic situation is demonstrable. When cells whose murein sacculi are uniformly labeled with [14C]diaminopimelic acid were chased with unlabeled DAP, a significant, rapid shift of [14C]diaminopimelic acid from the donor to the acceptor half of dimers was observed. The shift can be explained by the presence of about 100 separate sites where new murein strands were being inserted between old radioactive strands of murein. Thus, the gradual loss of rigidity of the murein sacculus as endopeptidase continues to function during starvation of E. coli W7 suggests an even distribution of the active endopeptidases. This is consistent with the kinetic data which suggest that endopeptidase, along with murein synthetase and transpeptidase, acts at about 100 distinct sites to elongate the murein sacculus.     

Murein (peptidoglycan) binding property of the essential cell division protein FtsN from Escherichia coli

The binding of the essential cell division protein FtsN of Escherichia coli to the murein (peptidoglycan) sacculus was studied. Soluble truncated variants of FtsN, including the complete periplasmic part of the protein as well as a variant containing only the C-terminal 77 amino acids, did bind to purified murein sacculi isolated from wild-type cells. FtsN variants lacking this C-terminal region showed reduced or no binding to murein. Binding of FtsN was severely reduced when tested against sacculi isolated either from filamentous cells with blocked cell division or from chain-forming cells of a triple amidase mutant. Binding experiments with radioactively labeled murein digestion products revealed that the longer murein glycan strands (>25 disaccharide units) showed a specific affinity to FtsN, but neither muropeptides, peptides, nor short glycan fragments bound to FtsN. In vivo FtsN could be cross-linked to murein with the soluble disulfide bridge containing cross-linker DTSSP. Less FtsN, but similar amounts of OmpA, was cross-linked to murein of filamentous or of chain-forming cells compared to levels in wild-type cells. Expression of truncated FtsN variants in cells depleted in full-length FtsN revealed that the presence of the C-terminal murein-binding domain was not required for cell division under laboratory conditions. FtsN was present in 3,000 to 6,000 copies per cell in exponentially growing wild-type E. coli MC1061. We discuss the possibilities that the binding of FtsN to murein during cell division might either stabilize the septal region or might have a function unrelated to cell division.     

Characterization of the cell wall murein of Thiobacillus versutus

Amino acid analysis of pure murein isolated from cells of Thiobacillus versutus grown in complex medium revealed the typical constituents of most mureins from gram-negative cells, i.e. muramic acid, glucosamine, glutamic acid, alanine and diaminopimelic acid in molecular ratio of 0.58: 0.79: 1.0: 1.76:1.07, respectively. The presence of glycine and leucine was also demonstrated (0.20 and 0.08 compared to glutamic acid). Glycine was also present in the murein of cells grown in chemically defined synthetic medium. The crosslinkage of T. versutus murein was approximately 36% --much higher than for most other gram-negative species. High pressure liquid chromatography analysis of muropeptide composition following muramidase digestion of T. versutus murein revealed essentially the same pattern as for Escherichia coli under similar conditions of digestion and separation with, however, some differences in the minor peaks.     

Attachment of lipoprotein to murein (peptidoglycan) of Escherichia coli in the presence and absence of penicillin FL 1060.

In vivo studies on the attachment of lipoprotein to the murein (peptidoglycan) of Escherichia coli showed that it takes several generations of growth until the amount of lipoprotein on newly made murein is equilibrated. The technique used involves degradation of the sodium dodecyl sulfate-insoluble murein-lipoprotein complex (sacculus, rigid layer) with lysozyme and separation of the labeled products on paper. No lipoprotein was found on murein subunits incorporated during a pulse of [3H]diaminopimelate for 1 min in logarithmically growing cells at 37 C. Even after one doubling of the cell mass, only 4 to 8% of the labeled murein was isolated as bound to lipoprotein. With uniformly labeled murein, 30% remains bound to lipoprotein after lysozyme treatment, corresponding to three murein subunits. Therefore it can be concluded that during pulse labeling either no lipoprotein is incorporated into the newly synthesized murein or no murein subunits are inserted into existing murein around lipoprotein attachment sites. Longer pulse and pulse-chase experiments argue for the latter interpretation. It is therefore concluded that incorporation of murein subunits into the growing murein polymer is not at all a random process. Instead, quite large areas of murein, on which lipoprotein is situated, seem to be preserved. Under the influence of penicillin FL 1060 murein synthesis is 50% inhibited. The rate of lipoprotein attachment is less affected so that increasing amounts of lipoprotein become attached during spheroplast formation. By the time the stationary growth phase has been reached, the lipoprotein content of the murein has doubled. Diaminopimelate auxotrophic mutants require, in the presence of penicillin FL 1060, more diaminopimelate for full growth than in the absence of penicillin FL 1060. This finding and the fact that murein synthesis is always inhibited by 50% over a wide range of penicillin concentration (1 to 1,000 mug/ml) point to the inhibition of an enzymatic step of murein synthesis which can be partially bypassed by a second enzyme, less efficient but resistant to penicillin FL 1060.     

Composition of Caulobacter crescentus murein synthesized in the presence of glycine

Abstract Glycine added to the growth medium of Caulobacter crescentus was found to substitute Cterminal alanine in the peptide side chains of the murein of this species. Murein synthesized in vivo and in vitro in the presence of glycerine was poorly crosslinked as was new murein formed in the presence of the amino acid. The reduced cross-linkage seems to be due to the effect of glycine on the formation of trimeric muropeptides as revealed by high-performance liquid chromatography (HPLC) muropeptide analysis of murein formed in the presence and absence of the amino acid.     

Murein and lipopolysaccharide biosynthesis in synchronized cells of Escherichia coli K 12 and the effect of penicillin G,mecillinam and nalidixic acid

The incorporation of radioactive N-acetylglucosamine into murein and lipopolysaccharide of synchronized cells of Escherichia coli K 12 was followed over 100 min in the presence of antibiotics. At 20 min intervals cell walls were prepared. Lipopolysaccharide and murein sacculi were isolated and the radioactivity was quantified in both polymers. Labelled, newly synthesized murein was characterized according to murein subunits linked to lipoprotein, and the degree of crosslinkage. Furthermore, murein subunits containing anhydromuramic acid were determined, permitting the calculation of the average glycan chain length. The results indicated that penicillin G at 30 g/ml stimulated the incorporation of new murein subunits into sacculi followed by a sudden increase in lipopolysaccharide incorporation into the outer membrane. The degree of crosslinkage in murein synthesized in the presence of 30 g/ml penicillin G was higher than in the control, and almost twice as high as in murein synthesized in the presence of 20 g/ml nalidixic acid. Both antibiotics inhibited cell division at the concentrations indicated. Murein synthesized in the presence of 2 g/ml mecillinam also showed higher crosslinkage. However, about twice as much anhydromuramic acid-containing subunits were observed as in the control. At the same time lipopolysaccharide incorporation into the outer membrane was stimulated two- to three-fold.Abbreviation GlcNAc N-acetylglucosamine     

Listeria monocytogenes EGD lacking penicillin-binding protein 5 (PBP5) produces a thicker cell wall

We report on the cloning of the structural gene for penicillin-binding protein 5 (PBP5), lmo2754. We also describe the enzymatic activity of PBP5 and characterize a mutant lacking this activity. Purified PBP5 has dd-carboxypeptidase activity, removing the terminal D-alanine residue from murein pentapeptide side chains. It shows higher activity against low molecular weight monomeric pentapeptide substrates compared to dimeric pentapeptide compound. Similarly, PBP5 preferentially cleaves monomeric pentapeptides present in high-molecular weight murein sacculi. A Listeria monocytogenes mutant lacking functional PBP5 was constructed. Cells of the mutant are viable, showing that the protein is dispensable for growth, but grow slower and have thickened cell walls.     

Involvement of N-acetylmuramyl-l-alanine amidases in cell separation and antibiotic-induced autolysis of Escherichia coli

N-acetylmuramyl-L-alanine amidases are widely distributed among bacteria. However, in Escherichia coli, only one periplasmic amidase has been described until now, which is suggested to play a role in murein recycling. Here, we report that three amidases, named AmiA, B and C, exist in E. coli and that they are involved in splitting of the murein septum during cell division. Moreover, the amidases were shown to act as powerful autolytic enzymes in the presence of antibiotics. Deletion mutants in amiA, B and C were growing in long chains of unseparated cells and displayed a tolerant response to the normally lytic combination of aztreonam and bulgecin. Isolated murein sacculi of these chain-forming mutants showed rings of thickened murein at the site of blocked septation. In vitro, these murein ring structures were digested more slowly by muramidases than the surrounding murein. In contrast, when treated with the amidase AmiC or the endopeptidase MepA, the rings disappeared, and gaps developed at these sites in the murein sacculi. These results are taken as evidence that highly stressed murein cross-bridges are concentrated at the site of blocked cell division, which, when cleaved, result in cracking of the sacculus at this site. As amidase deletion mutants accumulate trimeric and tetrameric cross-links in their murein, it is suggested that these structures mark the division site before cleavage of the septum.     

UDP-N-acetylmuramylpentapeptide as acceptor in murein biosynthesis in Escherichia coli membranes and ether-permeabilized cells

Two widely used in vitro systems of Escherichia coli capable of synthesizing murein were evaluated by using high-pressure liquid chromatography for murein analysis. Comparison of the composition of murein synthesized by either a membrane preparation or ether-treated cells with native murein revealed that both in vitro systems failed to synthesize murein that was identical to murein formed in vivo. Furthermore, neither system attached the lipoprotein to the murein. Ether-treated cells, however, were superior to the membrane preparation in catalyzing the formation of the remarkable A2pm-A2pm cross-linkage. In both systems an atypical transpeptidation reaction was found to take place in which exogenously supplied UDP-N-acetylmuramylpentapeptide was directly linked to the murein without participation of the bactoprenol lipid carrier. The direct transpeptidation yields preferentially trimeric peptide bridges with the UDP-linked muramylpentapeptide serving as the acceptor.     

Autolysis of Caulobacter crescentus grown in the presence of glycine

Caulobacter crescentus was grown in complex medium supplemented with low (0.05%) concentration of glycine, a component of the murein peptide side chains of this bacterium. Murein synthesized in the presence of glycine was poorly crosslinked and the rate of its synthesis was slowed down compared to the control cells. The glycine-grown cells were considerably more sensitive to the chelating agent EDTA and Tris buffer than the control cells and also lysed faster when incubated with beta-lactam antibiotics. No changes in phospholipid composition in the presence of glycine were observed and the outer membrane protein composition of the glycine-grown cells was altered only in the amount of 130 000 protein which forms the surface array of C. crescentus. The effects of glycine can thus be tentatively put down to the reduced crosslinkage of murein synthesized in its presence.     

Ampicillin resistance in Listeria monocytogenes acquired as a result of transposon mutagenesis

We have used plasmid pLTV3, which carries transposon Tn917, to obtain a series of mutants of Listeria monocytogenes EGD showing varied degrees of resistance to ampicillin and other beta-lactam antibiotics, including imipenem. In this paper we focus on the characteristics of two strains in which decreased susceptibility to ampicillin is accompanied by changes in the structure of the cell wall murein and cell-wall related changes of phenotype.     

Temperature-sensitive mutants of Escherichia coli K-12 with low activities of the L-alanine adding enzyme and the D-alanyl-D-alanine adding enzyme

A number of properties of temperature-sensitive mutants in murein synthesis are described. The mutants grow at 30 C but lyse at 42 C. One mutant possesses a temperature-sensitive d-alanyl-d-alanine adding enzyme, has an impaired rate of murein synthesis in vivo at both 30 and 42 C, and contains elevated levels of uridine diphosphate-N-acetyl-muramyl-tripeptide (UDP-MurNAc-l-Ala-d-Glu-m-diaminopimelic acid) at 42 C. The other mutant possesses an l-alanine adding enzyme with a very low in vitro activity at both 30 and 42 C. Its in vivo rate of murein synthesis is almost normal at 30 C but is much less at 42 C. When the murein precursors were isolated after incubation of the cells in the presence of (14)C-l-alanine, they contained only a fraction of the radioactivity that could be obtained from a wild-type strain. A genetic nomenclature for genes concerned with murein synthesis is proposed.     

The iap gene of Listeria monocytogenes is essential for cell viability, and its gene product, p60, has bacteriolytic activity.

Expression of the iap gene of Listeria monocytogenes in the L. monocytogenes rough mutant RIII and in Bacillus subtilis DB104 caused the disruption of the cell chains which these two strains normally form under exponential growth conditions. The p60 protein produced by L. monocytogenes and B. subtilis DB104 also exhibited bacteriolytic activity detected in denaturing polyacrylamide gels containing heat-killed Micrococcus lysodeikticus. Purification of the p60 protein led to aggregation of p60 and loss of the cell chain disruption and bacteriolytic activities. A cysteine residue in the C-terminal part of p60 which is conserved in all p60-like proteins from the other Listeria species seems to be essential for both activities. The iap gene could not be inactivated without a loss of cell viability, indicating that p60 is an essential housekeeping protein for L. monocytogenes and probably also for other Listeria species. These data suggest that p60 possesses a murein hydrolase activity required for a late step in cell division.     

Interaction between two murein (peptidoglycan) synthases, PBP3 and PBP1B, in Escherichia coli

The murein (peptidoglycan) sacculus is an essential polymer embedded in the bacterial envelope. The Escherichia coli class B penicillin-binding protein (PBP) 3 is a murein transpeptidase and essential for cell division. In an affinity chromatography experiment, the bifunctional transglycosylase-transpeptidase murein synthase PBP1B was retained by PBP3-sepharose when a membrane fraction of E. coli was applied. The direct protein-protein interaction between purified PBP3 and PBP1B was characterized in vitro by surface plasmon resonance. The interaction was confirmed in vivo employing two different methods: by a bacterial two-hybrid system, and by cross-linking/co-immunoprecipitation. In the bacterial two-hybrid system, a truncated PBP3 comprising the N-terminal 56 amino acids interacted with PBP1B. Both synthases could be cross-linked in vivo in wild-type cells and in cells lacking FtsW or FtsN. PBP1B localized diffusely and in foci at the septation site and also at the side wall. Statistical analysis of the immunofluorescence signals revealed that the localization of PBP1B at the septation site depended on the physical presence of PBP3, but not on the activity of PBP3. These studies have demonstrated, for the first time, a direct interaction between a class B PBP (PBP3) and a class A PBP (PBP1B) in vitro and in vivo, indicating that different murein synthases might act in concert to enlarge the murein sacculus during cell division.     

Antibiotic susceptibility of Listeria monocytogenes strains isolated in the Primor'e region]

Antibiotic susceptibility of the Listeria monocytogenes isolates from biotic and abiotic objects of the environment in the Primor'e region was estimated. 100% of the isolates proved to be susceptible to benzylpenicillin, ampicillin, carbenicillin, gentamicin, doxycycline, tetracycline, vancomycin, cefazolin and rifampicin. 96, 92 and 84% of the isolates were susceptible to roxithromycin, clarithromycin and ofloxacin respectively. No significant differences were detected in the susceptibility of the strains isolated from different objects of the environment. 100% of the Listeria monocytogenes isolates was resistant to lomofloxacin and ceftazidime.     

Functioning of the cloned phage MS2 lysis protein in Escherichia coli impaired in murein synthesis

Abstract The mode of action of the phage MS2 lysis protein seems not to involve a direct interaction with the murein synthesis machinery as is the case for lysis induced by β-lactam antibiotics. Mutants with defects in various penicillin-binding proteins, which are involved in murein synthesis, were found to show normal lysis sensitivity towards the cloned MS2 lysis protein. In addition, both processes, longitudinal growth of the murein sacculus in the presence of furazlocillin, cephalexin and nalidixic acid as well as spherical growth in the presence of mecillinam were sensitive to the phage lysis protein. No change in the capacity of the binding proteins to bind ¹⁴C-labelled penicillin G was observed in the presence of the MS2 lysis gene product.