Induction of autolysis in Enterococcus faecalis S-47 by peptide AS-48.

In addition to its bactericidal mode of action, the peptide antibiotic AS-48 exhibits a bacteriolytic effect on Enterococcus faecalis S-47 that is associated with autolysin activation. Bacteriolysis induced by the antibiotic can be modulated by addition of EDTA, divalent cations and autolysin activators (trypsin) or inhibitors (cardiolipin), suggesting that topologic regulation of the autolysins is involved in the process. In addition, inhibitors of protein and RNA synthesis interfere markedly with bacteriolysis, as do ionophores and the ATPase inhibitor DCCD, suggesting the participation of an internal messenger in autolysin activation in the presence of AS-48.     

Induction of autolysis in Enterococcus faecalis S-47 by peptide AS-48

In addition to its bactericidal mode of action, the peptide antibiotic AS-48 exhibits a bacteriolytic effect on Enterococcus faecalis S-47 that is associated with autolysin activation. Bacteriolysis induced by the antibiotic can be modulated by addition of EDTA, divalent cations and autolysin activators (trypsin) or inhibitors (cardiolipin), suggesting that topologic regulation of the autolysins is involved in the process. In addition, inhibitors of protein and RNA synthesis interfere markedly with bacteriolysis, as do ionophores and the ATPase inhibitor DCCD, suggesting the participation of an internal messenger in autolysin activation in the presence of AS-48.     

A simple method for semi-preparative-scale production and recovery of enterocin AS-48 derived from Enterococcus faecalis subsp. liquefaciens A-48-32

Production of enterocin AS-48 by Enterococcus faecalis A-48-32 was compared between standard and high-cell density batch fermentations. In high-cell density cultures, bacteriocin production was 2.47-fold higher, provided that the pH was controlled during the fermentation. A two-step procedure for recovery of milligram quantities of purified bacteriocin was developed, based on adsorption of the bacteriocin on Carboxymethyl Sephadex CM-25 followed by reversed-phase chromatography on a semi-preparative column. The purified bacteriocin was active on all the Gram-positive bacteria tested (for example, species of Bacillus, Paenibacillus, Staphylococcus, and Listeria). Strains E. coli U-9, E. coli CECT 102, E. coli CECT 104, E. coli CECT 432, E. coli CECT 543, E. coli CECT 877 and Shigella sonnei CECT 542 were sensitive, while seven other E. coli strains as well as Salmonella choleraesuis CECT 722, S. choleraesuis CECT 916, Enterobacter cloacae CECT 194 and Aeromonas hydrophila CECT 398 were resistant.     

Transfer of a plasmid determining bacteriocin Bc-48 production and immunity, and response to sexual pheromones in Enterococcus faecalis S-48.

Production of bacteriocin Bc-48 by Enterococcus faecalis S-48 is encoded by the conjugative plasmid pMB1, which is approximately 90 kb and also responds to sex pheromones of E. faecalis OG1X. Mutants harboring deleted forms of this plasmid (pMB1-del, 75 kb) have lost both the phenotype Bc-48 (production and immunity) and the clumping response. The conjugal transfer of pMB1 to E. faecalis OG1X results in the acquisition by this strain of both bacteriocin production and immunity and also the clumping response. In the transconjugants isolated, the bacteriocinogenic trait is associated with a smaller plasmid (52 kb), which we call pMB1-1. The relationship among plasmids pMB1, pMB1-del, and pMB1-1 has been demonstrated by DNA hybridization. Plasmid pMB1-1 has been transferred with high frequency to E. faecalis mutants cured of Bc-48 production (carrying pMB1-del), conferring to them the Bc-48 trait and clumping response. In the transconjugants from a second mating, pMB1-1 and pMB1-del coexist without appreciable segregation.     

Sex pheromones and plasmid transfer in Enterococcus faecalis

Plasmid-free Enterococcus faecalis excrete peptides (sex pheromones) which specifically induce a mating response in strains harboring certain conjugative plasmids. The response is characterized by the synthesis of a "fuzzy" surface material, visible by electron microscopy, which is believed to facilitate the aggregation of donors and recipients. Transconjugants which receive a specific plasmid shut down the production of endogenous pheromone; however, they continue to produce pheromones specific for donors harboring different classes of plasmids. In this review, we summarize what is known about the biochemistry and genetics of this phenomenon. Some emphasis is given to the hemolysin plasmid pAD1 and the regulation of its conjugal transfer.     

Conjugative plasmid transfer from Enterococcus faecalis to Escherichia coli.

The possibility of transfer of genetic information by conjugation from gram-positive to gram-negative bacteria was investigated with a pBR322-pAM beta 1 chimeric plasmid, designated pAT191. This shuttle vector, which possesses the tra functions of the streptococcal plasmid pAM beta 1, was conjugatively transferred from Enterococcus faecalis to Escherichia coli with an average frequency of 5 x 10(-9) per donor colony formed after mating.     

Sensitivity to detergents and plasmid curing in Enterococcus faecalis

This research reports the sensitivity of a clinical isolate of Enterococcus faecalis to sodium N-lauroylsarcosinate (sarkosyl) and sodium dodecyl sulfate (SDS), as well as the efficiency of these detergents in curing the strain. Compared to Escherichia coli, Enterococcus faecalis was very sensitive to both detergents, with minimum inhibitory concentrations (MIC) for the latter being 100 times lower than for Escherichia coli. The clinical isolate of Enterococcus faecalis used in this study exhibited plasmid-borne resistance to kanamycin (MIC 2 mg/ml) and tetracycline (MIC 50 μg/ml); 3% curing was observed after growth in the presence of sarkosyl but no curing was observed after growth in the presence of either SDS or acridine orange. In contrast, 35% curing of plasmid-bearing Escherichia coli was observed after growth in the presence of either SDS or acridine orange, but none was observed after growth in the presence of sarkosyl.     

A "retrocidal" plasmid in Enterococcus faecalis: passage and protection

Enterococcus faecalis MC4 harbors a 130 kb conjugative, pheromone (cCF10)-responding plasmid, pAMS1, conferring chloramphenicol, streptomycin and tetracycline resistances. A plasmid-borne class IIa bacteriocin (MC4-1) determinant and cognate immunity gene were present, but not expressed in MC4. However, pAMS1 transfer to E. faecalis JH2-2 (but not to the non-isogenic OG1SS) generated the surprising ability to express bacteriocin activity against the plasmid donor, MC4. The bacteriocin target spectrum includes E. faecalis, Enterococcus faecium, Enterococcus gallinarum, Enterococcus hirae, and Listeria monocytogenes. Those donors unable to express bacteriocin or immunity could protect themselves from the "retrocidal" behavior of transconjugants by a switch to bacteriocin resistance at a frequency of approximately 10(-3). Reversion to sensitivity occurred at a relatively high frequency, suggestive of involvement of a phase variation event. These observations concerning a conjugative plasmid with novel "retrocidal" properties, coupled with a defense mechanism independent of plasmid-borne immunity functions, may relate to phenomena exploiting regulatory features with broader ecological and evolutionary implications.     

Species of Enterococcus faecalis associated with free-living rodents

Enterococci from different free-living rodents were isolated and selected. The strains were genotyped and their antibiotic sensitivity and /or resistance, production of lactic acid, urease activity, the presence of enterocin structural genes, plasmid detection, and their binding ability to proteins were determined. Among 24 enterococcal strains, 17 strains were allotted to the species Enterococcus faecalis by tDNA-PCR, 7 strains being not yet identified. Only Enterococcus sp. ES66 possessed the structural genes for the production of enterocins (Ent) A and P. E. faecalis EE61 had the gene for EntL50B. The other isolates were Ent-gene-free. Enterococci were mostly sensitive to antibiotic treatment . The plasmid DNA was detected only in the strain EE97. The average value of lactic acid production reached 896 +/- 90 micromol/L. Most of the strains possessed low ureolytic activity. Enterococci bound very well sub-epithelial proteins, reaching the value of 3 by the particle agglutination assay, especially concerning the heparin, bovine lactoferrin and porcine fibronectin.     

Characterization of transferable tetracycline resistance genes in Enterococcus faecalis isolated from raw food

The prevalence of tetracycline resistance, and of specific genetic determinants for this resistance was investigated in 1003 strains of Enterococcus faecalis isolated from various raw food products originating from five categories including chicken meat, other poultry meat, beef, pork, and 'other'. For the 238 resistant isolates identified, the ability to transfer the resistant phenotype to a given recipient in vitro was investigated. New and interesting observations were that the tet(L) resistance determinant was more readily transferred than tet(M), and that the presence of Tn916-like elements known to encode tet(M) did not correlate with increased transferability of the resistant phenotype.     

Hyperhemolytic phenomena associated with insertions of Tn916 into the hemolysin determinant of Enterococcus faecalis plasmid pAD1.

Members of the Tn916 family of conjugative transposons are able to insert themselves into Enterococcus faecalis hemolysin/bacteriocin plasmid pAD1 (and related elements) in such a way as to generate hyperexpression of the hemolysin/bacteriocin. To examine this phenomenon in more detail, E. faecalis (pAD1::Tn916) derivatives defective or altered in hemolysin expression were isolated and characterized with respect to production of the L (lytic) or A (activator) component (also known as CylA) and the specific location of the transposon. The mutants fell into five classes. Class 1 strains were nonhemolytic, and the related insertions mapped in a location known to affect expression of the L component. The other four classes varied from an inability to express hemolysin (class 2) to different degrees of hyperhemolytic expression (classes 3 to 5); the insertions in these classes mapped in a similar place within cylA, near the 3' end of the determinant. A previous study provided evidence that CylA is also necessary for bacteriocin immunity; however, these insertions did not destroy this function. (A Tn917 insertion in the 5' half of the determinant eliminates immunity.) In mutant classes 3 to 5, the presence of tetracycline enhanced hemolysin expression. In late-exponential-phase broth cultures, hemolysin could not be detected in supernatants of classes 2 to 5, in contrast to a wild-type control strain; however, different amounts of the L component could be detected, with the lowest in class 2 and greater-than-normal amounts in classes 3 to 5. Although nucleotide sequencing showed that the Tn916 insertions in classes 2 to 5 were at identical sites, the transposon junction sequences differed in some cases. The data indicated that cylA translation into the transposon would result in different truncation sites, and these differences were probably related to phenotype differences.     

Enterocin AS-48RJ: a variant of enterocin AS-48 chromosomally encoded by Enterococcus faecium RJ16 isolated from food

The bacteriocinogenic strain RJ16 isolated from goat cheese has been identified as Enterococcusfaecium by species-specific PCR, DNA-rRNA hybridization and rDNA sequencing. Purified bacteriocin from strain RJ16 is a carboxypeptidase A-resistant peptide with a molecular mass (7125 Da) very close to the cyclic peptide enterocin AS-48. Bacteriocin from strain RJ16 and AS-48 show identical antibacterial spectra, although the former is slightly less active on strains of Listeria monocytogenes and Bacillus cereus. Producer strains show cross-immunity. PCR amplification of total DNA from strain RJ16 with primers for the AS-48 structural gene and sequencing of the amplified fragment revealed an almost identical sequence (99.5%), except for a single mutation that predicts the change of Glu residue at position 20 of AS-48 to Val. Therefore, bacteriocin produced by E. faecium RJ16 should be considered a variant of AS-48, which we call AS-48RJ. PCR amplification revealed that strain RJ16 contains the complete as-48. gene cluster. Hybridization with probes for as-48 gene cluster revealed a chromosomal location of as-48 genes in strain RJ16, being the first example of a chromosomal location of this bacteriocin trait. Strain RJ16 produced enzymes of interest in food processing (esterase, esterase lipase and phytase activities), and did not decarboxylate amino acids precursors for biogenic amines. Strain RJ16 did not exhibit haemolytic or gelatinase activities, and PCR amplification revealed the lack of genes encoding for known virulence determinants (aggregation substance, collagen adhesin, enterococcal surface protein, endocarditis antigens, as well as haemolysin and gelatinase production). Strain RJ16 was resistant to ciprofloxacin (MIC > 2 mgl(-1)) and levofloxacin (MIC > 4 mgl(-1)) and showed intermediate resistance to nitrofurantoin and erythromycin, but was sensitive to ampicillin, penicillin, streptomycin, gentamicin, rifampicin, chloramphenicol, tetracycline, quinupristin/dalfopristin, vancomycin and teicoplanin. Altogether, results from this study suggest that this broad-spectrum bacteriocin-producing strain may have a potential use in food preservation.     

Sex pheromone plasmid pAD1-encoded surface exclusion protein of Enterococcus faecalis.

Summary During conjugative transfer of sex pheromone plasmids ofEnterococcus faecalis a so-called surface exclusion protein reduces the frequency with which these plasmids are transferred to cells already possessing the same plasmid. We report here the DNA sequence of a 3 .8 kb fragment of the sex pheromone plasmid pAD1 containing the structural genesea1 for surface exclusion protein and a small open reading frame (ORF) upstream ofsea1. Surface exclusion protein Seal was found to be highly homologous to the surface exclusion protein Sec10 encoded by the sex pheromone plasmid pCF10. Hybridization studies with DNA probes derived from the structural gene seal demonstrated that, with the exception of pAM373, all known sex pheromone plasmids carry a homologous gene. These studies also indicated that the genetic organization is similar in these plasmids, with the structural gene for surface exclusion protein being located 5 to that for aggregation substance.     

Purification of bacteriocin AS-48 from an Enterococcus faecium strain and analysis of the gene cluster involved in its production

The cyclic bacteriocin AS-48 has previously been shown to be produced by Enterococcus faecalis strains. A bacteriocin has been purified from an E. faecium strain (E. faecium 7C5), and it has been found to possess molecular mass, cyclization and amino acid sequence typical of bacteriocin AS-48. In addition to the structural gene as-48A, the sequence analysis of the AS-48 gene cluster present in E. faecium 7C5 has revealed the presence of several putative coding regions presumably involved in bacteriocin production and immunity. The results of DNA hybridization assays have indicated that the AS-48 gene cluster and the gene pd78 are present on the same plasmid, possibly the pPD1 plasmid, in E. faecium 7C5.     

Unidirectional theta replication of the structurally stable Enterococcus faecalis plasmid pAM beta 1.

Numerous bacterial replicons remain poorly characterized due to difficulties in localization of the replication origin. We have circumvented this problem in the characterization and fine mapping of the origin of plasmid pAM beta 1 by exploiting the Bacillus subtilis termination signal, terC. In terC-containing derivatives, theta-form molecules with two invariant endpoints accumulate. The endpoints, which correspond to plasmid origin and terC, were mapped with single-nucleotide precision. Analysis of the replication intermediates of wild-type molecules by two-dimensional gel electrophoresis confirmed the location of the plasmid origin. Our results demonstrate that pAM beta 1 replication proceeds unidirectionally by a theta mechanism. This work confirms the use of termination signals to localize origins, suggests that termination in B. subtilis occurs by a mechanism similar to that of Escherichia coli and establishes that in addition to rolling circle replicating plasmids, Gram positive bacteria harbour plasmids which replicate by a theta mechanism.     

Characterization and partial purification of a broad spectrum antibiotic AS-48 produced by Streptococcus faecalis

Streptococcus faecalis S-48 produces a broad spectrum antibiotic, active against Gram-positive and Gram-negative bacteria. This substance is produced in solid and liquid media and also in a defined basal medium. It is sensitive to protease, pronase, or trypsin, heating at 70 degrees C, and alkaline pH, but resistant to treatment with lipase, lysozyme, alkaline phosphatase, DNAase, RNAase, acidic or neutral pHs, and also lower temperatures (60 degrees C). Several organic solvents cause precipitation, but not inactivation. This antibiotic has been partially purified by gel filtration and further ion-exchange chromatography. Its molecular weight has been estimated close to 2000. The biological activity of this antagonistic substance against the selected indicator strains, Streptococcus faecalis S-47 and Escherichia coli U-9, is bactericidal. The characterization of this substance, initially classified as a bacteriocin, indicates that it is an antibiotic of peptidic nature. The significance of antibiotic occurrence in group D of the genus Streptococcus is also discussed.