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.     

High efficiency introduction of plasmid DNA into glycine treated Enterococcus faecalis by electroporation

Summary A highly efficient electroporation system for Enterococcus faecalis was developed by systematically optimizing different parameters. One parameter found to be particularly critical for electroporation was cultivation of E. faecalis in medium containing a high glycine concentration, prior to electroporation. Osmotic stabilization of cells with 0.5 M sucrose was also found to be critical during glycine treatment. 10⁶ transformants per microgram of plasmid DNA were consistently obtained within 48 h. Electrocompetent preparations of E. faecalis could be stored at –70° C without loss of competence.     

Control of Enterococcus faecalis sex pheromone cAD1 elaboration: Effects of culture aeration and pAD1 plasmid-encoded determinants

Aeration of plasmid-free Enterococcus faecalis strains resulted in an 8- to 16-fold decrease in sex pheromone cAD1 activity in culture filtrates. Levels of two unrelated pheromones, cPD1 and cAM373, were unaffected by culture aeration. Aeration also resulted in a decrease in the expression of conjugative transfer functions observed in cells containing pAD1 traB mutations, verifying a link between traB function and pheromone “shutdown.” Tests with a series of pAD1 mini-plasmids indicated that the product of the traB gene was involved in, but not sufficient for, pheromone shutdown; the cooperation of one or more other gene products encoded within the pheromone response control region was required.     

Sequence analysis of Enterococcus faecalis aggregation substance encoded by the sex pheromone plasmid pAD1

The location of the structural gene for aggregation substance on the sex pheromone plasmid pAD1 of Enterococcus faecalis was determined using an oligonucleotide deduced from the N-terminal amino acid sequence of the purified protein. The nucleotide sequence was determined for the corresponding region and two open reading frames (ORFs) could be identified. ORF1 codes for a small (Mr 13,160) acidic protein of unknown function. The gene for aggregation substance (named asa1) was found to code for a protein of 1296 amino acids (Mr 142,248). The protein has a signal peptide of 43 amino acids (the resulting Mr for mature aggregation substance is 137,429) and contains in its C-terminal region a proline-rich sequence, previously characterized as being involved in cell wall association, which is followed by a membrane anchor. The membrane anchor showed significant similarity to that of other Gram-positive organisms, but no other similarities to surface proteins from Gram-positive bacteria were found. In particular, no repeats on the DNA or protein level could be detected for pAD1-specific aggregation substance. The protein contains the amino acid motifs Arg-Gly-Asp-Ser and Arg-Gly-Asp-Val (once each), which, it is proposed, play a crucial role in adherence to eukaryotic cells.     

Identification of regions of the Streptococcus faecalis plasmid pCF-10 that encode antibiotic resistance and pheromone response functions

The conjugative plasmid pCF-10 (58 kb) of Streptococcus faecalis has been mapped with restriction enzymes. By restriction mapping and Southern hybridization analysis, a 16-kb segment of the plasmid was shown to resemble closely the conjugative tetracycline resistance transposon, Tn916. Mutagenesis of the plasmid with the erythromycin resistance transposon Tn917 was used to localize a tetracycline resistance determinant and several regions involved in conjugal transfer. Fifty Tn917 insertions (outside the region of the plasmid homologous to Tn916) affecting mating behavior and the ability of donor cells to respond to the sex pheromone cCF-10 were mapped to nine distinct segments, or tra regions. Insertions into tra regions 1-3 and 7-9 led to an enhanced transfer ability of mutant plasmids relative to the transfer frequency obtained for the wild-type plasmid. Cells carrying these mutant plasmids differed in colony morphology or growth in broth culture from cells carrying pCF-10. Insertions into tra regions 4-6 resulted in reduced plasmid transfer, or completely eliminated the mating potential of donor cells. Insertions generating transfer-defective plasmids could be grouped further according to the ability of strains harboring the mutant plasmids to respond to cCF-10. HindIII fragments of pCF-10 coding for transfer functions have been cloned into Escherichia coli.     

Isolation of a Derivative ofEscherichia coli–Enterococcus faecalisShuttle Vector pAM401 Temperature Sensitive for Maintenance inE. faecalisand Its Use in Evaluating the Mechanism of pAD1par-Dependent Plasmid Stabilization

A derivative of theEscherichia coli–Enterococcus faecalisshuttle vector pAM401 was isolated by mutagenesis in anE. colimutator strain. This plasmid, designated pAM401ts, was more than an order of magnitude less stable at 38°C than at 30°C in theE. faecalishost strain JH2-2. TheE. faecalisplasmid pAD1-encodedparstability locus was cloned onto pAM401ts, and its effects on plasmid stability and host cell viability were assessed. It was found thatparstabilized pAM401ts at 38°C but also caused a substantial drop in cell viability three to four generations after a temperature shift from 30 to 38°C. After a maximum viability drop of 94%, culture growth recovered as plasmid-free cells began to accumulate. Provision of excess RNAII, the putativeparantidote,in transattenuated cell killing. These characteristics support a postsegregational killing mechanism forpar-mediated plasmid stabilization.     

The conjugative transposon Tn925: enhancement of conjugal transfer by tetracycline in Enterococcus faecalis and mobilization of chromosomal genes in Bacillus subtilis and E. faecalis

Summary The effects of tetracycline on transfer of the conjugative, tetracycline-resistance transposon, Tn925, as well as the ability of the transposon to promote the transfer of chromosomal genes was examined in Enterococcus faecalis and Bacillus subtilis. To test for chromosomal transfer, multiply-marked strains of each organism, each carrying a single chromosomal copy of Tn925, were mated on filters with suitable recipient strains, under conditions where transformation and transduction were precluded. In both cases, transfer of a variety of chromosomal genes, at frequencies comparable to the frequency of Tn925 transfer, was detected readily. The presence of Tn925 in one of the members of the mating pair was absolutely required for chromosomal transfer, but transfer of Tn925 did not accompany every chromosomal transfer event. The results were consistent with a mating event resembling a type of cell fusion, allowing for extensive recombination between the genomes of the mating partners. Growth of Tn925-containing donor cells in the presence of tetracycline increased the transfer frequency of Tn925 by about tenfold in E. faecalis, but not in B. subtilis.Deceased, 7/89. O. Torres and R. Korman contributed equally to this work     

Sequence of the 50-kb Conjugative Multiresistance Plasmid pRE25 from Enterococcus faecalis RE25

The complete 50,237-bp DNA sequence of the conjugative and mobilizing multiresistance plasmid pRE25 from Enterococcus faecalis RE25 was determined. The plasmid had 58 putative open reading frames, 5 of which encode resistance to 12 antimicrobials. Chloramphenicol acetyltransferase and the 23S RNA methylase are identical to gene products of the broad-host-range plasmid pIP501 from Streptococcus agalactiae. In addition, a 30.5-kb segment is almost identical to pIP501. Genes encoding an aminoglycoside 6-adenylyltransferase, a streptothricin acetyltransferase, and an aminoglycoside phosphotransferase are arranged in tandem on a 7.4-kb fragment as previously reported in Tn5405 from Staphylococcus aureus and in pJH1 from E. faecalis. One interrupted and five complete IS elements as well as three replication genes were also identified. pRE25 was transferred by conjugation to E. faecalis, Listeria innocua, and Lactococcus lactis by means of a transfer region that appears similar to that of pIP501. It is concluded that pRE25 may contribute to the further spread of antibiotic-resistant microorganisms via food into the human community.     

基于全基因组关联分析研究粪肠球菌发酵食品分离株的耐药性

【目的】研究15株分离自自然发酵食品的粪肠球菌(Enterococcus faecalis)和1株粪肠球菌模式株对15种(1种β-内酰胺类和14种非β-内酰胺类)抗生素的耐药性,并通过菌株耐药表型与基因型的关联分析找到粪肠球菌潜在的耐药基因。【方法】利用微量肉汤稀释法检测试验菌株对15种抗生素的耐药性,运用Scoary软件进行表型与基因型的关联分析。【结果】16株粪肠球菌对卡那霉素、万古霉素、利奈唑胺和红霉素100%敏感;对其余11种抗生素均表现出不同程度的耐药,其中对克林霉素为100%耐药。基因组关联分析发现了9个功能基因与5种抗生素(氯霉素、环丙沙星、甲氧苄啶、新霉素和四环素)存在显著相关关系,其中基因FAM000296和FAM005768与氯霉素、甲氧苄啶和环丙沙星的耐药性有关。进一步分析发现基因FAM000296和FAM005768同被注释为Sec G,但基因FAM005768与基因FAM000296相比在3′端丢失了21个碱基。【结论】分离自自然发酵食品的粪肠球菌对多种抗生素具有耐药性,其基因组中携带有潜在的耐药基因。因此,对分离自自然发酵食品的粪肠球菌需要进行全面的安全性评估后方可考虑应用。     

Characterization of a region of the Enterococcus faecalis plasmid pAMβ1 which enhances the segregational stability of pAMβ1-derived cloning vectors in Bacillus subtilis

The nucleotide sequence of a 2.13-kb EcoRI-HindIII, pAMβ1-derived fragment, isolated from the gram-positive cloning vector pHV1431, has been determined and shown to encode two ORFs. ORF H encodes for a protein of 23,930 Da which exhibits substantial homology to bacterial site-specific recombinases, particularly the resolvases of the gram-positive transposons Tn917 (30.3% identity) and Tn552 (31.6% identity) and the clostridial plasmid pIP404 (27.1% identity). The second ORF (I) is incomplete and encodes a polypeptide which has significant homology with Escherichia coli topoisomerase I (26.0% identity). Insertion of either the entire 2.13-kb EcoRI-HindIII fragment or a 0.73-kb EcoRI-DraI subfragment encoding only the resolvase into the pAMβ1-based cloning vector pMTL500E causes a significant enhancement of segregational stability (from 6.5 × 10⁻² to 3.0–4.0 × 10⁻³ plasmid loss per cell per generation). Improved segregational stability is mirrored by a reduction in plasmid polymerization. The introduction of a stop codon into the resolvase coding region negates its ability to promote segregational stability. It is proposed that the identified determinant stabilizes pAMβ1-based vectors in Bacillus subtilis by maintaining the plasmid population in the monomeric state, thereby reducing the chances of producing plasmid-free segregants.     

Transfer functions of the Streptococcus faecalis plasmid pAD1: organization of plasmid DNA encoding response to sex pheromone.

The conjugative plasmid pAD1 (59.6 kilobases) of Streptococcus faecalis shows a 10,000-fold increase in transfer frequency following induction by the sex pheromone cAD1. Mutagenesis of the plasmid with transposon Tn917 was undertaken to determine the region(s) of pAD1 required for the mating response. The relevant genetic material was found to be distributed over a 31.2-kilobase contiguous region of the plasmid. Although insertions in two previously identified regions (traA and traB) exhibited increased transfer frequencies, insertions in five new regions (D, E, F, G, and H) decreased the ability of pAD1 to transfer. Insertions in region H allowed the cells to form visible mating aggregates, but the plasmid transfer frequency was decreased to levels below detection during a 1-h broth mating. Mutants with mutations in region G were able to form aggregates; however, insertions in regions D, E, and F prevented aggregate formation. Insertions in region C decreased the sensitivity of the cell to exogenous cAD1 and exhibited increased activity of the pheromone inhibitor iAD1. Surface protein profiles produced by a number of these mutants were examined, and in some cases were found to be different from those of the wild type. A map showing the various regions is presented, and related aspects of the regulation of the pAD1 mating response are discussed.     

tra cistrons and proteins encoded by the Escherichia coli antibiotic resistance plasmid R6-5

Summary Hybrid plasmids obtained by cloning individual EcoRI and HindIII fragments of the conjugative plasmid, R6-5, were analyzed for their ability to complement transfer-deficient point mutations of Flac. As a result, the locations of 10 tra cistrons were defined on the physical map of R6-5. Two cistrons, traE and traG, are interrupted by EcoRI restriction sites and one cistron, traC, probably contains a HindIII restriction site. The origin of DNA transfer, oriT, was also localized. Surprisingly the hybrid plasmid carrying oriT is mobilized by the F factor as well as by R6-5. The surface exclusion cistrons, traS and traT, were mapped and their biological expression analyzed. A total of 18 proteins encoded by cistrons within the tra region were detected by SDS polyacrylamide gel electrophoresis of proteins synthesized in minicells; they represent about 53% of the coding capacity of the cloned DNA. R6-5 DNA fragments containing the cistrons traC, traE, and traT directed the synthesis of proteins which comigrated during SDS gel electrophoresis with the F-coded proteins previously characterized as TraCp, TraEp, and TraTp. A further two proteins encoded by R6-5 comigrated with F-encoded (but genetically unidentified) proteins whose cistrons map in the corresponding part of the tra region. In contrast, no R6-5 proteins corresponding to F proteins TraAp, TraDp, TraJp, TraMp, 6a or 6c were detected. These results are discussed in relation to known DNA sequence homologies between the F and R6-5 plasmids. A preliminary physical map of the tra region of R6-5 is presented and compared with that of F.     

Streptococcus faecalis sex pheromone (cAD1) response: evidence that the peptide inhibitor excreted by pAD1-containing cells may be plasmid determined

Streptococcus faecalis strains harboring the conjugative plasmid pAD1 excrete a small peptide, iAD1, which inhibits the sex pheromone cAD1. Studies making use of the host strain Streptococcus faecium 9790, which normally does not excrete peptide pheromones, suggest that iAD1 may be determined directly by pAD1.     

Antisense RNA regulation by stable complex formation in the Enterococcus faecalis plasmid pAD1 par addiction system

The par stability determinant, encoded by the Enterococcus faecalis plasmid pAD1, is the only antisense RNA regulated postsegregational killing system identified in gram-positive bacteria. Because of the unique organization of the par locus, the par antisense RNA, RNA II, binds to its target, RNA I, at relatively small, interspersed regions of complementarity. The results of this study suggest that, rather than targeting the antisense bound message for rapid degradation, as occurs in most other antisense RNA regulated systems, RNA I and RNA II form a relatively stable, presumably translationally inactive complex. The stability of the RNA I-RNA II complex would allow RNA I to persist in an untranslated state unless or until the encoding plasmid was lost. After plasmid loss, RNA II would be removed from the complex, allowing translational activation of RNA I. The mechanism of RNA I activation in vivo is unknown, but in vitro dissociation experiments suggest that active removal of RNA II, for example by a cellular RNase, may be required.