Estimation of the bacteriocin ColE7 conjugation-based "kill" - "anti-kill" antimicrobial system by real-time PCR, fluorescence staining and bioluminescence assays.

The efficiency of the bacteriocin, colicin ColE7, bacterial conjugation-based "kill" - "anti-kill" antimicrobial system, was assessed using real-time PCR, flow cytometry and bioluminescence. The ColE7 antimicrobial system consists of the genetically modified Escherichia coli strain Nissle 1917 harbouring a conjugative plasmid (derivative of the F-plasmid) encoding the "kill" gene (ColE7 activity gene) and a chromosomally encoded "anti-kill" gene (ColE7 immunity gene). On the basis of traJ gene expression in the killer donor cells, our results showed that the efficiency of the here studied antimicrobial system against target E. coli was higher at 4 than at 24 h. Flow cytometry was used to indirectly estimate DNase activity of the antimicrobial system, as lysis of target E. coli cells in the conjugative mixture with the killer donor strain led to reduction in cell cytosol fluorescence. According to a lux assay, E. coli TG1 (pXen lux+ Apr ) with constitutive luminescence were killed already after 2 h of treatment. Target sensor E. coli C600 with DNA damage SOS-inducible luminescence showed significantly lower SOS induction 6 and 24 h following treatment with the killer donor strain. Our results thus showed that bioluminescent techniques are quick and suitable for estimation of the ColE7 bacterial conjugation-based antimicrobial system antibacterial activity. SIGNIFICANCE AND IMPACT OF THE STUDY: Bacterial antimicrobial resistance is worldwide rising and causing deaths of thousands of patients infected with multi-drug resistant bacterial strains. In addition, there is a lack of efficient alternative antimicrobial agents. The significance of our research is the use of a number of methods (real-time PCR, flow cytometry and bioluminescence-based technique) to assess the antibacterial activity of the bacteriocin, colicin ColE7, bacterial conjugation-based "kill" - "anti-kill" antimicrobial system. Bioluminescent techniques proved to be rapid and suitable for estimation of antibacterial activity of ColE7 bacterial conjugation-based antimicrobial system and possibly other related systems.

The bacterial LexA transcriptional repressor.

Bacteria respond to DNA damage by mounting a coordinated cellular response, governed by the RecA and LexA proteins. In Escherichia coli, RecA stimulates cleavage of the LexA repressor, inducing more than 40 genes that comprise the SOS global regulatory network. The SOS response is widespread among bacteria and exhibits considerable variation in its composition and regulation. In some well-characterised pathogens, induction of the SOS response modulates the evolution and dissemination of drug resistance, as well as synthesis, secretion and dissemination of the virulence. In this review, we discuss the structure of LexA protein, particularly with respect to distinct conformations that enable repression of SOS genes via specific DNA binding or repressor cleavage during the response to DNA damage. These may provide new starting points in the battle against the emergence of bacterial pathogens and the spread of drug resistance among them.

H-NS and Lrp serve as positive modulators of traJ expression from the Escherichia coli plasmid pRK100.

Conjugative transfer of F-like plasmids is a tightly regulated process. The TraJ protein is the main positive activator of the tra operon which encodes products required for conjugative transfer of F-like plasmids. Nucleotide sequence analysis revealed potential Lrp and H-NS binding sites in the traJ regulatory region. Expression of a traJ-lacZ fusion in hns and lrp mutant strains showed that both are positive modulators of traJ expression. Competitive RT-PCR demonstrated that H-NS and Lrp exert their effect at the transcriptional level. Electrophoretic mobility-shift assays showed that H-NS and Lrp proteins bind to the traJ promoter. Conjugative transfer of pRK100 was decreased in hns but not in lrp mutant strains. Together, the results indicate H-NS and Lrp function as activators of traJ transcription.

Codon-usage based regulation of colicin K synthesis by the stress alarmone ppGpp.

The molecular mechanism of the upregulation of Escherichia coli colicin K (Cka) synthesis during stress conditions was studied. Nutrient starvation experiments and the use of relA spoT mutant strains, IPTG-regulated overproduction of ppGpp and lacZ fusions revealed that the stringent response alarmone guanosine 3',5'-bispyrophosphate (ppGpp) is the main positive effector of Cka synthesis. Comparison of the amounts of protein produced (Western blotting) and specific mRNA (Northern blotting) before and after nutrient starvation demonstrated increases in Cka protein with unaltered specific mRNA levels, suggesting a post-transcriptional regulatory mechanism. Reporter (beta-galactosidase) assays using truncated cka of variable length fused to lacZ located the key regulatory region close to the 5' end of the cka mRNA. Closer analysis of this region indicated the presence of several rare codons, including the leucine-encoding codon CUA. Synonymous exchange of the rare codons with more frequently used ones abolished the regulatory effect of ppGpp. Supplementation of the strain with the plasmid CodonPlus carrying several rare tRNA genes yielded similar results, indicating that codon usage (in particular, the fifth codon for the amino acid leucine) and tRNA availability (i.e. tRNAleu) are the key elements of the regulatory function of ppGpp. We conclude that ppGpp regulates Cka synthesis via a novel post-transcriptional mechanism that is based on rare codon usage and variable cognate tRNA availability.

Transcription regulation of the colicin K cka gene reveals induction of colicin synthesis by differential responses to environmental signals.

Colicin-producing strains occur frequently in natural populations of Escherichia coli, and colicinogenicity seems to provide a competitive advantage in the natural habitat. A cka-lacZ fusion was used to study the regulation of expression of the colicin K structural gene. Expression is growth phase dependent, with high activity in the late stationary phase. Nutrient depletion induces the expression of cka due to an increase in ppGpp. Temperature is a strong signal for cka expression, since only basal-level activity was detected at 22 degrees C. Mitomycin C induction demonstrates that cka expression is regulated to a lesser extent by the SOS response independently of ppGpp. Increased osmolarity induces a partial increase, while the global regulator integration host factor inhibits expression in the late stationary phase. Induction of cka was demonstrated to be independent of the cyclic AMP-Crp complex, carbon source, RpoS, Lrp, H-NS, pH, and short-chain fatty acids. In contrast to colicin E1, cka expression is independent of catabolite repression and is partially affected by anaerobiosis only upon SOS induction. These results indicate that while different colicins are expressed in response to some common signals such as nutrient depletion, the expression of individual colicins could be further influenced by specific environmental cues.

Virulence determinants of uropathogenic Escherichia coli in fecal strains from intestinal infections and healthy individuals.

Twenty-five fecal Escherichia coli strains of serogroups O6 and O18 from patients with and without intestinal infections were analyzed for fimbrial adhesins pap, prs and sfa, hemolysin, cytonecrotic factor, colicins, capsules, antibiotic resistances, plasmid content and some plasmid encoded characteristics. A high percentage of strains expressing P fimbriae was found with an even higher percentage in strains isolated from intestinal infections. A correlation was found between colicinogenicity and P fimbriae production. None of the strains produced hemolysin while 28% had cytonecrotic factor type 1 sequences, demonstrating that cytonecrotic factor type 1 is not always associated with hemolysin production and indicating that the examined strains do not harbor a larger pathogenicity island. Plasmids and plasmid associated characteristics were more frequently associated with the O18 serogroup and chromosomal colicin V genes were found independently of plasmids.

Tn5431 arose by transposition of Tn3 into Tn1721.

To further characterize Tn5431, which is composed of Tn3 and Tn1721, DNA sequencing was carried out. It was demonstrated that Tn5431 arose by transposition of Tn3 into Tn1721. Multiple mutations in the Tn3 tnpA gene have occurred, rendering the Tn3 portion of Tn5431 transposition defective and ensuring the simultaneous transposition of the antibiotic resistance determinants on Tn3 and Tn1721.

Bacillus licheniformis bacitracin-resistance ABC transporter: relationship to mammalian multidrug resistance.

The nucleotide sequence of the Bacillus licheniformis bacitracin-resistance locus was determined. The presence of three open reading frames, bcrA, bcrB and bcrC, was revealed. The BcrA protein shares a high degree of homology with the hydrophilic ATP-binding components of the ABC family of transport proteins. The bcrB and bcrC genes were found to encode hydrophobic proteins, which may function as membrane components of the permease. Apart from Bacillus subtilis, these genes also confer resistance upon the Gram-negative Escherichia coli. The presumed function of the Bcr transporter is to remove the bacitracin molecule from its membrane target. In addition to the homology of the nucleotide-binding sites, BcrA protein and mammalian multidrug transporter or P-glycoprotein share collateral detergent sensitivity of resistant cells and possibly the mode of Bcr transport activity within the membrane. The advantage of the resistance phenotype of the Bcr transporter was used to construct deletions within the nucleotide-binding protein to determine the importance of various regions in transport.

Aerobactin uptake system, ColV production, and drug resistance encoded by a plasmid from an urinary tract infection Escherichia coli strain of human origin.

A study of Escherichia coli strains isolated from patients suffering from urinary tract infections in Ljubljana, Yugoslavia, revealed a plasmid encoding the aerobactin iron uptake system, ColV production, and drug resistance. The plasmid is conjugative and at least 85 kilobases in length.