Antibiotic resistant bacteria survived from UV disinfection: Safety concerns on genes dissemination.

Antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARGs) are the emerging contaminants leading to a serious worldwide health problem. Although disinfection like ultraviolet (UV) irradiation could remove part of ARB and ARGs, there still are residual ARB and ARGs in the effluent of wastewater treatment plants. Conjugative transfer is main concern of the risk of ARGs and little is known about the effects of UV disinfection on the transfer ability of the non-inactivated ARB in the effluent which will enter the environment. Hence the influences of UV irradiation and reactivation on ARB conjugative transfer ability were studied under laboratory condition, focusing on the survival bacteria from UV irradiation and the reactivated bacteria, as well as their descendants. The experimental results imply that even 1 mJ/cm2 UV disinfection can significantly decrease the conjugative transfer frequency of the survival bacteria. However, viable but not culturable state cells induced by UV can reactivate through both photoreactivation and dark repair and retain the same level of transfer ability as the untreated strains. This finding is essential for re-considering about the post safety of UV irradiated effluent and microbial safety control strategies were required.

Horizontal Transfer of the Salmonella enterica Serovar Infantis Resistance and Virulence Plasmid pESI to the Gut Microbiota of Warm-Blooded Hosts.

UNLABELLED: Salmonella enterica serovar Infantis is one of the prevalent salmonellae worldwide. Recently, we showed that the emergence of S Infantis in Israel was facilitated by the acquisition of a unique megaplasmid (pESI) conferring multidrug resistance and increased virulence phenotypes. Here we elucidate the ecology, transmission properties, and regulation of pESI. We show that despite its large size (~280 kb), pESI does not impose a significant metabolic burden in vitro and that it has been recently fixed in the domestic S Infantis population. pESI conjugation and the transcription of its pilus (pil) genes are inhibited at the ambient temperature (27°C) and by ≥1% bile but increased under temperatures of 37 to 41°C, oxidative stress, moderate osmolarity, and the microaerobic conditions characterizing the intestinal environment of warm-blooded animals. The pESI-encoded protein TraB and the oxygen homeostasis regulator Fnr were identified as transcriptional regulators of pESI conjugation. Using the mouse model, we show that following S Infantis infection, pESI can be horizontally transferred to the gut microbiota, including to commensal Escherichia coli strains. Possible transfer, but not persistence, of pESI was also observed into Gram-positive mouse microbiota species, especially Lactobacillus reuteri Moreover, pESI was demonstrated to further disseminate from gut microbiota to S. enterica serovar Typhimurium, in the context of gastrointestinal infection. These findings exhibit the ability of a selfish clinically relevant megaplasmid to distribute to and from the microbiota and suggest an overlooked role of the microbiota as a reservoir of mobile genetic elements and intermediator in the spread of resistance and virulence genes between commensals and pathogenic bacteria. IMPORTANCE: Plasmid conjugation plays a key role in microbial evolution, enabling the acquisition of new phenotypes, including resistance and virulence. Salmonella enterica serovar Infantis is one of the ubiquitous salmonellae worldwide and a major cause of foodborne infections. Previously, we showed that the emergence of S Infantis in Israel has involved the acquisition of a unique megaplasmid (pESI) conferring multidrug resistance and increased virulence phenotypes. Recently, the emergence of another S Infantis strain carrying a pESI-like plasmid was identified in Italy, suggesting that the acquisition of pESI may be common to different emergent S Infantis populations globally. Transmission of this plasmid to other strains or bacterial species is an alarming scenario. Understanding the ecology, regulation, and transmission properties of clinically relevant plasmids and the role of the microbiota in their spreading offers a new mechanism explaining the emergence of new pathogenic and resistant biotypes and may assist in the development of appropriate surveillance and prevention measures.

Heat Shock-Enhanced Conjugation Efficiency in Standard Campylobacter jejuni Strains.

Campylobacter jejuni, the leading bacterial cause of human gastroenteritis in the United States, displays significant strain diversity due to horizontal gene transfer. Conjugation is an important horizontal gene transfer mechanism contributing to the evolution of bacterial pathogenesis and antimicrobial resistance. It has been observed that heat shock could increase transformation efficiency in some bacteria. In this study, the effect of heat shock on C. jejuni conjugation efficiency and the underlying mechanisms were examined. With a modified Escherichia coli donor strain, different C. jejuni recipient strains displayed significant variation in conjugation efficiency ranging from 6.2 × 10(-8) to 6.0 × 10(-3) CFU per recipient cell. Despite reduced viability, heat shock of standard C. jejuni NCTC 11168 and 81-176 strains (e.g., 48 to 54°C for 30 to 60 min) could dramatically enhance C. jejuni conjugation efficiency up to 1,000-fold. The phenotype of the heat shock-enhanced conjugation in C. jejuni recipient cells could be sustained for at least 9 h. Filtered supernatant from the heat shock-treated C. jejuni cells could not enhance conjugation efficiency, which suggests that the enhanced conjugation efficiency is independent of secreted substances. Mutagenesis analysis indicated that the clustered regularly interspaced short palindromic repeats system and the selected restriction-modification systems (Cj0030/Cj0031, Cj0139/Cj0140, Cj0690c, and HsdR) were dispensable for heat shock-enhanced conjugation in C. jejuni. Taking all results together, this study demonstrated a heat shock-enhanced conjugation efficiency in standard C. jejuni strains, leading to an optimized conjugation protocol for molecular manipulation of this organism. The findings from this study also represent a significant step toward elucidation of the molecular mechanism of conjugative gene transfer in C. jejuni.

A novel conjugative plasmid from Enterococcus faecalis E99 enhances resistance to ultraviolet radiation.

Enterococcus faecalis has emerged as a prominent healthcare-associated pathogen frequently encountered in bacteremia, endocarditis, urinary tract infection, and as a leading cause of antibiotic-resistant infections. We recently demonstrated a capacity for high-level biofilm formation by a clinical E. faecalis isolate, E99. This high biofilm-forming phenotype was attributable to a novel locus, designated bee, specifying a pilus at the bacterial cell surface and localized to a large approximately 80 kb conjugative plasmid. To better understand the origin of the bee locus, as well as to potentially identify additional factors important to the biology and pathogenesis of strain E99, we sequenced the entire plasmid. The nucleotide sequence of the plasmid, designated pBEE99, revealed large regions of identity to the previously characterized conjugative plasmid pCF10. In addition to the bee locus, pBEE99 possesses an open reading frame potentially encoding aggregation substance, as well as open reading frames putatively encoding polypeptides with 60% to 99% identity at the amino acid level to proteins involved in regulation of the pheromone response and conjugal transfer of pCF10. However, strain E99 did not respond to the cCF10 pheromone in clumping assays. While pBEE99 was found to be devoid of any readily recognizable antibiotic resistance determinants, it carries two non-identical impB/mucB/samB-type genes, as well as genes potentially encoding a two-component bacteriocin similar to that encoded on pYI14. Although no bacteriocin activity was detected from an OG1RF transconjugant carrying pBEE99 against strain FA2-2, it was approximately an order of magnitude more resistant to ultraviolet radiation. Moreover, curing strain E99 of this plasmid significantly reduced its ability to survive UV exposure. Therefore, pBEE99 represents a novel conjugative plasmid that confers biofilm-forming and enhanced UV resistance traits that might potentially impact the virulence and/or fitness of E. faecalis.

Pre-exposure to UV irradiation increases the transfer frequency of the IncJ conjugative transposon-like elements R391, R392, R705, R706, R997 and pMERPH and is recA+ dependent.

The enteric conjugative transposon-like IncJ elements R391, R392, R705, R706 and pMERPH, all demonstrated increased conjugative transfer upon UV irradiation. The transfer frequency increased on average from its basal rate of 10(-5) to 10(-3) per recipient, upon pre-exposure to UV irradiation. However, the transfer frequency of R997, which was higher than the other IncJ elements at 10(-3) per donor, showed a smaller increase. This effect was shown to be recA+ dependent in all cases. Using PCR primers directed outwards from the ends of the integrated R391 element it was observed that a circular intermediate of the element forms within the host, which has been proposed to be a transfer intermediate. Using real-time PCR, it was determined that the amount of the circular intermediate produced increased substantially upon UV irradiation.

UV stimulation of chromosomal marker exchange in Sulfolobus acidocaldarius: implications for DNA repair, conjugation and homologous recombination at extremely high temperatures.

The hyperthermophilic archaeon Sulfolobus acidocaldarius exchanges and recombines chromosomal markers by a conjugational mechanism, and the overall yield of recombinants is greatly increased by previous exposure to UV light. This stimulation was studied in an effort to clarify its mechanism and that of marker exchange itself. A variety of experiments failed to identify a significant effect of UV irradiation on the frequency of cell pairing, indicating that subsequent steps are primarily affected, i.e., transfer of DNA between cells or homologous recombination. The UV-induced stimulation decayed rather quickly in parental cells during preincubation at 75 degrees, and the rate of decay depended on the incubation temperature. Preincubation at 75 degrees decreased the yield of recombinants neither from unirradiated parental cells nor from parental suspensions subsequently irradiated. We interpret these results as evidence that marker exchange is stimulated by recombinogenic DNA lesions formed as intermediates in the process of repairing UV photoproducts in the S. acidocaldarius chromosome.

Genetic exchange of transposon and integrative plasmid markers in Mycoplasma pulmonis.

Matings of genetically marked derivatives of Mycoplasma pulmonis resulted in the exchange of chromosomal DNA and the appearance of doubly marked transconjugants. Transposons Tn916 and Tn4001, and a series of integrative plasmids derived from their cloned antibiotic resistance genes, were used to construct antibiotic-resistant mycoplasmal derivatives to examine this phenomenon at the molecular level. Genetic exchange occurred on agar surfaces at frequencies ranging from 3.3 X 10(-4) to 6.4 X 10(-8) transconjugants per CFU. Examination of chromosomal DNA from transconjugants by hybridization revealed that the transposons or integrated plasmids were in the same chromosomal locations as in the parental strains, indicating that exchange involved the transfer of chromosomal DNA and homologous recombination. Transfer was not affected by DNase, polyethylene glycol, EDTA, or calcium chloride but was affected by treatment of either parent with trypsin. Mixing of mating strains before plating had no effect on mating frequencies, but mating did occur in liquid media. The ability to exchange chromosomal markers was limited to selected strains of M. pulmonis; mating did not occur with Acholeplasma laidlawii or M. gallisepticum. Heat and UV inactivation studies revealed that nonviable cells could act as donors in matings. The evidence presented supports a conjugationlike mechanism involving specific trypsin-sensitive membrane components.

[Escherichia coli K-12 mutants with enhanced resistance to ionizing radiation. IV. Recombination characteristics of Gamr mutants]. / Mutanty Escherichia coli K-12 s povyshennoi ustoichivost'iu k ioniziruiushchei radiatsii. Soobshchenie IV. Osobennosti rekombinatsii u mutantov Gamr.

In the radiation-resistant Gamr444 mutant the inheritance frequency of long F' episomes ORF1 (purE+ tsx+ procC+ lac+) and F'14 (ilv+--argE+) is lower, and the frequencies of chromosome mobilization and integrative suppression of temperature-sensitive dnaA46 mutation by the sex factor F are much higher than those in the wild-type strain AB1157 and another radiation-resistant mutant Gamr445. In this respect, the mutant Gamr444 is very similar to the recRC sbcB mutant (RecF-pathway of recombination).

[Escherichia coli K-12 mutants with enhanced resistance to ionizing radiation. III. The effect of rec and lexA mutations on radioresistance]. / Mutanty Escherichia coli K-12 s povyshennoi ustoichivost'iu k ioniziruiushchei radiatsii. Soobshchenie III. Vliianie mutatsii rec i lexA na radiorezistentnost'.

Lethal action of gamma-rays on derivatives of the wild-type strain AB1157 and of two radiation-resistant mutants (Gamr444 and Gamr445) containing additional mutations dnaA46, recB21, recF143, recA56, recA430, lexA3, lexA102 or lexA3 recAo98, was studied. When the mean number of genomes per cell was reduced by means of pre-incubation at 43 degrees C, radioresistance of the strains AB1157 dnaA46 and Gamr445 dnaA46 was not changed, and that of the strain Gamr444 dnaA46 was reduced to the level of the Gamr445 dnaA46 strain. Introduction of additional mutations recB21, recA56 or lexA3 (lexA102) into the genome of the strains Gamr444 or Gamr445 made them as radiosensitive as the corresponding variants of AB1157. Additional mutations recF143 or recA430 (lexB30) significantly decreased the radioresistance of Gamr444 and Gamr445 mutants, although did not level them to corresponding derivatives of AB1157. Operator-constitutive mutation recAo98 enhanced radioresistance of all lexA3 derivatives tested but not to the level of the corresponding lexA+ strains. The role of recombinational repair and the inducible SOS system in enhanced radioresistance of Gamr mutants is discussed. The data of post-irradiation DNA degradation in various derivatives of the strains AB1157 and Gamr suggest that Gamr mutants have a constitutive inhibitor of degradation which does coincide with RecA protein.

The role of pyrimidine dimers as premutagenic lesions: a study of targeted vs. untargeted mutagenesis in the lacI gene of Escherichia coli.

We have employed conjugal transfer of an F' lac episome to examine targeted and untargeted mutagenesis in the lacI gene of Escherichia coli and to determine the relative importance of pyrimidine dimers as premutational UV lesions compared to (6-4) photoproducts that also may have a mutational role. This conjugal system allowed us to assess the premutagenic role of UV lesions independently from any role as inducers of SOS functions. F' DNA was transferred to an SOS-induced recipient strain from: unirradiated donor cells, UV-treated donor cells or donor cells that were irradiated and then exposed to photoreactivating light. The results indicate that SOS-related, untargeted events may account for as much as one-third of the nonsense mutations (i.e., base substitutions) recovered after undamaged F' DNA is transferred to UV-irradiated recipients. When the donor strain also is irradiated, in excess of 90% of the mutations detected following conjugation appear to be targeted. Photoreactivation of the UV-treated donors cells, prior to F' transfer to the SOS-induced recipient strain, demonstrated that in this experimental system virtually all recovered UV-induced mutations are targeted by photoreactivable lesions. We presume that these lesions are pyrimidine dimers because (6-4) photoproducts are not photoreactivable.

[Gamma-radiation sensitivity of bacterial intergeneric conjugants Vibrio cholerae biotype Proteus X Serratia marcescens]. / Chuvstvitel'nost' k gamma-izlucheniiu mezhrodovykh kon"iugantov bakterii Vibrio cholerae biotip Proteus X Serratia marcescens.

It was shown that among intergeneric conjugants of Vibrio cholerae biotype proteus (a donor) X Serratia marcescens (a recipient), growing in a medium with two antibiotics, most of the clones are similar, in their sensitivity to gamma-radiation, to the recipient or only differ in their higher radioresistance. There are some clones with higher radiosensitivity.

[Temperature-sensitive replication of plasmid pKM101]. / Temperaturochuvstvitel'naia replikatsiia plazmidy pKM101.

A mutant of Escherichia coli K-12, IB10 carrying the ts10 mutation has been isolated. The mutation affects replication and inheritance of pKM101 plasmid. Incubation of the mutant under non-selective conditions of 42 degrees C resulted in the formation of R-cell population. The frequency of temperature-independent clones was 2,1 X 10(-5). The defect of pKM101 replication was shown to result in growth inhibition of host cells at a non-permissive temperature. The host growth only started after elimination of the plasmid. The mechanisms are likely to exist governing the participation of plasmid gene products in processes related to host growth. The influence of ts10 mutation on replication of other plasmids was studied. It was established that ts10 did not affect replication of R6K, RP4 and Flac+ plasmids. However, replication of R15, R205 as well as of pKM101 plasmid stopped under conditions of non-permissive temperature in IB10 mutant. Obviously, ts10 mutation results in defective replication of plasmids only belonging to the N-incompatibility group (IncPN). It is shown that R6K, RP4, Flac+ plasmids are not able to correct pKM101 replication in the mutant at 42 degrees C.

[Reactivation of ultraviolet-irradiated phage lambda and recombination in Escherichia coli K-12 cells containing plasmid ColIb-P9]. / Reaktivatsiia obluchennogo ul'trafioletom faga lambda i rekombinatsiia v kletkakh Escherichia coli K-12, soderzhashchikh plazmidy ColIb-P9.

It was shown that the presence of colicinogenis plasmid ColIb-P9 increased the survival of UV-irradiated bacteriophage lambda cI857 in non-irradiated cells of Escherichia coli K-12. The effect of this plasmid was retained in the polA and recB mutants, being sharply reduced in the uvrA and recB recC sbcB recF mutants. This effect strongly depended on recA+ and lexA+ genotype. The W-reactivation efficiency was slightly higher in the cells containing ColIb-P9 than in those lacking the plasmid. No significant effect of the plasmid on recombination during transduction, after conjugation under usual conditions and in the case when a conjugation mixture or recipient cells were irradiated, was observed. The data demonstrate that the effect of ColIb-P9 plasmid on DNA repair is not mediated by its influence on recombination.

[Effect of local UV irradiation of the generative nuclei of Paramecium caudatum on the sexual functions of the cells]. / Vliianie lokal'nogo UF oblucheniia generativnykh iader infuzorii Paramecium caudatum na polovye funktsii kletok.

A study has been made of the functional pattern of the micronucleus (Mi) during the sexual process in ciliates Paramecium caudatum which are descendants of those individuals whose Mi was locally irradiated with UV in dose of 3060 erg/mm2. It was demonstrated that these descendants (cells of UV-clones) were able to enter into the sexual process whatever morphological type of their Mi might be. In 4 of 14 tested clones, the initial mating type got changed for the opposite one, which may be associated with the Mi genome alteration following UV irradiation. The nuclear reorganization during the sexual process was studied in three UV irradiated clones. The local UV irradiated of the Mi is followed by the number of abnormalities in the derivates of Mi during the metagamic phase of the sexual process in clones whose Mi underwent serious changes. Exconjugants obtained from UV-clones with such changes in Mi and normal test-clones demonstrated a lower viability.