Specific Detection of Enteroaggregative Hemorrhagic Escherichia coli O104:H4 Strains by Use of the CRISPR Locus as a Target for a Diagnostic Real-Time PCR

In 2011, a large outbreak of an unusual bacterial strain occurred in Europe. This strain was characterized as a hybrid of an enteroaggregative Escherichia coli (EAEC) and a Shiga toxin-producing E. coli (STEC) strain of the serotype O104:H4. Here, we present a single PCR targeting the clustered regularly interspaced short palindromic repeats locus of E. coli O104:H4 (CRISPR_O104:H4) for specific detection of EAEC STEC O104:H4 strains from different geographical locations and time periods. The specificity of the CRISPR_O104:H4 PCR was investigated using 1,321 E. coli strains, including reference strains for E. coli O serogroups O1 to O186 and flagellar (H) types H1 to H56. The assay was compared for specificity using PCR assays targeting different O104 antigen-encoding genes (wbwC_O104, wzx_O104, and wzy_O104). The PCR assays reacted with all types of E. coli O104 strains (O104:H2, O104:H4, O104:H7, and O104:H21) and with E. coli O8 and O9 strains carrying the K9 capsular antigen and were therefore not specific for detection of the EAEC STEC O104:H4 type. A single PCR developed for the CRISPR_O104:H4 target was sufficient for specific identification and detection of the 48 tested EAEC STEC O104:H4 strains. The 35 E. coli O104 strains expressing H types other than H4 as well as 8 E. coli strains carrying a K9 capsular antigen tested all negative for the CRISPR_O104:H4 locus. Only 12 (0.94%) of the 1,273 non-O104:H4 E. coli strains (serotypes Ont:H2, O43:H2, O141:H2, and O174:H2) reacted positive in the CRISPR_O104:H4 PCR (99.06% specificity).     

Evaluation of the mutagenicity of an N-nitroso contaminant of the sunscreen Padimate O: N-nitroso-N-methyl-p-aminobenzoic acid, 2-ethylhexyl ester (NPABAO).

The nitrosamine contaminant, N-nitroso-N-methyl-p-aminobenzoic acid, 2-ethylhexyl ester (NPABAO), of the major sunscreen ingredient Padimate O (4-N,N'-dimethylamino-benzoic acid, 2-ethylhexyl ester) was synthesized and tested for mutagenicity in the Salmonella typhimurium and mouse lymphoma L5178Y TK +/- assays. In contrast to the previously reported positive responses in S. typhimurium tester strains TA100 and TA1535 [Loeppky et al., 1991], there were no increases in the number of revertants with strains TA98, TA100, TA1535, and TA1538 in either the Salmonella plate incorporation [Ames et al., 1975] or preincubation [Yahagi et al., 1977] assays. Additional testing with Salmonella, following the modified preincubation procedure [Rogan, 1990] that gave the initial positive response, was also negative. Data from the mouse lymphoma assays were also uniformly negative. During synthesis of NPABAO, small amounts of 4-N,N'-dimethylamino-3-nitrobenzoic acid, 2-ethylhexyl ester (DMANBAO) can be formed. To determine whether the reported positive mutagenicity response of NPABAO could be the result of trace amounts of DMANBAO in the NPABAO, that compound was also synthesized and tested for mutagenicity with Salmonella. Positive responses were obtained with tester strains TA98 and TA 1538 but not with TA100 and TA1535, indicating that DMANBAO was not responsible for the increase in revertants originally reported.     

A protocol for the combined biochemical and serological identification of the Ames mutagen tester strains as Salmonella typhimurium

Previously published reports have noted biochemical reactions atypical of Salmonella among the Ames tester strains of Salmonella typhimurium, and an inability to assign the strains to a specific Salmonella O (heat-stable cell wall) antigen group. We studied the biochemistry and serology of strains TA97, 98, 100, 102, 104, 1535, 1537, and 1538 in an attempt to develop a protocol to correctly speciate the strains. Biochemical reactions of all eight strains using standard media supplemented with histidine and biotin were consistent with those of the genus Salmonella. Strains TA100, 104, and 1535 were assigned to Salmonella O groups using bacteria treated with hot ethanol (White schema). H (flagellar) antigen assignments were performed successfully with seven of the eight strains. Two H antigen assignments required the use of the Craigie tube test for selection of motile revertants. Combining our biochemical and serological results obtained by this protocol, we were able to correctly speciate TA100, 104, and 1535 as Salmonella typhimurium. Our results demonstrate that representatives of the tester strains can be correctly speciated provided that procedures are followed that allow for the unusual nutrient requirements, the deep rough cell wall mutation, and the variably deficient motility of these organisms.     

Shiga toxin-producing Escherichia coli strains from cattle as a source of the Stx2a bacteriophages present in enteroaggregative Escherichia coli O104:H4 strains

Enteroaggregative, Shiga toxin-producing E. coli (EAEC-STEC) O104:H4 strains are emerging pathogens causing life threatening diseases in humans. EAEC-STEC O104:H4 strains isolated between 2001 and 2011 were found to harbor a distinct type of Shiga toxin 2a- (Stx2a) encoding prophage. This phage type shows only <65% genetic similarity to so far described viable Stx phages due to differences in the modules for DNA replication, metabolism, regulation and host specificity. Stx production in EAEC is rarely observed and the source of the Stx2a phage in the EAEC-STEC O104:H4 strains is not known. We identified two DNA segments derived from orf15 and the cI gene of the O104:H4 Stx2a phage P13374 that are characteristic for Stx2a prophages present in EAEC-STEC O104:H4 strains. By PCR, these sequences were detected in 14 (5.8%) of 241 Stx2-positive STEC from animals and food. Infectious Stx2a phages could be isolated from four bovine STEC strains. These were found highly similar to P13374 for orf15, cI and stx2a sequences, the chromosomal integration site (wrbA), for phage DNA restriction profiles, virion morphology and superinfection immunity. Stx2a phages of the four bovine STEC strains formed lysogens on the E. coli K-12 strain C600. Phage P13374 from an EAEC-STEC O104:H4 outbreak strain and one of the bovine STEC phages (P13803) lysogenized the Stx-negative EAEC O104:H4 strain CB14647 by integrating in the wrbA gene of CB14647 and converted it into a Stx2a producer. Our findings provide experimental evidence that EAEC-STEC O104:H4 strains have evolved by uptake of Stx2a phages from the bovine reservoir.     

Mutagenic and cytotoxic potencies of a series of anthracycline derivatives as measured by His+ reversion, 8-azaguanine resistance and direct plating cytotoxicity tests in Salmonella typhimurium

His+ reversion at multiple his- loci, 8-azaguanine resistance, and a previously reported direct plating cytotoxicity test were used to measure the genotoxic potencies of a series of anthracycline derivatives in Salmonella typhimurium. N-demethylated amino sugar monosaccharide anthracyclines reverted most his- tester strains and were positive with 8-azaguanine selection. Reversion of strain TA98 was the most sensitive end point for measuring the mutagenic activity of the N-demethylated anthracyclines. N,N-dimethyl amino sugar derivatives of Adriamycin and daunomycin were negative as measured by His+ reversion in tester strain TA98, but generated positive responses in tester strain TA102 that were equal to or greater than those of the demethylated parent compounds. Similarly, N,N-dimethyl amino sugar derivatives of pyrromycinone and 1-deoxypyrromycinone had no mutagenic activity as measured by His+ reversion except in tester strains TA102 and TA104. These later compounds also gave positive responses with 8-azaguanine selection. In view of these results, the importance of amino sugar dialkylation and anthracycline mechanisms of mutagenesis are discussed.     

Studies on the induction of gene mutations in bacterial and mammalian cells by the ring-opened benzene metabolites trans,trans-muconaldehyde and trans,trans-muconic acid

t,t-Muconaldehyde and t,t-muconic acid have been investigated for the induction of gene mutations in Salmonella typhimurium (reversion of the his- strains TA97, TA98, TA100, TA102, TA104 and TA1535), Escherichia coli (reversion of the trp- strain WP2 uvrA) and Chinese hamster V79 cells (acquisition of resistance toward 6-thioguanine). t,t-Muconaldehyde proved weakly mutagenic in strain TA104 in the presence and absence of NADPH-fortified postmitochondrial fraction from rat liver homogenate (S9 mix). In strains TA97, TA100 and TA102, weak positive responses were observed only in the presence of S9 mix. In strains TA98, TA1535 and WP2 uvrA, the result was negative. In V79 cells, the mutation frequency was increased from approximately 7 X 10(-6) to 90 X 10(-6) in cultures exposed to t,t-muconaldehyde at optimal concentration (1.7-3 microM in separate experiments). The concentration-response curve showed pronounced hyperlinearity, with no mutagenic effect being observed at a third of the optimal concentration. t,t-Muconic acid was greater than 100 times less toxic than t,t-muconaldehyde in both bacteria and mammalian cells, and it did not show any mutagenic effect. These results complete a previous mutagenicity study, carried out on benzene and 13 metabolites. It is concluded that the newly investigated metabolites cannot account for the bacterial mutagenicity of bioactivated benzene and benzene-trans-1,2-dihydrodiol, since these compounds exhibited their strongest response in strain TA1535. t,t-Muconaldehyde showed similarities in its mutagenicity to p-benzoquinone and hydroquinone. All three compounds showed, at most, weak effects in bacteria, but were strongly mutagenic in V79 cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Relatedness of O-specific lipopolysaccharide side chain genes from strains of Shigella boydii type 12 belonging to two clonal groups and from Escherichia coli O7:K1.

The O-specific lipopolysaccharide side chains of Escherichia coli O7 and Shigella boydii type 12 possess similar but not identical chemical structures. We investigated the genetic relatedness between the O-specific side chain genes in members of these two species. Examination of outer membrane protein and lipopolysaccharide (LPS) banding patterns demonstrated that five strains which had been identified as S. boydii type 12 fell into two clonal groups, SB1 and SB2. Hybridizations with O7-specific radiolabeled probes derived from the chromosomal DNA of an E. coli O7 strain detected identical fragments among the three SB1 strains of S. boydii type 12 and the two E. coli O7 reference isolates. The two other S. boydii type 12 strains, which belonged to the SB2 clone, did not show homologies with the O7 probe under high-stringency conditions of hybridization. The homology between the O7 and type 12 LPS gene regions from the SB1 strains was further confirmed by the construction of O-specific side chain-deficient mutations in these strains by homologous recombination of a suicide plasmid containing O7-specific DNA sequences. Immunoblot experiments with O7 antiserum gave a weak cross-reaction with LPS purified from the SB2 strains but a very strong cross-reaction with the LPS from SB1 isolates. Antiserum raised to one of the SB2 strains cross-reacted only with S. boydii type 12 LPS from the SB1 clone but failed to react with O7 LPS.     

Mutation spectra of the drinking water mutagen 3-chloro-4-methyl-5-hydroxy-2(5H)-furanone (MCF) in Salmonella TA100 and TA104: comparison to MX

The chlorinated drinking water mutagen 3-chloro-4-methyl-5-hydroxy-2(5H)-furanone (MCF) occurs at concentrations similar to or greater than that of the related furanone 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone (MX). MCF and MX differ structurally only by replacement of a 3-methyl in MCF with a 3-dichloromethyl in MX; yet, MCF is significantly less mutagenic than MX and produces different adducts when reacted with nucleosides or DNA. To explore further the effects that these structural differences might have on the biological activity of MCF and MX, we determined the mutation spectra of MCF in Salmonella strains TA100 and TA104 and of MX in strain TA104; the spectrum of MX in TA100 had been determined previously. In TA100, which presents only GC targets for mutagenesis, MCF induced primarily (75%) GC --> TA transversions, with most of the remaining revertants (20%) being GC --> AT transitions. This spectrum was not significantly different from that of MX in TA100 (P = 0.07). In TA104, which presents both GC and AT targets, MCF induced a lower percentage (57%) of GC --> TA transversions, with most of the remaining revertants (33%) being AT --> TA transversions. In contrast, MX induced almost only (98%) GC --> TA transversions in TA104, with the remaining revertants (2%) being AT --> TA transversions. Thus, almost all (98%) of the MX mutations were targeted at GC sites in TA104, whereas only 63% of the MCF mutations were so targeted. These results are consistent with the published findings that MX: (1) forms an adduct on guanosine when reacted with guanosine, (2) induces apurinic sites in DNA, and (3) forms a minor adduct on adenosine when reacted with adenosine or DNA. The results are also consistent with evidence that MCF forms adenosine adducts when reacted with adenosine. Our results show that the replacement of the 4-methyl in MCF with a 4-dichloromethyl to form MX not only increases dramatically the mutagenic potency but also shifts significantly the mutagenic specificity from almost equal targeting of GC and AT sites by MCF to almost exclusive targeting of GC sites by MX. Environ. Mol. Mutagen. 35:106-113, 2000 Published 2000 Wiley-Liss, Inc.     

Variable efficacy of passive antibody administration against diverse Cryptococcus neoformans strains.

The efficacy of monoclonal antibody (MAb 2H1) against diverse strains of Cryptococcus neoformans was studied in a murine model of intravenous infection. For six of eight strains, administration of MAb prior to infection prolonged survival of mice. For two strains, 371 and SB4A, administration of MAb prior to infection did not prolong survival in multiple experiments with inocula ranging from 10(2) to 10(6) yeast cells per mouse. Mice infected with strains 371 and SB4A had fewer CFU than non-MAb-treated controls, but the CFU reduction was not sufficient to affect survival. Serum glucuronoxylomannan (GXM) levels varied for the different C. neoformans strains. For mice that did not receive MAb 2H1, there was a positive correlation between lung fungal burden and serum GXM levels. MAb 2H1-treated mice had significantly reduced serum GXM levels. The results indicate that the efficacy of MAb 2H1 administration in prolonging survival and/or reducing organ CFU varies with the C. neoformans strain.     

Genotypes and virulence characteristics of Shiga toxin-producing Escherichia coli O104 strains from different origins and sources

Sixty-two Escherichia coli strains carrying the wzx_O104-gene from different sources, origins and time periods were analyzed for their serotypes, virulence genes and compared for genomic similarity by pulsed-field gel-electrophoresis (PFGE). The O104 antigen was present in 55 strains and the structurally and genetically related capsular antigen K9 in five strains. The presence of 49 genes associated with enteropathogenic E. coli (EPEC), enteroaggregative E. coli (EAEC) and enterohemorrhagic E. coli (EHEC) was investigated. Fifty-four strains of serotypes O104:H2 (n = 1), O104:H4 (n = 37), O104:H7 (n = 5) and O104:H21 (n = 11) produced Shiga-toxins (Stx). Among STEC O104, a close association between serotype, virulence gene profile and genomic similarity was found. EAEC virulence genes were only present in STEC O104:H4 strains. EHEC-O157 plasmid-encoded genes were only found in STEC O104:H2, O104:H7 and O104:H21 strains. None of the 62 O104 or K9 strains carried an eae-gene involved in the attaching and effacing phenotype.     

Mutagenicity spectra in Salmonella typhimurium strains of glutathione, L-cysteine and active oxygen species

Glutathione and L-cysteine, in the presence of rat kidney post-mitochondrialsupernatant (S9) fraction, and various forms of active oxygenwere investigated for mutagenicity in seven his^– strainsof Salmonella typhimurium. Glutathione and L-cysteine showedqualitatively and quantitatively virtually identical mutagenicactivities. The number of mutants induced in strain TA97 was3–4 times higher than in TA100, the strain in which themutagenicity was originally detected. Mutagenic effects werealso observed in strains TA92, TA102 and TA104, but not in TA1535and TA1537. Hydrogen peroxide, superoxide and glucose/glucoseoxidase in the presence and absence of kidney S9 fraction showedpronounced mutagenic effects in strains TA104 and TA102. Additionally,weak mutagenic effects were observed in TA100, while the remainingstrains, including TA97, were not responsive. These mutagenicityspectra suggest that the mutagenic species formed from glutathioneand L-cysteine are similar, if not identical, and are differentfrom hydrogen peroxide, superoxide and other oxygen speciesderived from them. Further support for this notion was givenwhen it was observed that catalase did not affect the mutagenicityof glutathione and that superoxide dismutase showed a significanteffect only when used in milligram quantities. This study showsthat mutagenicity spectra may be useful in the elucidation ofactivation pathways. Furthermore, it is interesting to notethat all the compounds and preparations showing a positive responsein the Ames test in the present study occur endogenously inorganisms: glutathione, L-cysteine, hydrogen peroxide, superoxide,glucose, glucose oxidase and kidney S9 fraction (which was mutagenicin several strains).     

Mutagenic evaluation of the pesticides captan, folpet, captafol, dichlofluanid and related compounds with the mutants TA102 and TA104 of Salmonella typhimurium

A mutagenic evaluation of captan, folpet, captafol, dichlofluanidand related compounds was carried out using the Salmonella/mammalianmicrosome test using strains TA102 and TA104. These strainscontain A-T base pairs at the site of the mutation in contrastto the other Salmonella tester strains that detect mutagensdamaging G-C base pairs. In addition, the excision repair systemof the TA102 strain is still intact. Captan and folpet weremutagenic in strain TA104, captafol was mutagenic in strainTA102, whereas the remaining test compounds (dichlofluanid,tetrahydro-phthalimide and thiozolidine-4-carboxylic acid) werenot mutagenic in either strain. In conclusion, we consider itof value to add these two strains to those already used in theAmes test in order to increase confidence in our ability todetect mutagens and to shed further light on their mechanismof action.     

Antagonistic effects of probiotic Escherichia coli Nissle 1917 on EHEC strains of serotype O104:H4 and O157:H7

The largest EHEC outbreak up to now in Germany occurred in 2011. It was caused by the non-O157:H7 Shiga-toxinogenic enterohemorrhagic E. coli strain O104:H4. This strain encodes in addition to the Shiga toxin 2 (Stx2), responsible for the hemolytic uremic syndrome (HUS), several adhesins such as aggregative adherence fimbriae. Currently, there is no effective prophylaxis and treatment available for EHEC infections in humans. Especially antibiotics are not indicated for treatment as they may induce Stx production, thus worsening the symptoms. Alternative therapeutics are therefore desperately needed. We tested the probiotic Escherichia coli strain Nissle 1917 (EcN) for antagonistic effects on two O104:H4 EHEC isolates from the 2011 outbreak and on the classical O157:H7 EHEC strain EDL933. These tests included effects on adherence, growth, and Stx production in monoculture and co-culture together with EcN. The inoculum of each co-culture contained EcN and the respective EHEC strain either at a ratio of 1:1 or 10:1 (EcN:EHEC). Adhesion of EHEC strains to Caco-2 cells and to the mucin-producing LS-174T cells was reduced significantly in co-culture with EcN at the 1:1 ratio and very dramatically at the 10:1 ratio. This inhibitory effect of EcN on EHEC adherence was most likely not due to occupation of adhesion sites on the epithelial cells, because in monocultures EcN adhered with much lower bacterial numbers than the EHEC strains. Both EHEC strains of serotype O104:H4 showed reduced growth in the presence of EcN (10:1 ratio). EHEC strain EDL933 grew in co-culture with EcN only during the first 2 h of incubation. Thereafter, EHEC counts declined. At 24 h, the numbers of viable EDL933 was at or slightly below the numbers at the time of inoculation. The amount of Stx2 after 24 h co-incubation with EcN (EcN:EHEC ratio 10:1) was for all 3 EHEC strains tested significantly reduced in comparison to EHEC monocultures.     

Genetic analysis for virulence factors in Escherichia coli O104:H21 that was implicated in an outbreak of hemorrhagic colitis

Isolates of enterohemorrhagic Escherichia coli (EHEC) of serotype O104:H21 implicated in a 1994 outbreak of hemorrhagic colitis in Montana were analyzed for the presence of trait EHEC virulence markers. By using a multiplex PCR that specifically amplifies several genes, the O104:H21 strains were found to carry only the Shiga toxin 2 gene (stx2) and to express Stx2. They did not have the eaeA gene for gamma-intimin, which is typically found in O157:H7, or the alpha- or beta-intimin derivatives, which are common in other EHEC and enteropathogenic E. coli serotypes. Results of the multiplex PCR also indicated that the ehxA gene for enterohemolysin was absent from O104:H21. This, however, was not consistent with the results of a phenotypic assay that showed them to be hemolytic or a PCR analysis with another set of ehxA-specific primers, which indicated the presence of ehxA. To resolve this discrepancy, the ehxA region in O104:H21 and O157:H7 strains, to which the multiplex PCR primers anneal, was cloned and sequenced. Comparison of the sequences showed that the upstream primer binding site in the ehxA gene of O104:H21 was not identical to that of O157:H7. Specifically, there were several base mutations, including an A-to-G substitution at the 3' end of the primer binding site. These base mutations are presumably not unique to O104:H21, since other enterohemolytic serotypes were also not detected with the ehxA primers used in the multiplex PCR. Comparison of the ehxA sequences of O104:H21 strains with those of other Stx-producing E. coli strains showed that they more closely resembled those of O8:H19 strains, which have cluster II ehxA genes, than those of O157:H7 strains, which have cluster I ehxA sequences. By modifying the upstream ehxA primer, the multiplex PCR was able to detect ehxA genes in both O157:H7 and O104:H21 strains.     

Comparative pathogenicity of Escherichia coli O157 and intimin-negative non-O157 Shiga toxin-producing E coli strains in neonatal pigs

We compared the pathogenicity of intimin-negative non-O157:H7 Shiga toxin (Stx)-producing Escherichia coli (STEC) O91:H21 and O104:H21 strains with the pathogenicity of intimin-positive O157:H7 and O157:H(-) strains in neonatal pigs. We also examined the role of Stx2d-activatable genes and the large hemolysin-encoding plasmid of O91:H21 strain B2F1 in the pathogenesis of STEC disease in pigs. We found that all E. coli strains that made wild-type levels of Stx caused systemic illness and histological lesions in the brain and intestinal crypts, whereas none of the control Stx-negative E. coli strains evoked comparable central nervous system signs or intestinal lesions. By contrast, the absence of intimin, hemolysin, or motility had little impact on the overall pathogenesis of systemic disease during STEC infection. The most striking differences between pigs inoculated with non-O157 STEC strains and pigs inoculated with O157 STEC strains were the absence of attaching and effacing intestinal lesions in pigs inoculated with non-O157:H7 strains and the apparent association between the level of Stx2d-activatable toxin produced by an STEC strain and the severity of lesions.     

Genotoxicity of nitrosulfonic acids, nitrobenzoic acids, and nitrobenzylalcohols, pollutants commonly found in ground water near ammunition facilities

2-Amino-4,6-dinitrobenzoic acid (2-A-4,6-DNBA), 4-amino-2,6-dinitrobenzoic acid (4-A-2,6-DNBA), 2,4,6-trinitrobenzoic acid (2,4,6-TNBA), 2-amino-4, 6-dinitrobenzylalcohol (2-A-4,6-DNBAlc), 4-amino-2,6-dinitrobenzylalcohol (4-A-2,6-DNBAlc), 2,4-dinitrotoluol-5-sulfonic acid (2,4-DNT-5-SA), 2,4-dinitrotoluol-3-sulfonic acid (2,4-DNT-3-SA), and 2, 4-dinitrobenzoic acid (2,4-DNBA) are derivatives of nitro-explosives that have been detected in groundwater close to munitions facilities. In the present study, the genotoxicity of these compounds was evaluated in Salmonella/microsome assays (in strains TA100 and TA98, with and without S9 and in TA98NR without S9), in chromosomal aberration (CA) tests with Chinese hamster fibroblasts (V79), and in micronucleus (MN) assays with human hepatoma (HepG2) cells. All compounds except the sulfonic acids were positive in the bacterial mutagenicity tests, with 2,4,6-TNBA producing the strongest response (8023 revertants/micromol in TA98 without S9 activation). 2-A-4,6-DNBA was a direct acting mutagen in TA98, but negative in TA100. The other positive compounds were approximately 1-3 orders of magnitude less mutagenic than 2,4,6-TNBA in TA98 and in TA100; relatively strong effects ( approximately 50-400 revertants/micromol) were produced by the benzylacohols in the two indicator strains. With the exception of 2,4-DNBA, the mutagenic responses were lower in the nitroreductase-deficient strain TA98NR than in the parental strain. 2,4-DNBA produced a marginally positive response in the V79-cell CA assay; the other substances were devoid of activity. Only the benzoic acids were tested for MN induction in HepG2 cells, and all produced positive responses. As in the bacterial assays, the strongest effect was seen with 2,4,6-TNBA (significant induction at >or=1.9 microM). 4-A-2,6-DNBA was positive at 432 microM; the weakest effect was observed with 2,4,-DNBA (positive at >or=920 microM). The differences in the sensitivity of the indicator cells to these agents can be explained by differences in the activities of enzymes involved in the activation of the compounds. The strong responses produced by some of the compounds in the human-derived cells suggest that environmental exposure to these breakdown products of nitro-explosives may pose a cancer risk in man.     

Comparative virulence characterization of the Shiga toxin phage-cured Escherichia coli O104:H4 and enteroaggregative Escherichia coli

Escherichia coli O104:H4 (E. coli O104:H4), which caused in 2011 a massive foodborne outbreak in Germany, is characterized by an unusual combination of virulence traits. E. coli O104:H4 contains a prophage-encoded Shiga toxin (Stx) gene, which is the cardinal virulence factor of enterohemorrhagic E. coli (EHEC). However, the outbreak strain shares highest DNA sequence similarity with enteroaggregative E. coli (EAEC) and displays the EAEC-characteristic tight adherence to epithelial cells. The virulence potential of the underlying EAEC background has not been investigated and it is therefore not clear whether E. coli O104:H4 displays distinct virulence characteristics in comparison to prototypical EAEC. In this study, we performed a detailed comparative phenotypic characterization of the Stx phage-cured E. coli O104:H4 strain C227-11φcu, the closely related EAEC strain 55989 and two other well-characterized EAEC strains 042 and 17-2 with focus on virulence traits. C227-11φcu displayed superior aggregative adherence phenotype to cultured HCT-8 epithelial cells, adhering with 3–6 times more bacteria per epithelial cells than the tested EAEC strains. Otherwise, C227-11φcu showed similar virulence characteristics to its closest relative 55989, i.e. strong acid resistance, good biofilm formation and cytotoxic culture supernatants. Furthermore, C227-11φcu was characterized by significantly weaker motility and pro-inflammatory properties than 55989 and 042, nevertheless stronger than 17-2. Taken together, C227-11φcu displayed mostly robust, but not outstanding virulence characteristics in comparison to the tested EAEC. Therefore, it appears likely that the combination of Stx production and EAEC characteristics in general, rather than an exceptionally potent EAEC background resulted in the unusual virulence of the E. coli O104:H4. Thus, the emergence of such hypervirulent strains in the future might be more likely than previously anticipated.     

Vero cytotoxin-producing strains of Escherichia coli from children with haemolytic uraemic syndrome and their detection by specific DNA probes

Faecal specimens from 66 children with haemolytic uraemic syndrome in the United Kingdom were examined for strains of Escherichia coli producing Vero cytotoxin (VT). Initially, conventional bacteriological methods were used to identify colonies of E. coli which were then tested for VT production. Subsequently, specific DNA probes for VT1 and VT2 were used in hybridisation tests to detect VT-producing E. coli (VTEC). VTEC strains were isolated from 19 cases and in 15 they belonged to serogroup O157. Fourteen of these O157 strains possessed the flagellar antigen H7 and one was non-motile. The VTEC strains from the remaining four cases belonged to serotypes O26:H11, O104:H2, O153:H25, and O163:H19 together with a rough VT+ strain with flagellar antigen H51. The O157 strains hybridised with either the VT2 probe or both VT1 and VT2 probes. The other VTEC strains hybridised with either the VT1 or VT2 probe. Confirmation of the production of VT1 and VT2 in vivo was obtained by the neutralisation of faecal VT with specific antisera raised against these two cytotoxins.     

Genotoxicity of 2-halocinnamaldehydes in two bacterial assays. Induction of SOS repair and frame-shift mutation

2-Chlorocinnamaldehyde and 2-bromocinnamaldehyde, compoundsof practical interest, for example, as bacterioddes and fungicidesor for utilization in light sensitive layers, were tested inthe Ames preincubation test with various Salmonella typhimuriumstrains, and in the SOS chromotest with Escherichia coli PQ37. 2-Chlorocinnamaldehyde was clearly mutagenic in strain TA100 (6081 revertants/µmol) and in strain TA 98 (3050 revertants/µmol)without S9 mix, and was clearly positive in the SOS chromotest(SOSIP = 0.181). 2-Bromocinnamaldehyde was a strong mutagenin strain TA 100 (105, 500 revertants/µmol), in strainTA98 (41567 revertants/µmol) and in strain TA 1538 (15825revertants/ µmol), and also unambiguously mutagenic instrain TA 1535 (2110 revertants/µmol) without S9 mix.The SOSIP in the SOS chromotest was 1.5. Addition of S9 mixled to a marked decrease in the mutagenic activity of 2-bromocinnamaldehydein all strains tested. In the case of strain TA 1535, mutagenicactivity was abolished or not significant in the presence ofS9 mix. The possible primary mechanisms underlying these mutageniceffects are discussed. Frame-shift activity of these halocinnamaldehydescan be explained by their planar structure. ¹To whom correspondence should be addressed     

Effect of inhibition of extracellular signal-regulated kinase 1 and 2 pathway on apoptosis and bcl-2 expression in Helicobacter pylori-infected AGS cells

Helicobacter pylori induces activation of mitogen-activated protein kinases (MAPKs). However, its effect on H. pylori-induced apoptosis has not been evaluated. Thus, we examined whether H. pylori-induced extracellular signal-regulated kinase 1 and 2 (ERK1/2) and p38 MAPK activation affects gastric epithelial cell apoptosis and bcl-2 family gene expression, especially in relation to the cagA status of an H. pylori strain. In flow cytometric and oligonucleosome-bound DNA enzyme-linked immunosorbent assay analyses, infection with cagA(+) H. pylori strains induced gastric cancer cell apoptosis in AGS cells more prominently than infection with cagA mutants. Activation of ERK1/2 and p38 MAPKs was also more prominent in cagA(+) strains. Pretreatment with a MEK inhibitor (PD98059) inhibited ERK1/2 activation and increased H. pylori-induced apoptosis significantly. This increased apoptosis was accompanied by decreased antiapoptotic bcl-2 mRNA expression among bcl-2-related genes (bcl-2, bax, bak, mcl-1, and bcl-X(L/S)), and the effect was also more prominent in the cagA(+) strains. However, the alteration of bcl-2 gene expression was not accompanied by protein level changes. Inhibition of p38 using specific inhibitor SB203580 decreased H. pylori-induced apoptosis but resulted in little alteration of bcl-2-related gene expression. In conclusion, H. pylori-induced ERK1/2 activation, especially by the cagA(+) H. pylori strain, may play a protective role against gastric epithelial cell apoptosis partially through maintenance of bcl-2 gene expression.