Toxin Gene Expression by Shiga Toxin-Producing Escherichia coli: the Role of Antibiotics and the Bacterial SOS Response.Toxin synthesis by Shiga toxin-producing Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. (STEC STEC shiga toxin-producing Escherichia coli. ) appears to be coregulated through induction of the integrated bacteriophage that encodes the toxin gene. Phage phage: see bacteriophage. phage - A program that modifies other programs or databases in unauthorised ways; especially one that propagates a virus or Trojan horse. See also worm, mockingbird. The analogy, of course, is with phage viruses in biology. production is linked to induction of the bacterial SOS response, a ubiquitous response to DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. damage. SOS-inducing antimicrobial agents, particularly the quinolones, trimethoprim trimethoprim /tri·meth·o·prim/ (-meth´o-prim) an antibacterial closely related to pyrimethamine; almost always used in combination with a sulfonamide, primarily for the treatment of urinary tract infections. , and furazolidone, were shown to induce toxin gene expression in studies of their effects on a reporter STEC strain carrying a chromosome based stx2::lacZ transcriptional fusion. At antimicrobial levels above those required to inhibit bacterial replication, these agents are potent inducers (up to 140-fold) of the transcription of type 2 Shiga toxin genes (stx2); therefore, they should be avoided in treating patients with potential or confirmed STEC infections. Other agents (20 studied) and incubation conditions produced significant but less striking effects on stx2 transcription; positive and negative influences were observed. SOS-mediated induction of toxin synthesis also provides a mechanism that could exacerbate STEC infections and increase dissemination of stx genes. These features and the use of SOS-inducing antibiotics in clinical practice and animal husbandry animal husbandry, aspect of agriculture concerned with the care and breeding of domestic animals such as cattle, goats, sheep, hogs, and horses. Domestication of wild animal species was a crucial achievement in the prehistoric transition of human civilization from may account for the recent emergence of STEC disease. The associations between Escherichia coli O157:H7 infection, hemorrhagic colitis hemorrhagic colitis n. Abdominal cramps and bloody diarrhea, without fever, attributed to a self-limited infection by a strain of Escherichia coli. , and hemolytic uremic syndrome hemolytic uremic syndrome n. A syndrome in which hemolytic anemia and thrombocytopenia occur with acute renal failure, marked in children by sudden gastrointestinal bleeding, urine that contains red blood cells and is scanty in volume, and (HUS) were established in the early 1980s (1,2). Shiga toxin-producing E. coli E. coli: see Escherichia coli. E. coli in full Escherichia coli Species of bacterium that inhabits the stomach and intestines. E. coli can be transmitted by water, milk, food, or flies and other insects. (STEC) strains have since been recognized as the cause of both outbreaks and sporadic cases of diarrhea and HUS, involving thousands of cases and numerous deaths (3). Shiga toxins are key virulence factors in the pathogenesis of STEC disease (3). The term Shiga toxin (Stx) refers to two families of related toxins, Stx/Stxl, which includes the classical Shiga toxin produced by Shigella dysenteriae Shigella dys·en·ter·i·ae n. Shiga-Kruse bacillus. Shigella dysenteriae Shigella group A Microbiology The least commonly isolated and most virulent Shigella serotype , and Stx2 (4). The stx genes carried by STEC strains are, with one possible exception (stx2e), encoded on bacteriophage genomes integrated into the bacterial chromosome. Stx2-producing STEC strains are more closely associated with HUS than are strains that produce only Stx1 (5,6). Because antimicrobial agents may play a role in the pathogenesis of severe STEC disease, chemotherapy for STEC infections remains controversial (7,8). The location of stx genes (predominantly on [Lambda]-like bacteriophage genomes integrated into the chromosome of their host bacterium) has important implications because the induction of the SOS response, an extensively characterized genetic regulatory mechanism, induces high-level expression of previously silent bacteriophage genes (9). Stx genes are coexpressed with genes of the bacteriophage (10,11), and certain quinolones (known to be potent SOS SOS, code letters of the international distress signal. The signal is expressed in International Morse code as … — — — … (three dots, three dashes, three dots). inducers) induce increases in toxin (12,13) and bacteriophage production (13) of two to three orders of magnitude within 2 to 4 hours. The potential importance of a link between the SOS response and prophage prophage /pro·phage/ (pro´faj) the latent stage of a phage in a lysogenic bacterium, in which the viral genome becomes inserted into a specific portion of the host chromosome and is duplicated in each cell generation. induction for Stx1 and Stx2 expression has been reinforced by recent sequencing and pathogenicity studies (11,14,15). We have constructed a genetically modified derivative of a clinical isolate in which the genes encoding both elements of the toxin (stx2AB) were partially replaced with a lacZ reporter gene. The product of this gene, [Beta]-galactosidase, is easily assayed and detected; its expression reflects the transcriptional activity of the stx2 gene and can be visualized in simple agar plate assays and quantified in biochemical assays. We have extended our earlier observations on the effects of quinolones on reporter expression by this strain to include a wider range of antimicrobial agents and the modulating effects. of different environmental conditions. Our results show that several agents could increase the amounts of toxin produced and that SOS-inducing agents could play an important role in the epidemiology of STEC infections. Methods Bacterial Strain and Growth Conditions RV31, a strain of E. coli O157:H7 isolated locally from a patient with hemorrhagic Hemorrhagic A condition resulting in massive, difficult-to-control bleeding. Mentioned in: Hantavirus Infections hemorrhagic pertaining to or characterized by hemorrhage. diarrhea, was used to construct the reporter strain, PK552(stx2A::lacZ), which contains a copy of the E. coli lacZ gene transcriptionally fused to the promoter region of stx2 on the chromosome. The reporter strain construction, which involved allelic al·lele n. One member of a pair or series of genes that occupy a specific position on a specific chromosome. [German Allel, short for Allelomorph, allelomorph, from English exchange with a series of suicide plasmid vectors, will be described elsewhere. In the first step, the entire indigenous lac operon lac operon the lactose operon, a nucleotide sequence in Escherichia coli that controls the synthesis of the enzyme ß-galactosidase comprising binding sequence motifs for the cap protein, which activates transcription, the repressor protein, which inhibits and adjacent lacI gene were deleted to create a [Lac.sup.-] strain. Then, most of the coding sequence cod·ing sequence n. See exon. of the stx2A gene was replaced with a promoterless E. coli lacZ gene, resulting in a transcriptional fusion in which transcription of the lacZ reporter gene is controlled by stx2 regulatory mechanisms. The structure of the final construct was confirmed by diagnostic polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is , Southern blotting, and nucleotide sequencing across the lacZ insertion points. Bacterial growth in the presence of antibiotics was monitored by the Bioscreen C system and associated Biolink software (Labsystems, Basingstoke, UK). This procedure allowed the simultaneous measurement of growth in up to 200 tests by recording changes in optical density. The stx2::lacZ reporter strain PK552 was grown overnight at 37 [degrees] C in Antibiotic Medium No. 3 (Oxoid, Basingstoke, Hampshire, UK). A 2-mL aliquot aliquot (al-ee-kwoh) adj. a definite fractional share, usually applied when dividing and distributing a dead person's estate or trust assets. (See: share) of overnight culture was added to 100 mL of prewarmed medium and incubated with shaking at 37 [degrees] C to an optical density at 600 nm ([OD.sub.600nm]) of approximately 0.4. The culture was then divided, and test antibiotics were added to these aliquots from stock solutions. Aliquots of these cultures (200 [micro]L, 4 replicates) were then injected into wells of honeycomb honeycomb a mosaic of closely packed units with depressed centers giving a honeycomb appearance. honeycomb ringworm see favus. honeycomb stomach reticulum. plates (Labsystems). The Biolink software was used to program the Bioscreen C system to specify wavelength, incubation temperature, length of experiment, timing of readings, and the rate of shaking of the cultures. The cultures were incubated in the Bioscreen C system at 37 [degrees] C with continuous shaking, and [OD.sub.600nm] was recorded every 15 min. MICs for selected antibiotics were determined in the Bioscreen system by using the inoculation pattern described above and by the conventional agar dilution method. Detection of [Beta]-galactosidase Activity An agar plate assay was used to screen the responses of the reporter strain, PK552 (stx2A::lacZ), in producing [Beta]-galactosidase activity in the presence of antibiotics. The assays were performed by using Luria-Bertani (LB) agar plates containing 20 [micro]g/mL of the chromogenic chro·mo·gen·ic adj. Of or relating to a chromogen or to chromogenesis. chromogenic (krō´mōjen´ik), adj pertaining to color production. lactose analog X-gal (5-bromo-4-chloro-3-indolyl-[Beta]-D-galactopyranoside; Sigma, Poole, Dorset, UK). An agar overlay of the PK552 reporter strain was made by mixing 100 [micro]L of an overnight culture with 3 mL of molten LB top agar, cooled to 48 [degrees] C, and pouring the mixture over the surface of an LB agar plate. The plate was incubated with antibiotic discs (see below) placed on the surface, under the conditions specified. Expression of [Beta]-galactosidase was indicated by the enzymatic cleavage of X-gal, resulting in a blue color, the intensity of which related to the amount of enzyme produced. Microaerobic conditions (5% [O.sub.2], 10% [CO.sub.2], 85% [N.sub.2]) at 37 [degrees] C were produced in a VAIN incubator (Don Whitley Scientific, Shipley, Yorkshire, UK). Microaerobic conditions at 42 [degrees] C and anaerobic anaerobic /an·aer·o·bic/ (an?ah-ro´bik) 1. lacking molecular oxygen. 2. growing, living, or occurring in the absence of molecular oxygen; pertaining to an anaerobe. conditions were produced in gas jars by using Oxoid gas-generating kits according to the manufacturer's instructions. Antibiotic discs (Oxoid/Unipath, UK) were as follows: ofloxacin (5 [micro]g), nalidixic acid nalidixic acid /nal·i·dix·ic ac·id/ (nal-i-dik´sik) a synthetic antibacterial agent used in the treatment of genitourinary infections caused by gram-negative organisms. na·li·dix·ic acid n. (30 [micro]g), cinoxacin (100 [micro]g), enrofloxacin (5 [micro]g): flumequine (30 [micro]g), ciprofloxacin ciprofloxacin /cip·ro·flox·a·cin/ (sip?ro-flok´sah-sin) a synthetic antibacterial effective against many gram-positive and gram-negative bacteria; used as the hydrochloride salt. cip·ro·flox·a·cin n. (1 [micro]g), perfloxacin (5 [micro]g), norfloxacin (10 [micro]g), amoxycillin/ clavulanic acid (20/10 [micro]g), imipenem (10 [micro]g), aztreonam (30 [micro]g), ceftazidime (30 [micro]g), cefotaxime (30 [micro]g), cefuroxime (5 [micro]g), piperacillin/tazobactam (10/75 [micro]g), ampicillin ampicillin (ăm'pĭsĭl`ĭn), a penicillin-type antibiotic that is effective against both gram-negative microorganisms and gram-positive microorganisms such as Escherichia coli. (10 [micro]g), cephalexin cephalexin /ceph·a·lex·in/ (-lek´sin) a semisynthetic first-generation cephalosporin, effective against a wide range of gram-positive and a limited range of gram-negative bacteria; used as the base or the hydrochloride salt. (30 [micro]g), chloramphenicol chloramphenicol (klōr'ămfĕn`əkŏl'), antibiotic effective against a wide range of gram-negative and gram-positive bacteria (see Gram's stain). It was originally isolated from a species of Streptomyces bacteria. (30 [micro]g), doxycycline doxycycline /doxy·cy·cline/ (dok?se-si´klen) a semisynthetic broad-spectrum tetracycline antibiotic, active against a wide range of gram-positive and gram-negative organisms; used also as d. calcium and d. hyclate. (30 [micro]g), erythromycin erythromycin (ĭrĭth'rōmī`sĭn), any of several related antibiotic drugs produced by bacteria of the genus Streptomyces (see antibiotic). (15 [micro]g), trimethoprim (5 [micro]g), sulphamethoxazole (25 [micro]g), furazolidone (50 [micro]g), amoxicillin amoxicillin /amox·i·cil·lin/ (ah-mok?si-sil´in) a semisynthetic derivative of ampicillin effective against a broad spectrum of gram-positive and gram-negative bacteria. a·mox·i·cil·lin n. (25 [micro]g), novobiocin no·vo·bi·o·cin n. An antibiotic produced by the actinomycete Streptomyces nivens and used to treat infections by gram-positive bacteria. (30 [micro]g), rifampin rifampin (rĭfăm`pĭn), antibiotic used in the treatment of tuberculosis. It is also used to eliminate the meningococcus microorganism from carriers and to treat leprosy, or Hansen's disease. (25 [micro]g), gentamicin gentamicin /gen·ta·mi·cin/ (jen?tah-mi´sin) an aminoglycoside antibiotic complex isolated from bacteria of the genus Micromonospora, (10 [micro]g), fosfomycin (200 [micro]g) (oral and systemic salts), polymyxin B (300 IU), and metronidazole metronidazole /met·ro·ni·da·zole/ (-ni´dah-zol) an antiprotozoal and antibacterial effective against obligate anaerobes; used as the base or the hydrochloride salt. It is also used as a topical treatment for rosacea. (50 [micro]g). The Bioscreen C system was also used to measure total [Beta]-galactosidase activity in whole cultures of strain PK552 by orthonitrophenyl-[Beta]-D-galactoside (ONPG ONPG O-Nitrophenol-Galactoside ONPG Operational Nuclear Planning Group ONPG Ortho-Nitrophenol-Beta-Galactoside ) assay (16). Aliquots (20 [micro]L, 4 replicates) of culture were removed from wells of the honeycomb plate and added to a fresh plate. To this, 180 [micro]L of Z buffer (60 mM ([Na.sub.2][HPO HPO 1. hyperbaric (high-pressure) oxygenation. 2. hypertrophic pulmonary osteodystrophy. .sub.4]) 7[H.sub.2]O, 40 mM (Na[H.sub.2][PO.sub.4]) [H.sub.2]O, 10 mM KCl, 1 mM MgS[O.sub.4], and 50 mM [Beta]-mercaptoethanol, pH 7.0) containing 2 mg/mL lysozyme lysozyme: see immunity. Lysozyme An enyme that was first identified and named by Alexander Fleming, who recognized its bacteriolytic properties. , 0.01% sodium dodecyl sulfate Sodium dodecyl sulfate (or sulphate) (SDS or NaDS) (C12H25NaO4S),is an anionic surfactant that is used in household products such as toothpastes, shampoos, shaving foams and bubble baths for its thickening effect and its ability to (SDS 1. (company) SDS - Scientific Data Systems. 2. (tool) SDS - Schema Definition Set. ), and 100 [micro]g/mL chloramphenicol was added to the cells. The plate was incubated at 37 [degrees] C for 30 min to lyse lyse (liz) 1. to cause or produce disintegration of a compound, substance, or cell. 2. to undergo lysis. lyse or lyze v. To undergo or cause to undergo lysis. the cells and placed on ice until use. The Bioscreen C system was prewarmed to 28 [degrees] C, and 40 [micro]L of 4 mg/mL ONPG solution (made up in Z buffer) was added to each well. Plates were incubated in the Bioscreen C system at 28 [degrees] C for 4 hours, and OD was recorded at both 420 nm and 540 nm every 10 min. [Beta]-galactosidase activity was determined by using the linear portion of the corrected [OD.sub.420]/ time relationship by the Miller formula, adjusted for the sample volume (16). Replicate samples (at least four in all assays reported) yielded mean values with coefficients of variation [is less than]10% in all cases. Results All the quinolones induced reporter expression, while only a few of the other agents had this effect (Figure 1). The induction occurred in three general patterns: a defined zone within the zone of growth inhibition (quinolones), a defined zone at the growth/no growth interface (furazolidone), or a diffuse zone within the zone of inhibition (trimethoprim). In addition, the incubation conditions appeared to produce a background level of induction or suppression. Microaerobic conditions and to a lesser extent incubation at 30 [degrees] C were associated with background induction, while anaerobic conditions and incubation at 42 [degrees] C had a suppressive sup·pres·sive adj. Tending or serving to suppress. Adj. 1. suppressive - tending to suppress; "the government used suppressive measures to control the protest" effect as determined by the intensities of the blue zones. However, some quinolone-mediated induction was always detectable, even under the most suppressive condition (42 [degrees] C). Induction by furazolidone and trimethoprim was, in general, similarly enhanced and suppressed, although 42 [degrees] C abolished all induction, and anaerobic conditions did not suppress trimethoprim/sulphamethoxazole induction. [Figure 1 ILLUSTRATION OMITTED] As a group, only the agents that inhibit prokaryotic translation failed to induce reporter expression under any condition tested (Table). Like furazolidone, although less intensely, several [Beta]-lactam agents induced expression at the growth/no growth interface. Imipenem (a carbapenem) not only failed to induce expression but also inhibited induction by the adjacent monobactam, aztreonam (not shown), at subgrowth-inhibitory levels. We subsequently observed that this suppressive effect was confined to [Beta]-lactam-mediated induction (i.e., imipenem showed no suppressive effect against quinolones, trimethoprim, or furazolidone). We also noted an apparent inhibitory effect of clavulanic acid on amoxycillin amoxicillin, amoxycillin an aminopenicillin, similar in action to ampicillin and susceptible to ß-lactamase, but more efficiently absorbed from the gastrointestinal tract and with a longer duration of action. in the coamoxyclav combination and a requirement for potentiating conditions (30 [degrees] C, mA[O.sub.2] 37 [degrees] C) for detectable induction by novobiocin, polymyxin B, and rifampin. Table. Induction of stx2 expression by antibiotics under different incubation conditions(a)
Target of action
Agent (disc content mg/L) [mO.sub.2] [O.sub.2]
/37 /37
Background + -
DNA Gyrase
Quinolones(d) + +
Novobiocin (30) + -
Folate metabolism
Trimethoprim (5) + +
Smx (25) + +
DNA
Metronidazole (50) - -
Furazolidone (50) + +
Cell envelope
Cephalexin (30) + +
Amoxycillin (25) + +
Amoxy/Clav (20/10) +/- -
Ampicillin (10) + +
Pip/Taz (10/75) + +
Imipenem (10) - -
Aztreonam (30) + +
Cefuroxime (5) + +
Ceftazidime (30) + +
Cefotaxime (30) + +
Fosfomycin (200) - -
Polymyxin B (300 IU) +/- -
Translation
Gentamicin (10) - -
Chloramphenicol (30) - -
Doxycycline (30) - -
Erythromycin (15) - -
Transcription
Rifampin (25) - -
Target of action Incubation conditions(b)
Agent (disc content mg/L) [mO.sub.2] [mO.sub.2] [O.sub.2]
/42 /37 /30
Background - - +
DNA Gyrase
Quinolonesd + + +
Novobiocin (30) - - +
Folate metabolism
Trimethoprim (5) - + +
Smx (25) - + -
DNA
Metronidazole (50) - - -
Furazolidone (50) - - +
Cell envelope
Cephalexin (30) - - +/-
Amoxycillin (25) - - -
Amoxy/Clav (20/10) - - -
Ampicillin (10) - - -
Pip/Taz (10/75) - - -
Imipenem (10) - - -
Aztreonam (30) - - -
Cefuroxime (5) - - -
Ceftazidime (30) - - -
Cefotaxime (30) - - -
Fosfomycin (200) - - -
Polymyxin B (300 IU) - - +
Translation
Gentamicin (10) - - -
Chloramphenicol (30) - - -
Doxycycline (30) - - -
Erythromycin (15) - - -
Transcription
Rifampin (25) +/- - -
Target of action
Agent (disc content mg/L) [O.sub.2] Zone pattern(c)
/42
Background - NA
DNA Gyrase
Quinolones(d) +/- [is greater than
or equal to] MIC
Novobiocin (30) - [is greater than
or equal to] MIC
Folate metabolism
Trimethoprim (5) - [is greater than
or equal to] MIC
Smx (25) - [is greater than or
equal to] MIC
DNA
Metronidazole (50) - NA
Furazolidone (50) - =MIC
Cell envelope
Cephalexin (30) - =MIC
Amoxycillin (25) - =MIC
Amoxy/Clav (20/10) - =MIC
Ampicillin (10) - =MIC
Pip/Taz (10/75) - =MIC
Imipenem (10) - NA
Aztreonam (30) - =MIC
Cefuroxime (5) - =MIC
Ceftazidime (30) - =MIC
Cefotaxime (30) - =MIC
Fosfomycin (200) - NA
Polymyxin B (300 IU) - =MIC
Translation
Gentamicin (10) - NA
Chloramphenicol (30) - NA
Doxycycline (30) - NA
Erythromycin (15) - NA
Transcription
Rifampin (25) - NA
(a) Stx2 induction effects (zones of blue coloration, Figure 1): -, not detected, +/-, borderline induction, +, definite induction, [is greater than or equal to] MIC, zone of induction within the zone of growth inhibition; =MIC, induction on the edge of the zone of inhibition; NA, not applicable; Amoxy/Clav, amoxycillin/clavulanic acid; Pip/Taz, piperacillin/tazobactam; Stax, sulphamethoxazole. (b) [O.sub.2], aerobic; [mO.sub.2] microaerobic; [AO.sub.2], anaerobic/incubation temperature [degrees] C (c) Note: The patterns indicated were detected in three separate experiments and recorded by two independent observers. (d) The quinolones tested are listed in the Materials and Methods section. We examined some of the features of induction by quantitative assay of [Beta]-galactosidase in cultures induced by exposure to antibiotics in liquid medium (Figures 2 and 3). The relationship of induction to MIC was consistent with that observed in the plate assays. Cefuroxime and furazolidone showed induction at sub-MIC levels, while the highest levels of induction with ofloxacin and trimethoprim were seen at supra-MIC exposure levels; the latter two agents were clearly more potent inducers (Figures 2 and 3). We also examined the effects of fosfomycin (0.03-80 g/L) in this assay; no inducing effect was detected. [Figure 2-3 ILLUSTRATION OMITTED] The time course experiments (Figure 3) confirm the relative inducing potencies (Figure 2) and show that furazolidone-mediated induction is complete by 8 h. Levels of furazolidone-induced enzyme activity were lower at 24 h than at 4 h or 12 h. In contrast, trimethoprim and ofloxacin induction rapidly increased up to 6 h and 8 h, respectively, then continued to increase more slowly until the final measurement at 12 h. Additional expression induced by these two agents continued up to 24 h (Figure 2), while cefuroxime-induced expression occurred only between 12 h and 24 h. Discussion These patterns of reporter gene expression demonstrate that several antimicrobial agents have the capacity to increase the amount of Stx2 synthesized by our STEC strain. Levels of [Beta]-galactosidase expression in the reporter strain are closely correlated with biologically active toxin produced by the parental wild type strain (12). The demonstrated link to de novo gene expression distinguishes our study from earlier work in which it could not be determined whether increased toxin levels reflected release of preformed toxin by cell lysis lysis /ly·sis/ (li´sis) 1. destruction or decomposition, as of a cell or other substance, under influence of a specific agent. 2. mobilization of an organ by division of restraining adhesions. 3. or increased synthesis (17-20). The inductions we observed show how certain agents and environmental conditions may increase the amount of toxin in infected persons and that, in the absence of definitive clinical data, they provide a rational basis for avoiding certain agents in treating patients who may have STEC infections. Several of the agents tested here--the quinolones (21), trimethoprim (22), furazolidone, and metronidazole (23)--have a recognized capacity to induce bacterial SOS response, which is initiated when damaged bacterial DNA interacts with and activates the multifunctional RecA protein. Activated RecA, in turn, causes the degradation of two key repressor repressor: see nucleic acid. proteins, LexA and CI. The resulting de-repression of genes regulated by LexA leads to the temporary arrest of DNA synthesis and cell division and the activation of error-prone DNA repair. In strains carrying an integrated [Lambda]-like bacteriophage, cleavage of the CI phage repressor/activator protein leads to the induction of previously silent phage-encoded genes (in this case including stx2A and stx2B), followed by production of phage particles and host bacterial cell lysis (9). The most potent SOS inducers, the quinolones and trimethoprim, produced the most prominent effects in both agar and liquid culture assays. Metronidazole did not induce reporter expression under the conditions tested; however, this agent would not normally be expected to affect E. coli. Another potent SOS inducer inducer /in·duc·er/ (in-dldbomacs´er) a molecule that causes a cell or organism to accelerate synthesis of an enzyme or sequence of enzymes in response to a developmental signal. in·duc·er n. , mitomycin C, which is known to increase toxin levels in vitro (24,25), tests positive in agar and broth induction tests with our reporter strain (results not shown). The potential importance of the SOS response to pathogenesis in vivo has recently been underlined by a study in which STEC strains with mutations in recA, a critical gene for SOS induction, were rendered avirulent a·vir·u·lent adj. Not virulent. in a mouse 50% lethal dose test (15). The importance of antibiotic-induced Stx expression would be reinforced if the implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. agents were in some way associated with occurrence or severity of STEC disease. The results of available studies have conflicted with regard to the influence of antibiotics. The age groups studied, the timing of antibiotic therapy, and the range of agents used complicate the analyses. Nonetheless, use of quinolones and trimethoprim/sulphamethoxazole (26,27) has been implicated as a risk factor for HUS. In a recent clinical study, children treated with cephalosporins Cephalosporins Definition Cephalosporins are medicines that kill bacteria or prevent their growth. Purpose Cephalosporins are used to treat infections in different parts of the body—the ears, nose, throat, lungs, sinuses, and or trimethoprim-sulphamethoxazole had, respectively, 13.4- and 17.7-fold increases in risk for HUS (28). Our observations suggest that the net effect of one of these agents on the exposure of an infected patient to toxin depends on the stage of the infection, the number of organisms present at the time antibiotics are administered, the immediate environmental conditions of those organisms, and the time-concentration profile and bactericidal bactericidal /bac·te·ri·ci·dal/ (bak-ter?i-si´d'l) destructive to bacteria. Bactericidal An agent that destroys bacteria (e.g. effect of the drug. This complex interplay of factors could render an SOS-inducing antibiotic clinically beneficial (e.g., if the numbers of infecting organisms were insufficient to produce substantial amounts of toxin and they were all killed by the first dose), neutral, or disadvantageous dis·ad·van·ta·geous adj. Detrimental; unfavorable. dis·ad  van·ta in different
situations. Moreover, exposure of patients to other potential
SOS-inducing agents (cf. 9,23) could further complicate the relationship
between antibiotic use and severe STEC disease. A strong association
between mitomycin C administration and HUS was detected in a study of
"cancer-associated" HUS (29).Grif and colleagues reported on the effects of sub-MIC levels of 13 antibiotics on release of biologically active toxin (as distinct from toxin gene expression) by three STEC strains into culture supernatants after overnight incubation (20). These authors observed substantial interstrain differences in the responses, as well as increased levels of toxin after exposure to several agents that had not previously been associated with SOS-inducing activity. Grif et al. did not distinguish between enhanced release of preformed toxin and increased toxin production, and the most potent inducing effects we have observed were at suprainhibitory levels of exposure. Nonetheless, we cannot rule out interstrain differences in susceptibility to SOS activation and the possibility that other induction mechanisms may be involved. Our observations on SOS induction by several [Beta]-lactam agents and the inhibitory effects of imipenem appear pertinent. Suppression of toxin expression by imipenem supports previous observations on toxin release (30). Paired disc-diffusion assays involving imipenem and other recognized SOS-inducing antibiotics indicated that this effect was confined to induction by [Beta]-lactam agents (Kimmitt, Harwood, and Barer, unpubl data). This finding, combined with the different time course of induction with cefuroxime, reinforces the view that there may be induction pathways distinct from the SOS response. Although the nature of the putative alternate induction pathway(s) remains obscure, the clear evidence for [Beta]-lactam-mediated induction may contraindicate con·tra·in·di·cate v. To indicate the inadvisability of something, such as a medical treatment. use of the implicated agents in treating patients with STEC infection. Although any increase in exposure of STEC-infected persons to Shiga toxins seems undesirable, SOS-mediated induction seems particularly hazardous because of its potential rapid effects. We report kinetics (Figure 3) somewhat slower than those we observed previously in the shaken conical flask incubations (12). The rapid buildup in toxin levels associated with SOS induction could facilitate entry of toxin into the bloodstream and subsequent disseminated effects on the kidneys and other organs. SOS-mediated induction also leads to dissemination of the toxin-encoding bacteriophage. [Figure 3 ILLUSTRATION OMITTED] Matsushiro et al. observed parallel increases in toxin and bacteriophage counts in response to norfioxacin (13), and we have made similar observations with ofloxacin and trimethoprim (Kimmit, Harwood and Barer, unpubl data). Moreover, sequencing studies clearly indicate that expression of stx2 and bacteriophage genes is coordinately regulated (11,14). Hemorrhagic colitis and HUS attributable to STEC were recognized after trimethoprim and the 4-quinolones were introduced into human and veterinary clinical practice, and the substantial recent increase in reports of STEC disease follows expanded use of fluoroquinolones. Fluoroquinolones and trimethoprim have been recommended for prophylaxis and treatment of travelers' diarrhea (31), and the former are often used to treat severe bacterial enteric enteric /en·ter·ic/ (en-ter´ik) within or pertaining to the small intestine. en·ter·ic adj. 1. Of, relating to, or within the intestine. 2. infections. Our findings indicate that this approach may be inappropriate if STEC infection is a possibility. Furthermore, reports that certain antimicrobial agents may ameliorate or reduce symptoms or the frequency of life-threatening complications in STEC infections provide an incentive to find a rational basis for selection (8,27). Our results suggest that agents with SOS-inducing activity, antimicrobial or otherwise, should be avoided (Table). We conclude that SOS-mediated induction of Shiga toxins and toxin-encoding bacteriophages may contribute to the emerging epidemiologic pattern of STEC disease. Many other bacterial virulence determinants are encoded on lysogenic lysogenic /ly·so·gen·ic/ (li-so-jen´ik) 1. producing lysins or causing lysis. 2. pertaining to lysogeny. ly·so·gen·ic adj. 1. bacteriophage genomes (32), and the issues raised here may have public health and clinical implications beyond the understanding of STEC disease. Acknowledgments We thank D. Jenkins for providing strain RV31 from a patient with hemorrhagic diarrhea. This work was funded by The Department of Health, London (DH 243). Dr. Kimmitt is trained in medical microbiology and molecular biology. He is currently studying the molecular biology of chlamydia chlamydia (kləmĭd`ēə), genus of microorganisms that cause a variety of diseases in humans and other animals. Psittacosis, or parrot fever, caused by the species Chlamydia psittaci, infection at the London School of Hygiene and Tropical Medicine. References (1.) Karmali MA, Petric M, Lim C, Fleming PC, Steele BT. Escherichia coli cytotoxin cytotoxin /cy·to·tox·in/ (si´to-tok?sin) a toxin or antibody having a specific toxic action upon cells of special organs. cy·to·tox·in n. , haemolytic-uraemic syndrome, and haemorrhagic Adj. 1. haemorrhagic - of or relating to a hemorrhage hemorrhagic colitis. Lancet 1983;2:1299-300. (2.) Riley LW, Remis RS, Helgerson SD, McGee HB, Wells JG, Davis BR, et al. Hemorrhagic colitis associated with a rare Escherichia coli serotype serotype /se·ro·type/ (ser´o-tip) the type of a microorganism determined by its constituent antigens; a taxonomic subdivision based thereon. se·ro·type n. 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Is antibiotic therapy of mice and humans useful in Escherichia coli O157:H7 enteritis enteritis (ĕn'tərī`tĭs), inflammation of the gastrointestinal tract. Acute enteritis is not usually serious except in infants and older people, in whom the accompanying diarrhea can cause dehydration through the loss of fluids. ? European J Clin Microbiol Infect Dis 1999;18:533-4. (9.) Walker GC. The SOS response of Escherichia coli. In: F.C. Neidhardt, editor. Escherichia coli and Salmonella. Washington: ASM (1) (Association for Systems Management) An international membership organization based in Cleveland, Ohio. Founded in 1947 and disbanded in 1996, it sponsored conferences in all phases of administrative systems and management. Press; 1996. p. 1400-16. (10.) Muhldorfer I, Hacker J, Keusch GT, Acheson DW, Tschape H, Kane AV. Regulation of the Shiga-like toxin II operon in Escherichia coli. Infect Immun 1996;64:495-502. (11.) Neely MN, Friedman DI. 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Sequence of Shiga toxin 2 phage 933W from Escherichia coli O157:H7: Shiga toxin as a phage late-gene product. J Bacterio 11999;181:1767-78. (15.) Fuchs S, Muhldorfer I, Donohue-Rolfe A, Kerenyic M, Emody L, Alexiev R, et al. Influence of RecA on in vivo virulence and Shiga toxin 2 production in Escherichia coli pathogens. Microb Pathog 1999;27:13-23. (16.) Miller JH. Experiments in molecular genetics. Cold Spring Harbor (NY): Cold Spring Harbor Laboratory  The Cold Spring Harbor Laboratory ; 1972.(17.) Karch H, Strockbine NA, O'Brien AD. Growth of Escherichia coli in the presence of trimethoprim-sulfamethoxazole facilitates detection of Shiga-like toxin producing strains by colony blot assay. FEMS Microbiol Lett 1986;35:141-5. (18.) Yoh M, Frimpong EK, Honda T. Effect of antimicrobial agents, especially fosfomycin, on the production and release of Vero toxin by enterohaemorrhagic Escherichia coli O157:H7. FEMS Immunol Med Microbiol 1997;19:57-64. (19.) Walterspiel JN, Ashkenazi S, Morrow AL, Cleary TG. Effect of subinhibitory concentrations of antibiotics on extracellular Shiga-like toxin-I. Infection 1992;20:25-9. (20.) Grif K, Dierich MP, Karch H, Allerberger F. Strain-specific differences in the amount of Shiga toxin released from enterohaemorrhagic Escherichia coli O157 following exposure to subinhibitory concentrations of antimicrobial agents. Eur J Clin Microbiol Infect Dis 1998;17:761-6. (21.) Drlica K, Zhao XL. DNAgyrase, topoisomerase IV, and the 4-quinolones. Microbiol Mol Biol Rev 1997;61:377-94. (22.) Lewin CS, Amyes SG. The role of the SOS response in bacteria exposed to zidovudine zidovudine /zi·do·vu·dine/ (zi-do´vu-den) a synthetic nucleoside (thymidine) analogue that inhibits replication of some retroviruses, including the human immunodeficiency virus; used in the treatment of HIV infection and AIDS. or trimethoprim. J Med Microbiol 1991;34:329-32. (23.) Quillardet P, Hofnung M. The SOS chromotest: a review. Mutat Res 1993;297:235-79. (24.) Yee AJ, De Grandis S, Gyles CL. Mitomycin-induced synthesis of a Shiga-like toxin from enteropathogenic enteropathogenic having pathogenicity for the intestine. enteropathogenic Escherichia coli strains of E. coli which cause enteritis by close association with enteric cells. Includes attaching and effacing E. coli. Escherichia coli H.I.8. Infect Immun 1993;61:4510-13. (25.) al-Jumaili I, Burke DA, Scotland SM, al-Mardini II, Record CO. A method of enhancing verocytotoxin production by Escherichia coli. FEMS Microbiol Left 1992;72:121-5. (26.) Pavia AT, Nichols CR, Green DP, Tauxe RV, Mottice S, Greene KD, et al. Hemolytic-uremic syndrome during an outbreak of Escherichia coli O157:H7 infections in institutions for mentally retarded persons: clinical and epidemiologic observations. J Pediatr 1990;116:544-51. (27.) Dundas S, Todd WTA WTA Washington Trails Association WTA Women's Tennis Association WTA World Transhumanist Association WTA Willingness to Accept WTA Winner-Take-All WTA Winner Takes All WTA World Toilet Association (Singapore) . Clinical presentation, complications and treatment of infection with verocytotoxin producing Escherichia coli. Challenges for the clinician. J Appl Microbiol 2000;88:24S-30S. (28.) Wong CS, Jelacic S, Habeeb RL. Watkins SL, Tarr PI. The risk of the hemolytic-uremic syndrome after antibiotic treatment of Escherichia coli O157:H7 infections. N Engl J Med 2000;342(26):1930-6. (29.) Lesesne JB, Rothschild N, Erickson B, Korec S, Sisk R, Keller J, et al. Cancer-associated hemolytic he·mo·lyt·ic adj. Destructive to red blood cells; hematolytic. Hemolytic Referring to the destruction of the cell membranes of red blood cells, resulting in the release of hemoglobin from the damaged cell. -uremic syndrome: analysis of 85 cases from a national registry. J Clin Oncol 1989;115:781-9. (30.) Takahashi K, Narita K, Kato Y, Sugiyama T, Koide N, Yoshida T, et al. Low-level release of Shiga-like toxin (verocytotoxin) and endotoxin Endotoxin A biologically active substance produced by bacteria and consisting of lipopolysaccharide, a complex macromolecule containing a polysaccharide covalently linked to a unique lipid structure, termed lipid A. from enterohemorrhagic Escherichia coli treated with imipenem. Antimicrob Agents Chemother 1997;41:2295-6. (31.) Health Information for International Travel 1999-2000. Atlanta: Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. ; 1999. p. 168. (32.) Cheetham BF, Katz ME. A role for bacteriophages in the evolution and transfer of bacterial virulence determinants. Mol Microbiol 1995;18:201-8. Address for correspondence: M.R. Barer, Department of Microbiology and Immunology, University of Newcastle University of Newcastle can refer to:
Patrick T. Kimmitt, Colin R. Harwood, Michael R. Barer The Medical School, University of Newcastle, Newcastle upon Tyne, United Kingdom |
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