Your search keyword '"JACEWICZ, M"' showing total 53 results

1. Shiga toxins do not directly stimulate alpha-granule secretion or enhance aggregation of human platelets.

Author

Thorpe CM, Flaumenhaft R, Hurley B, Jacewicz M, Acheson DW, and Keusch GT

Subjects

Adult, Cytoplasmic Granules metabolism, Female, Humans, Male, Platelet Activation drug effects, Shiga Toxins, Bacterial Toxins pharmacology, Cytoplasmic Granules drug effects, Cytotoxins pharmacology, Escherichia coli, Platelet Aggregation drug effects

Published

1999

2. Expression and purification of Shiga-like toxin II B subunits.

Author

Acheson DW, De Breucker SA, Jacewicz M, Lincicome LL, Donohue-Rolfe A, Kane AV, and Keusch GT

Subjects

Antibodies, Bacterial, Bacterial Toxins genetics, Bacterial Toxins immunology, Base Sequence, Biological Assay, Carrier Proteins biosynthesis, Carrier Proteins genetics, Carrier Proteins isolation & purification, Cloning, Molecular methods, Escherichia coli genetics, Genes, Bacterial genetics, Genetic Vectors, HeLa Cells, Humans, Maltose-Binding Proteins, Molecular Sequence Data, Protein Conformation, Recombinant Fusion Proteins biosynthesis, Recombinant Fusion Proteins isolation & purification, Recombinant Fusion Proteins pharmacology, Shiga Toxin 2, Vibrio cholerae genetics, ATP-Binding Cassette Transporters, Bacterial Toxins biosynthesis, Bacterial Toxins isolation & purification, Escherichia coli chemistry, Escherichia coli Proteins, Monosaccharide Transport Proteins

Abstract

Shiga-like toxins (SLTs), which are produced by certain strains of Escherichia coli, are composed of enzymatically active A and B subunit multimers responsible for the toxin's binding. We have previously purified large amounts of the SLT-I B subunit by using a hyperexpression vector in Vibrio cholerae under the control of the trc promoter. In this study we examined various expression vectors to maximize yields of the SLT-II B subunit. The SLT-II B subunit has been expressed by using both the T7 promoter and the tac promoter in E. coli. When expressed from a plasmid containing the structural gene for SLT-II B deleted of the leader sequence, SLT-II B was able to form multimers when cross-linked, although SLT-II B production from this plasmid was unreproducible. SLT-II B expressed in all three systems appeared to form unstable multimers, which did not readily bind to a monoclonal antibody which preferentially recognizes B subunit multimers. SLT-II B expression was not increased by moving any of the plasmids into V. cholerae. Polyclonal antibodies raised to SLT-II B in rabbits recognized B subunit in SLT-II holotoxin yet were poorly neutralizing. SLT-II B was also expressed as a fusion protein with maltose-binding protein and could be cleaved from maltose-binding protein with factor Xa. Although the expression vectors were able to make large amounts of SLT-II B, as determined by Western blotting (immunoblotting), the levels of purified SLT-II B subunit were low compared with those obtained previously for SLT-I B subunit, probably because of instability of the multimeric SLT-II B subunit.

Published

1995

3. A Shiga Toxin B-Subunit-Based Lectibody Boosts T Cell Cytotoxicity towards Gb3-Positive Cancer Cells.

Author

Tomisch, Jana, Busse, Vincent, Rosato, Francesca, Makshakova, Olga N., Salavei, Pavel, Kittel, Anna-Sophia, Gillon, Emilie, Lataster, Levin, Imberty, Anne, Meléndez, Ana Valeria, and Römer, Winfried

Subjects

CANCER cells, ESCHERICHIA coli, TOXINS, GLYCAN structure, CELL receptors, T cells, IMMUNOGLOBULINS, T cell receptors

Abstract

Aberrant glycosylation plays a crucial role in tumour progression and invasiveness. Tumour-associated carbohydrate antigens (TACAs) represent a valuable set of targets for immunotherapeutic approaches. The poor immunogenicity of glycan structures, however, requires a more effective and well-directed way of targeting TACAs on the surface of cancer cells than antibodies. The glycosphingolipid globotriaosylceramide (Gb3) is a well-established TACA present in a multitude of cancer types. Its overexpression has been linked to metastasis, invasiveness, and multidrug resistance. In the present study, we propose to use a dimeric fragment of the Shiga toxin B-subunit (StxB) to selectively target Gb3-positive cancer cells in a StxB-scFv UCHT1 lectibody. The lectibody, comprised of a lectin and the UCHT1 antibody fragment, was produced in E. coli and purified via Ni-NTA affinity chromatography. Specificity of the lectibody towards Gb3-positive cancer cell lines and specificity towards the CD3 receptor on T cells, was assessed using flow cytometry. We evaluated the efficacy of the lectibody in redirecting T cell cytotoxicity towards Gb3-overexpressing cancer cells in luciferase-based cytotoxicity in vitro assays. The StxB-scFv UCHT1 lectibody has proven specific for Gb3 and could induce the killing of up to 80% of Gb3-overexpressing cancer cells in haemorrhagic and solid tumours. The lectibody developed in this study, therefore, highlights the potential that lectibodies and lectins in general have for usage in immunotherapeutic approaches to boost the efficacy of established cancer treatments. [ABSTRACT FROM AUTHOR]

Published

2023

4. Dynamic changes in Shiga toxin (Stx) 1 transducing phage throughout the evolution of O26:H11 Stx-producing Escherichia coli.

Author

Yano, Bungo, Taniguchi, Itsuki, Gotoh, Yasuhiro, Hayashi, Tetsuya, and Nakamura, Keiji

Subjects

ESCHERICHIA coli, BACTERIOPHAGES, TOXINS, IRON, GENETIC variation

Abstract

Shiga toxin (Stx) is the key virulence factor of Stx-producing Escherichia coli (STEC). All known Stxs (Stx1 and Stx2) are encoded by bacteriophages (Stx phages). Although the genetic diversity of Stx phages has frequently been described, systematic analyses of Stx phages in a single STEC lineage are limited. In this study, focusing on the O26:H11 STEC sequence type 21 (ST21) lineage, where the stx1a gene is highly conserved, we analysed the Stx1a phages in 39 strains representative of the entire ST21 lineage and found a high level of variation in Stx1a phage genomes caused by various mechanisms, including replacement by a different Stx1a phage at the same or different locus. The evolutionary timescale of events changing Stx1a phages in ST21 was also determined. Furthermore, by using an Stx1 quantification system developed in this study, we found notable variations in the efficiency of Stx1 production upon prophage induction, which sharply contrasted with the conserved iron regulated Stx1 production. These variations were associated with the Stx1a phage alteration in some cases but not in other cases; thus, Stx1 production in this STEC lineage was determined by differences not only in Stx1 phages but also in host-encoded factors. [ABSTRACT FROM AUTHOR]

Published

2023

5. Shiga Toxin (Stx) Type 1a and Stx2a Translocate through a Three-Layer Intestinal Model.

Author

Bova, Rebecca A., Lamont, Andrew C., Picou, Theodore J., Ho, Vincent B., Gilchrist, Kristin H., and Melton-Celsa, Angela R.

Subjects

HEMOLYTIC-uremic syndrome, TOXINS, ESCHERICHIA coli, EPITHELIAL cells, ENDOTHELIAL cells

Abstract

Shiga toxins (Stxs) produced by ingested E. coli can induce hemolytic uremic syndrome after crossing the intact intestinal barrier, entering the bloodstream, and targeting endothelial cells in the kidney. The method(s) by which the toxins reach the bloodstream are not fully defined. Here, we used two polarized cell models to evaluate Stx translocation: (i) a single-layer primary colonic epithelial cell model and (ii) a three-cell-layer model with colonic epithelial cells, myofibroblasts, and colonic endothelial cells. We traced the movement of Stx types 1a and 2a across the barrier models by measuring the toxicity of apical and basolateral media on Vero cells. We found that Stx1a and Stx2a crossed both models in either direction. However, approximately 10-fold more Stx translocated in the three-layer model as compared to the single-layer model. Overall, the percentage of toxin that translocated was about 0.01% in the epithelial-cell-only model but up to 0.09% in the three-cell-layer model. In both models, approximately 3- to 4-fold more Stx2a translocated than Stx1a. Infection of the three-cell-layer model with Stx-producing Escherichia coli (STEC) strains showed that serotype O157:H7 STEC reduced barrier function in the model and that the damage was not dependent on the presence of the eae gene. Infection of the three-layer model with O26:H11 STEC strain TW08571 (Stx1a+ and Stx2a+), however, allowed translocation of modest amounts of Stx without reducing barrier function. Deletion of stx2a from TW08571 or the use of anti-Stx1 antibody prevented translocation of toxin. Our results suggest that single-cell models may underestimate the amount of Stx translocation and that the more biomimetic three-layer model is suited for Stx translocation inhibitor studies. [ABSTRACT FROM AUTHOR]

Published

2023

6. Intestinal mucus-derived metabolites modulate virulence of a clade 8 enterohemorrhagic Escherichia coli O157:H7.

Author

Garimano, Nicolás, Scalise, María Luján, Gómez, Fernando, Amaral, María Marta, and Ibarra, Cristina

Subjects

ESCHERICHIA coli O157:H7, METABOLITES, ESCHERICHIA coli, GALACTOSE, INTESTINES, HEMOLYTIC-uremic syndrome

Abstract

The human colonic mucus is mainly composed of mucins, which are highly glycosylated proteins. The normal commensal colonic microbiota has mucolytic activity and is capable of releasing the monosaccharides contained in mucins, which can then be used as carbon sources by pathogens such as Enterohemorrhagic Escherichia coli (EHEC). EHEC can regulate the expression of some of its virulence factors through environmental sensing of mucus-derived sugars, but its implications regarding its main virulence factor, Shiga toxin type 2 (Stx2), among others, remain unknown. In the present work, we have studied the effects of five of the most abundant mucolytic activity-derived sugars, Fucose (L-Fucose), Galactose (D-Galactose), N-Gal (N-acetylgalactosamine), NANA (N-Acetyl-Neuraminic Acid) and NAG (N-Acetyl-D-Glucosamine) on EHEC growth, adhesion to epithelial colonic cells (HCT-8), and Stx2 production and translocation across a polarized HCT-8 monolayer. We found that bacterial growth was maximum when using NAG and NANA compared to Galactose, Fucose or N-Gal, and that EHEC adhesion was inhibited regardless of the metabolite used. On the other hand, Stx2 production was enhanced when using NAG and inhibited with the rest of the metabolites, whilst Stx2 translocation was only enhanced when using NANA, and this increase occurred only through the transcellular route. Overall, this study provides insights on the influence of the commensal microbiota on the pathogenicity of E. coli O157:H7, helping to identify favorable intestinal environments for the development of severe disease. [ABSTRACT FROM AUTHOR]

Published

2022

7. Shiga Toxin Glycosphingolipid Receptors in Human Caco-2 and HCT-8 Colon Epithelial Cell Lines.

Author

Kouzel, Ivan U., Pohlentz, Gottfried, Schmitz, Julia S., Steil, Daniel, Humpf, Hans-Ulrich, Karch, Helge, and Müthing, Johannes

Subjects

GLYCOSPHINGOLIPIDS, EPITHELIAL cells, CELL-mediated cytotoxicity, COLON (Anatomy), ESCHERICHIA coli, CELL lines

Abstract

Shiga toxins (Stxs) released by enterohemorrhagic Escherichia coli (EHEC) into the human colon are the causative agents for fatal outcome of EHEC infections. Colon epithelial Caco-2 and HCT-8 cells are widely used for investigating Stx-mediated intestinal cytotoxicity. Only limited data are available regarding precise structures of their Stx receptor glycosphingolipids (GSLs) globotriaosylceramide (Gb3Cer) and globotetraosylceramide (Gb4Cer), and lipid raft association. In this study we identified Gb3Cer and Gb4Cer lipoforms of serum-free cultivated Caco-2 and HCT-8 cells, chiefly harboring ceramide moieties composed of sphingosine (d18:1) and C16:0, C22:0 or C24:0/C24:1 fatty acid. The most significant difference between the two cell lines was the prevalence of Gb3Cer with C16 fatty acid in HCT-8 and Gb4Cer with C22-C24 fatty acids in Caco-2 cells. Lipid compositional analysis of detergent-resistant membranes (DRMs), which were used as lipid raft-equivalents, indicated slightly higher relative content of Stx receptor Gb3Cer in DRMs of HCT-8 cells when compared to Caco-2 cells. Cytotoxicity assays revealed substantial sensitivity towards Stx2a for both cell lines, evidencing little higher susceptibility of Caco-2 cells versus HCT-8 cells. Collectively, Caco-2 and HCT-8 cells express a plethora of different receptor lipoforms and are susceptible towards Stx2a exhibiting somewhat lower sensitivity when compared to Vero cells. [ABSTRACT FROM AUTHOR]

Published

2017

8. Shiga Toxins Induce Apoptosis and ER Stress in Human Retinal Pigment Epithelial Cells.

Author

Jun-Young Park, Yu-Jin Jeong, Sung-Kyun Park, Sung-Jin Yoon, Song Choi, Dae Gwin Jeong, Su Wol Chung, Byung Joo Lee, Jeong Hun Kim, Tesh, Vernon L., Moo-Seung Lee, and Young-Jun Park

Subjects

BACTERIAL toxins, APOPTOSIS, ENDOPLASMIC reticulum, EPITHELIAL cells, ESCHERICHIA coli

Abstract

Shiga toxins (Stxs) produced by Shiga toxin-producing bacteria Shigella dysenteriae serotype 1 and select serotypes of Escherichia coli are the most potent known virulence factors in the pathogenesis of hemorrhagic colitis progressing to potentially fatal systemic complications such as acute renal failure, blindness and neurological abnormalities. Although numerous studies have defined apoptotic responses to Shiga toxin type 1 (Stx1) or Shiga toxin type 2 (Stx2) in a variety of cell types, the potential significance of Stx-induced apoptosis of photoreceptor and pigmented cells of the eye following intoxication is unknown. We explored the use of immortalized human retinal pigment epithelial (RPE) cells as an in vitro model of Stx-induced retinal damage. To the best of our knowledge, this study is the first report that intoxication of RPE cells with Stxs activates both apoptotic cell death signaling and the endoplasmic reticulum (ER) stress response. Using live-cell imaging analysis, fluorescently labeled Stx1 or Stx2 were internalized and routed to the RPE cell endoplasmic reticulum. RPE cells were significantly sensitive to wild type Stxs by 72 h, while the cells survived challenge with enzymatically deficient mutant toxins (Stx1A- or Stx2A-). Upon exposure to purified Stxs, RPE cells showed activation of a caspase-dependent apoptotic program involving a reduction of mitochondrial transmembrane potential (Δψm), increased activation of ER stress sensors IRE1, PERK and ATF6, and overexpression CHOP and DR5. Finally, we demonstrated that treatment of RPE cells with Stxs resulted in the activation of c-Jun N-terminal kinase (JNK) and p38 mitogen-activated protein kinase (p38MAPK), suggesting that the ribotoxic stress response may be triggered. Collectively, these data support the involvement of Stx-induced apoptosis in ocular complications of intoxication. The evaluation of apoptotic responses to Stxs by cells isolated from multiple organs may reveal unique functional patterns of the cytotoxic actions of these toxins in the systemic complications that follow ingestion of toxin-producing bacteria. [ABSTRACT FROM AUTHOR]

Published

2017

9. Shiga Toxin Therapeutics: Beyond Neutralization.

Author

Hall, Gregory, Shinichiro Kurosawa, and Stearns-Kurosawa, Deborah J.

Subjects

GASTROINTESTINAL diseases, ESCHERICHIA coli, HEMOLYTIC-uremic syndrome, KIDNEY failure, DRUG development, PATIENTS

Abstract

Ribotoxic Shiga toxins are the primary cause of hemolytic uremic syndrome (HUS) in patients infected with Shiga toxin-producing enterohemorrhagic Escherichia coli (STEC), a pathogen class responsible for epidemic outbreaks of gastrointestinal disease around the globe. HUS is a leading cause of pediatric renal failure in otherwise healthy children, resulting in a mortality rate of 10% and a chronic morbidity rate near 25%. There are currently no available therapeutics to prevent or treat HUS in STEC patients despite decades of work elucidating the mechanisms of Shiga toxicity in sensitive cells. The preclinical development of toxin-targeted HUS therapies has been hindered by the sporadic, geographically dispersed nature of STEC outbreaks with HUS cases and the limited financial incentive for the commercial development of therapies for an acute disease with an inconsistent patient population. The following review considers potential therapeutic targeting of the downstream cellular impacts of Shiga toxicity, which include the unfolded protein response (UPR) and the ribotoxic stress response (RSR). Outcomes of the UPR and RSR are relevant to other diseases with large global incidence and prevalence rates, thus reducing barriers to the development of commercial drugs that could improve STEC and HUS patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2017

10. INACTIVATION OF SHIGA-TOXIN PRODUCING Escherichia coli (STEC) O157: H7 IN MILK BY COMBINED TREATMENT WITH HIGH HYDROSTATIC PRESSURE AND AQUEOUS POMEGRANATE EXTRACT.

Author

Bernedo-Navarro, Robert Alvin, Durães-Carvalho, Ricardo, de Souza, Ancelmo Rabelo, Miyachiro, Mayara Mayele, Bonafe, Carlos Francisco Sampaio, and Yano, Tomomasa

Subjects

VEROCYTOTOXINS, ESCHERICHIA coli, HYDROSTATIC pressure, POMEGRANATE, MILK microbiology, ENDOTHELIAL cells

Abstract

The aim of this work was to evaluate the synergistic effect of combined treatment with high hydrostatic pressure (HHP) and an aqueous extract of Punica granatum (pomegranate) peels on the survival of Shiga toxin-producing Escherichia coli (STEC). Our results showed that HHP (250 MPa, 60 min, 25℃) reduced the STEC bacterial load in milk and tryptic soy broth culture medium by about 2.5 and 3.5 logs, respectively. Under these conditions, HHP did not alter the cytotoxicity of Shiga toxins in Vero and human umbilical vein endothelial cells. Treatment with up to 30 mg of pomegranate extract/mL caused negligible inactivation, but a combination of HHP and pomegranate extract (3 mg/mL) produced bacterial inactivation from 109 CFU/mL to undetectable levels of viable bacteria. These findings suggest that a combination of HHP and pomegranate extract may be potentially effective in bacterial inactivation during food processing, particularly in the elimination of important foodborne pathogens such as STEC. [ABSTRACT FROM AUTHOR]

Published

2016

11. Shiga Toxin (Stx) Type 1a Reduces the Oral Toxicity of Stx Type 2a.

Author

Russo, Lisa M., Melton-Celsa, Angela R., and O'Brien, Alison D.

Subjects

VEROCYTOTOXINS, MICROBIAL virulence, ESCHERICHIA coli, AUTO-intoxication, TOXICITY testing, ACUTE kidney failure, ANIMAL experimentation, BACTERIAL toxins, KIDNEYS, MICE, ORAL drug administration, RESEARCH funding, SURVIVAL analysis (Biometry)

Abstract

Background: Shiga toxin (Stx) is the primary virulence factor of Stx-producing Escherichia coli (STEC). STEC can produce Stx1a and/or Stx2a, which are antigenically distinct. However, Stx2a-producing STEC are associated with more severe disease than strains producing both Stx1a and Stx2a.Methods and Results: To address the hypothesis that the reason for the association of Stx2a with more severe disease is because Stx2a crosses the intestinal barrier with greater efficiency that Stx1a, we covalently labeled Stx1a and Stx2a with Alexa Fluor 750 and determined the ex vivo fluorescent intensity of murine systemic organs after oral intoxication. Surprisingly, both Stxs exhibited similar dissemination patterns and accumulated in the kidneys. We next cointoxicated mice to determine whether Stx1a could impede Stx2a. Cointoxication resulted in increased survival and an extended mean time to death, compared with intoxication with Stx2a only. The survival benefit was dose dependent, with the greatest effect observed when 5 times more Stx1a than Stx2a was delivered, and was amplified when Stx1a was delivered 3 hours prior to Stx2a. Cointoxication with an Stx1a active site toxoid also reduced Stx2a toxicity.Conclusions: These studies suggest that Stx1a reduces Stx2a-mediated toxicity, a finding that may explain why STEC that produce only Stx2a are associated with more severe disease than strains producing Stx1a and Stx2a. [ABSTRACT FROM AUTHOR]

Published

2016

12. Rapid Detection of Escherichia coli O157 and Shiga Toxins by Lateral Flow Immunoassays.

Author

Jinliang Wang, Katani, Robab, Lingling Li, Hegde, Narasimha, Roberts, Elisabeth L., Kapur, Vivek, and DebRoy, Chitrita

Subjects

ESCHERICHIA coli, IMMUNOASSAY, COLLOIDAL gold, FOODBORNE diseases, FOOD industry

Abstract

Shiga toxin-producing Escherichia coli O157:H7 (STEC) cause food-borne illness that may be fatal. STEC strains enumerate two types of potent Shiga toxins (Stx1 and Stx2) that are responsible for causing diseases. It is important to detect the E. coli O157 and Shiga toxins in food to prevent outbreak of diseases. We describe the development of two multi-analyte antibody-based lateral flow immunoassays (LFIA); one for the detection of Stx1 and Stx2 and one for the detection of E. coli O157 that may be used simultaneously to detect pathogenic E. coli O157:H7. The LFIA strips were developed by conjugating nano colloidal gold particles with monoclonal antibodies against Stx1 and Stx2 and anti-lipid A antibodies to capture Shiga toxins and O157 antigen, respectively. Our results indicate that the LFIA for Stx is highly specific and detected Stx1 and Stx2 within three hours of induction of STEC with ciprofloxacin at 37 °C. The limit of detection for E. coli O157 LFIA was found to be 105 CFU/mL in ground beef spiked with the pathogen. The LFIAs are rapid, accurate and easy to use and do not require sophisticated equipment or trained personnel. Following the assay, colored bands on the membrane develop for end-point detection. The LFIAs may be used for screening STEC in food and the environment. [ABSTRACT FROM AUTHOR]

Published

2016

13. Effect of adipose tissue-derived mesenchymal stem cell treatment on oxidative stress and inflammatory response following Escherichia coli lipopolysaccharide.

Author

Abdel-Salam, Omar, Youness, Eman, Omara, Enayat, and Sleem, Amany

Subjects

ADIPOSE tissues, STEM cell treatment, MESENCHYMAL stem cells, OXIDATIVE stress, INFLAMMATION, ENDOTOXINS, ESCHERICHIA coli, GLUTATHIONE

Abstract

Stem cells are the focus of extensive experimental and clinical research with the aim of replacing lost or damaged tissues. This paper studies the effect of systemic stem cell injections on the redox status of the brain and liver in a model of systemic inflammatory illness. Mice were treated with intraperitoneal (i.p.) injection of adipose tissue-derived mesenchymal stem cell (AT-MSCs) suspension, or saline at time of lipopolysaccharide (LPS; 200 mg/kg, i.p.) administration and euthanized 4 h later. Results show that the administration of LPS increased the oxidative stress in the brain and liver tissues. Malondialdehyde (MDA) increased by 53 and 68.9 %, reduced glutathione (GSH) decreased by 44.4 and 50.6 %, and nitric oxide increased by 47.7 and 87.2 % in the brain and liver, respectively. Total antioxidant capacity (TAC) decreased by 37.8 and 76.2 %, catalase activity decreased by 58.2 and 29.2 %, and paraoxonase 1 (PON1) activity decreased by 53.1 and 22.5 % in the brain and liver, respectively. In addition, nuclear factor kappa B (NF-κB) and the monocyte chemoattractant protein-1 (MCP-1) increased in the brain and liver, respectively, after endotoxin injection. Mice treated with AT-MSCs showed unchanged MDA, increased brain GSH (45.5 %), TAC (171.1 %), catalase activity (58.4 %), and PON1 activity (110.4 %). In the liver, MDA and catalase activity were unchanged, but TAC decreased by −36.7 % and PON1 activity decreased by −22.8 %. NF-κB decreased in the liver, while MCP-1 decreased in the brain and liver by AT-MSCs treatment. AT-MSCs reduced inflammatory cell infiltration and necrotic damage in the liver and markedly decreased the number of degenerated neurons in the cortex and striatum in LPS-treated mice. Stem cell treatment was associated with lower tumor necrosis factor-alpha (TNF-α), inducible nitric oxide synthase (iNOS), and caspase-3 immunoreactivity in the brain (cortex and striatum) and liver tissues compared to that in the LPS control group. Thus, the systemic administration of AT-MSCs suspension in a model of mild systemic illness modulates the cellular oxidative response and exerts anti-inflammatory effect. AT-MSCs prevent tissue injury via decreased nitric oxide generation due to iNOS expression and decreased activation of caspase-3, TNF-α, and MCP-1. [ABSTRACT FROM AUTHOR]

Published

2015

14. The Presence of the pAA Plasmid in the German O104:H4 Shiga Toxin Type 2a (Stx2a)–Producing Enteroaggregative Escherichia coli Strain Promotes the Translocation of Stx2a Across an Epithelial Cell Monolayer.

Author

Boisen, Nadia, Hansen, Anne-Marie, Melton-Celsa, Angela R., Zangari, Tonia, Mortensen, Ninell Pollas, Kaper, James B., O'Brien, Alison D., and Nataro, James P.

Subjects

PLASMID genetics, VEROCYTOTOXINS, DIARRHEA, GENETIC regulation, VIRULENCE of Escherichia coli, ISOLATION of biotechnological microorganisms, EPITHELIAL cells, ETIOLOGY of diseases, ESCHERICHIA coli

Abstract

Background A Shiga toxin type 2a (Stx2a)–producing enteroaggregative Escherichia coli (EAEC) strain of serotype O104:H4 caused a large outbreak in 2011 in northern Europe. Pathogenic mechanisms for this strain are unclear. We hypothesized that EAEC genes encoded on the pAA virulence plasmid promoted the translocation of Stx2a across the intestinal mucosa. Methods We investigated the potential contribution of pAA by using mutants of Stx-EAEC strain C227-11, either cured of the pAA plasmid or deleted for individual known pAA-encoded virulence genes (ie, aggR, aggA, and sepA). The resulting mutants were tested for their ability to induce interleukin 8 (IL-8) secretion and translocation of Stx2a across a polarized colonic epithelial (T84 cell) monolayer. Results We found that deletion of aggR or aggA significantly reduced bacterial adherence and (independently) translocation of Stx2a across the T84-cell monolayer. Moreover, deletion of aggR, aggA, sepA, or the Stx2a-encoding phage from C227-11 resulted in reduced secretion of IL-8 from the infected monolayer. Conclusions Our data suggest that the AggR-regulated aggregative adherence fimbriae I enhance inflammation and enable the outbreak strain to both adhere to epithelial cells and translocate Stx2a across the intestinal epithelium. [ABSTRACT FROM AUTHOR]

Published

2014

15. Zinc protects against shiga-toxigenic Escherichia coli by acting on host tissues as well as on bacteria.

Author

Crane, John K., Broome, Jackie E., Reddinger, Ryan M., and Werth, Benjamin B.

Subjects

ZINC supplements, ESCHERICHIA coli, INTESTINAL infections, DIARRHEA prevention, BACTERIAL growth, MICROBIAL virulence, PREVENTION

Abstract

Background Zinc supplements can treat or prevent enteric infections and diarrheal disease. Many articles on zinc in bacteria, however, highlight the essential nature of this metal for bacterial growth and virulence, suggesting that zinc should make infections worse, not better. To address this paradox, we tested whether zinc might have protective effects on intestinal epithelium as well as on the pathogen. Results Sing polarized monolayers of T84 cells we found that zinc protected against damage induced by hydrogen peroxide, as measured by trans-epithelial electrical resistance. Zinc also reduced peroxide-induced translocation of Shiga toxin (Stx) across T84 monolayers from the apical to basolateral side. Zinc was superior to other divalent metals to (iron, manganese, and nickel) in protecting against peroxide-induced epithelial damage, while copper also showed a protective effect. The SOS bacterial stress response pathway is a powerful regulator of Stx production in STEC. We examined whether zinc's known inhibitory effects on Stx might be mediated by blocking the SOS response. Zinc reduced expression of recA, a reliable marker of the SOS. Zinc was more potent and more efficacious than other metals tested in inhibiting recA expression induced by hydrogen peroxide, xanthine oxidase, or the antibiotic ciprofloxacin. The close correlation between zinc's effects on recA/SOS and on Stx suggested that inhibition of the SOS response is one mechanism by which zinc protects against STEC infection. Conclusions Zinc's ability to protect against enteric bacterial pathogens may be the result of its combined effects on host tissues as well as inhibition of virulence in some pathogens. Research focused solely on the effects of zinc on pathogenic microbes may give an incomplete picture by failing to account for protective effects of zinc on host epithelia. [ABSTRACT FROM AUTHOR]

Published

2014

16. Virulence profiling of Shiga toxin-producing Escherichia coli recovered from domestic farm animals in Northwestern Mexico.

Author

Amézquita-López, Bianca A., Quiñones, Beatriz, Lee, Bertram G., and Chaidez, Cristóbal

Subjects

MICROBIAL virulence, ESCHERICHIA coli, ENTEROBACTERIACEAE, EUKARYOTES, ESCHERICHIA coli toxins

Abstract

Shiga toxin-producing Escherichia coli (STEC) is a zoonotic enteric pathogen that causes human gastrointestinal illnesses. The present study characterized the virulence profiles of O157 and non-O157 STEC strains, recovered from domestic animals in small rural farms within the agricultural Culiacan Valley in Mexico. Virulence genes coding for adhesins, cytotoxins, proteases, subtypes of Shiga toxin (Stx), and other effectors were identified in the STEC strains by PCR. The genotyping analysis revealed the presence of the effectors nleA, nleB, nleE, and nleH1-2, espK, and espN in the O157:H7 and O111:H8 STEC strains. Furthermore, the genes encoding the autoagglutinating adhesin (Saa) and subtilase (SubA) were exclusively identified in the O8:H19 eae-negative strains. The adhesin (iha) and the silent hemolysin (sheA) genes were detected in 79% of the O157 and non-O157 strains. To examine the relative toxicities of the STEC strains, a fluorescent Vero cell line, Vero-d2EGFPs, was employed to measure the inhibition of protein synthesis by Stx. Analysis of culture supernatants from serotype O8:H19 strains with the stx gene profile stx1a, stx2a, and stx2c and serotypes O75:H8 and O146:H8 strains with the stx gene profile stx1a, stx1c, and stx2b, resulted in a significant reduction in the Vero-d2EGFP fluorescent signal. These observations suggest that these non-O157 strains may have an enhanced ability to inhibit protein synthesis in Vero cells. Interestingly, analysis of the stx2c-positive O157:H7 strains resulted in a high fluorescent signal, indicating a reduced toxicity in the Vero-d2EGFP cells. These findings indicate that the O157 and non-O157 STEC strains, recovered in the Culiacan Valley, display distinct virulence profiles and relative toxicities in mammalian cells and have provided information for evaluating risks associated with zoonotic STEC in this agricultural region in Mexico. [ABSTRACT FROM AUTHOR]

Published

2014

17. Advances in pathogenesis and therapy of hemolytic uremic syndrome caused by shiga toxin-2.

Author

Ibarra, Cristina, Amaral, María Marta, and Palermo, Marina S.

Subjects

HEMOLYTIC-uremic syndrome, TOXINS, GENOMES, SEROTYPES, ESCHERICHIA coli

Abstract

Shiga toxin (Stx) producing Escherichia coli (STEC) is responsible to bloody diarrhea (hemorrhagic colitis) and the hemolytic uremic syndrome (HUS). STEC strains carry inducible lambda phages integrated into their genomes that encode Stx 1 and/or 2, with several allelic variants each one. O157:H7 is the serotype that was documented in the vast majority of HUS cases although non-O157 serotypes have been increasingly reported to account for HUS cases. However, the outbreak that occurred in central Europe during late spring of 2011 showed that the pathogen was E. coli O104:H4. More than 4,000 persons were infected mainly in Germany, and it produced more than 900 cases of HUS resulting in 54 deaths. E. coli O104:H4 is a hybrid organism that combines some of the virulence genes of STEC and enteroaggregative E. coli specially production of Stx2 and the adherence mechanisms to intestinal epithelium. The differences in the epidemiology and presentation of E. coli pathogen meant a challenge for public health and scientific research to increase the knowledge of HUS-pathophysiology and to improve available therapies to treat HUS. © 2013 IUBMB Life, 65(10):827-835, 2013 [ABSTRACT FROM AUTHOR]

Published

2013

18. Large-scale preparation of Shiga toxin 2 in Escherichia coli for toxoid vaccine antigen production.

Author

Arimitsu, Hideyuki, Sasaki, Keiko, Shimizu, Takeshi, Tsukamoto, Kentaro, Shimizu, Toshiyasu, and Tsuji, Takao

Subjects

VEROCYTOTOXINS, ESCHERICHIA coli, ANTIGENS, BACTERIAL vaccines, HEMORRHAGE, COLITIS, SEROTYPES, DRUG development, GENE expression, LABORATORY mice

Abstract

Enterohemorrhagic Escherichia coli (EHEC) causes hemorrhagic colitis, and in more severe cases, a serious clinical complication called hemolytic uremic syndrome (HUS). Shiga toxin (Stx)is one of the factors that cause HUS. Serotypes of Stx produced by EHEC include Stx1 and Stx2. Although some genetically mutated toxoids of Stx have been developed, large-scale preparation of Stx that is practical for vaccine development has not been reported. Therefore, overexpression methods for Stx2 and mutant Stx2 (mStx2) in E. coli were developed. The expression plasmid pBSK-Stx2(His) was constructed by inserting the full-length Stx2 gene, in which a six-histidine tag gene was fused at the end of the B subunit into the lacZα fragment gene of the pBluescript II SK(+) vector. An E. coli MV1184 strain transformed with pBSK-Stx2(His) overexpressed histidine-tagged Stx2 (Stx2-His) in cells cultured in CAYE broth in the presence of lincomycin. Stx2-His was purified using TALON metal affinity resin followed by hydroxyapatite chromatography. From 1 L of culture, 68.8 mg of Stx2-His and 61.1 mg of mStx2-His, which was generated by site-directed mutagenesis, were obtained. Stx2-His had a cytotoxic effect on HeLa cells and was lethal to mice. However, the toxicity of mStx2-His was approximately 1000-fold lower than that of Stx2-His. Mice immunized with mStx2-His produced specific antibodies that neutralized the toxicity of Stx2 in HeLa cells. Moreover, these mice survived challenge with high doses of Stx2-His. Therefore, the lincomycin-inducible overexpression method is suitable for large-scale preparation of Stx2 vaccine antigens. [ABSTRACT FROM AUTHOR]

Published

2013

19. Shiga toxin 2-induced intestinal pathology in infant rabbits is A-subunit dependent and responsive to the tyrosine kinase and potential ZAK inhibitor imatinib.

Author

Stone, Samuel M., Thorpe, Cheleste M., Ahluwalia, Amrita, Rogers, Arlin B., Obata, Fumiko, Vozenilek, Aimee, Kolling, Glynis L., Kane, Anne V., Magun, Bruce E., and Jandhyala, Dakshina M.

Subjects

PROTEIN-tyrosine kinases, FOODBORNE diseases, ESCHERICHIA coli, VEROCYTOTOXINS, RABBITS, THERAPEUTICS, ANIMAL models in research

Abstract

Shiga toxin producing Escherichia coli (STEC) are a major cause of food-borne illness worldwide. However, a consensus regarding the role Shiga toxins play in the onset of diarrhea and hemorrhagic colitis (HC) is lacking. One of the obstacles to understanding the role of Shiga toxins to STEC-mediated intestinal pathology is a deficit in small animal models that perfectly mimic human disease. Infant rabbits have been previously used to study STEC and/or Shiga toxin-mediated intestinal inflammation and diarrhea. We demonstrate using infant rabbits that Shiga toxin-mediated intestinal damage requires A-subunit activity, and like the human colon, that of the infant rabbit expresses the Shiga toxin receptor Gb3. We also demonstrate that Shiga toxin treatment of the infant rabbit results in apoptosis and activation of p38 within colonic tissues. Finally we demonstrate that the infant rabbit model may be used to test candidate therapeutics against Shiga toxin-mediated intestinal damage. While the p38 inhibitor SB203580 and the ZAK inhibitor DHP-2 were ineffective at preventing Shiga toxin-mediated damage to the colon, pretreatment of infant rabbits with the drug imatinib resulted in a decrease of Shiga toxin-mediated heterophil infiltration of the colon. Therefore, we propose that this model may be useful in elucidating mechanisms by which Shiga toxins could contribute to intestinal damage in the human. [ABSTRACT FROM AUTHOR]

Published

2012

20. Interaction between Shiga Toxin and Monoclonal Antibodies: Binding Characteristics and in Vitro Neutralizing Abilities.

Author

Rocha, Letícia B., Luz, Daniela E., Moraes, Claudia T. P., Caravelli, Andressa, Fernandes, Irene, Guth, Beatriz E. C., Horton, Denise S. P. Q., and Piazza, Roxane M. F.

Subjects

IMMUNOGLOBULINS, PATHOGENIC microorganisms, TOXINS, ANTIGENS, ESCHERICHIA coli, IMMUNOPHARMACOLOGY, BACTERIAL toxins

Abstract

Monoclonal antibodies (MAbs) have been employed either for diagnosis or treatment of infections caused by different pathogens. Specifically for Shiga toxin-producing Escherichia coli (STEC), numerous immunoassays have been developed for STEC diagnosis, showing variability in sensitivity and specificity when evaluated by reference laboratories, and no therapy or vaccines are currently approved. Thus, the aim of this work was the characterization of the interaction between MAbs against Stx1 and Stx2 toxins and their neutralizing abilities to enable their use as tools for diagnosis and therapy. The selected clones designated 3E2 (anti-Stx1) and 2E11 (anti-Stx2) were classified as IgG1. 3E2 recognized the B subunit of Stx1 with an affinity constant of 2.5 × 10-10 M, detected as little as 6.2 ng of Stx1 and was stable up to 50 °C. In contrast, 2E11 recognized the A subunit of Stx2, was stable up to 70 °C, had a high dissociation constant of 6.1 × 10-10 M, and detected as little as 12.5 ng of Stx2. Neutralization tests showed that 160 ng of 3E2 MAb inhibited 80% of Stx1 activity and 500 μg 2E11 MAb were required for 60% inhibition of Stx2 activity. These MAb amounts reversed 25 to 80% of the cytotoxicity triggered by different STEC isolates. In conclusion, these MAbs show suitable characteristics for their use in STEC diagnosis and encourage future studies to investigate their protective efficacy. [ABSTRACT FROM AUTHOR]

Published

2012

21. Promiscuous Shiga toxin 2e and its intimate relationship to Forssman.

Author

Müthing, Johannes, Meisen, Iris, Zhang, Wenlan, Bielaszewska, Martina, Mormann, Michael, Bauerfeind, Rolf, Schmidt, M Alexander, Friedrich, Alexander W, and Karch, Helge

Subjects

VEROCYTOTOXINS, MICROBIAL virulence, SWINE diseases, ESCHERICHIA coli, EDEMA, HEMORRHAGIC diseases, MASS spectrometry

Abstract

Shiga toxin (Stx) 2e of Stx-producing Escherichia coli (STEC) represents the major virulence factor responsible for the pig edema disease which is characterized by hemorrhagic lesions, neurological disorders and often fatal outcomes. Stx2e-producing strains from the intestine of slaughtered pigs (n = 3), feces of piglets with postweaning diarrhea or edema disease (n = 12) and feces of humans with asymptomatic infections or mild diarrhea (n = 13) were comparatively analyzed for the binding specificities of Stx2e to glycosphingolipids (GSLs) of the globo-series. Besides equivalent binding towards globotriaosylceramide (Gb3Cer) and globotetraosylceramide (Gb4Cer), we could demonstrate specific interaction of Stx2e preparations from human and porcine STEC isolates with Forssman GSL. Notably, Forssman GSL was recognized neither by structurally closely related Stx2 nor by Stx1 derived from human STEC isolates conferring Stx2e a unique recognition feature. Noteworthy, 7 (54%) of the 13 human and 8 (53%) of the 15 pig Stx2e samples exhibited cytotoxic action towards human brain microvascular endothelial cells. Our findings provide a basis for further exploring the functional role of the promiscuous receptor repertoire of Stx2e and the exact nature of the mechanisms that underlie different pathological outcomes of Stx2e-producing STEC in humans and pigs. [ABSTRACT FROM PUBLISHER]

Published

2012

22. Charged and Hydrophobic Surfaces on the A Chain of Shiga-Like Toxin 1 Recognize the C-Terminal Domain of Ribosomal Stalk Proteins.

Author

McCluskey, Andrew J., Bolewska-Pedyczak, Eleonora, Jarvik, Nick, Gang Chen, Sidhu, Sachdev S., and Gariépy, Jean

Subjects

VEROCYTOTOXINS, RIBOSOME-inactivating proteins, ESCHERICHIA coli, COLITIS, HEMOLYTIC-uremic syndrome

Abstract

Shiga-like toxins are ribosome-inactivating proteins (RIP) produced by pathogenic E. coli strains that are responsible for hemorrhagic colitis and hemolytic uremic syndrome. The catalytic A1 chain of Shiga-like toxin 1 (SLT-1), a representative RIP, first docks onto a conserved peptide SD[D/E]DMGFGLFD located at the C-terminus of all three eukaryotic ribosomal stalk proteins and halts protein synthesis through the depurination of an adenine base in the sarcin-ricin loop of 28S rRNA. Here, we report that the A1 chain of SLT-1 rapidly binds to and dissociates from the C-terminal peptide with a monomeric dissociation constant of 13 μM. An alanine scan performed on the conserved peptide revealed that the SLT-1 A1 chain interacts with the anionic tripeptide DDD and the hydrophobic tetrapeptide motif FGLF within its sequence. Based on these 2 peptide motifs, SLT-1 A1 variants were generated that displayed decreased affinities for the stalk protein C-terminus and also correlated with reduced ribosome-inactivating activities in relation to the wild-type A1 chain. The toxin-peptide interaction and subsequent toxicity were shown to be mediated by cationic and hydrophobic docking surfaces on the SLT-1 catalytic domain. These docking surfaces are located on the opposite face of the catalytic cleft and suggest that the docking of the A1 chain to SDDDMGFGLFD may reorient its catalytic domain to face its RNA substrate. More importantly, both the delineated A1 chain ribosomal docking surfaces and the ribosomal peptide itself represent a target and a scaffold, respectively, for the design of generic inhibitors to block the action of RIPs. [ABSTRACT FROM AUTHOR]

Published

2012

23. Mouse model for hemolytic uremic syndrome induced by outer membrane vesicles of E scherichia coli O157: H7.

Author

Kim, Sang-Hyun, Lee, Yong-Hoon, Lee, Sang-Ho, Lee, Sang-Rae, Huh, Jae-Won, Kim, Sun-Uk, and Chang, Kyu-Tae

Subjects

HEMOLYTIC-uremic syndrome, ESCHERICHIA coli, ACUTE kidney failure, THROMBOCYTOPENIA, HEMOLYTIC anemia, VEROCYTOTOXINS, CELL membranes, LABORATORY mice

Abstract

Hemolytic uremic syndrome ( HUS) is characterized by acute renal failure in children and is typically complicated with thrombocytopenia and hemolytic anemia. Although mouse models of HUS have been evaluated using Shiga toxin ( STx) combined with or without lipopolysaccharide ( LPS), no HUS model has been tested using purified outer membrane vesicles ( OMVs) from STx-producing E scherichia coli ( STEC) O157: H7. Accordingly, we investigated whether OMVs of STEC O157: H7 conveying STx2 and LPS can cause HUS-like symptoms in mice inoculated intraperitoneally. Three types of OMVs differing in LPS acylation status and STx2 amount were used to compare their ability to induce HUS-like symptoms. Native OMVs ( nOMV) with fully hexa-acylated LPS caused HUS-like symptoms at 72-96 h after dually divided injections of 1 μg nOMV per animal. However, elevated doses of modified OMVs ( mOMV) carrying mainly penta-acylated LPS were required to induce similar HUS signs. Moreover, mitomycin- C-induced OMVs ( mcOMV) that were enriched with STx2 induced HUS-like symptoms similar to those of nOMV at the same dose. These results suggest that the OMVs of STEC O157: H7 potentiated with STx2 and fully hexa-acylated LPS can be utilized for inducing HUS-like symptoms in mice and could be the causative material involved in the development of HUS. [ABSTRACT FROM AUTHOR]

Published

2011

24. Specific Egg Yolk Immunoglobulin as a New Preventive Approach for Shiga-Toxin-Mediated Diseases.

Author

Neri, Paola, Tokoro, Shunji, Kobayashi, Ryo, Sugiyama, Tsuyoshi, Umeda, Kouji, Shimizu, Takeshi, Tsuji, Takao, Kodama, Yoshikatsu, Oguma, Keiji, and Mori, Hiroshi

Subjects

ESCHERICHIA coli, IMMUNOGLOBULINS, TOXINS, INFECTION, BLOOD proteins

Abstract

Shiga toxins (Stxs) are involved in the development of severe systemic complications associated with enterohemorrhagic Escherichia coli (EHEC) infection. Various neutralizing agents against Stxs are under investigation for management of EHEC infection. In this study, we immunized chickens with formalin-inactivated Stx-1 or Stx-2, and obtained immunoglobulin Y (IgY) from the egg yolk. Anti-Stx-1 IgY and anti-Stx-2 IgY recognized the corresponding Stx A subunit and polymeric but not monomeric B subunit. Anti-Stx-1 IgY and anti-Stx-2 IgY suppressed the cytotoxicity of Stx-1 and Stx-2 to HeLa 229 cells, without cross-suppressive activity. The suppressive activity of these IgY was abrogated by pre-incubation with the corresponding recombinant B subunit, which suggests that the antibodies directed to the polymeric B subunits were predominantly involved in the suppression. In vivo, the intraperitoneal or intravenous administration of these IgY rescued mice from death caused by intraperitoneal injection of the corresponding toxin at a lethal dose. Moreover, oral administration of anti-Stx-2 IgY reduced the mortality of mice infected intestinally with EHEC O157:H7. Our results therefore suggest that anti-Stx IgY antibodies may be considered as preventive agents for Stx-mediated diseases in EHEC infection. [ABSTRACT FROM AUTHOR]

Published

2011

25. Passive protection of purified yolk immunoglobulin administered against Shiga toxin 1 in mouse models.

Author

Wang, Qin, Hou, Xiao-jun, Cai, Kun, Li, Tao, Liu, Yue-nan, Tu, Wei, Xiao, Le, Bao, Shi-zhong, Shi, Jing, Gao, Xiang, Liu, Hao, Tian, Ren-mao, and Wang, Hui

Subjects

IMMUNOGLOBULINS, VEROCYTOTOXINS, ESCHERICHIA coli, ENTEROBACTERIACEAE, COLITIS, HEMORRHAGE, LABORATORY mice

Abstract

Shiga toxins produced by Escherichia coli O157:H7 cause a wide spectrum of enteric diseases, such as lethal hemorrhagic colitis and hemolytic uremic syndrome. In this study, the B subunit protein of Shiga toxin type 1 (Stx1) was produced in the E. coli system, was further purified by Ni-column Affinity Chromatography method, and was then used as an immunogen to immunize laying hens for yolk immunoglobulin (IgY) production. Titers of IgY increased gradually with boosting vaccination and, finally, reached a level of 105, remaining steady over 1 year. Then the protective efficacy of IgY against Stx1 was evaluated by in vitro and in vivo experiments. It was shown that the anti-Stx1 IgY could effectively block the binding of Stx1 to the Hela cells and could protect BALB/c mice from toxin challenges. The data indicates the facility of using egg yolk IgY as a therapeutic intervention in cases of Shiga toxin intoxication. Les toxines Shiga produites par Escherichia coli O157 :H7 causent un large spectre de maladies entériques comme la colite hémorragique létale et le syndrome urémique hémolytique. Dans cette étude, la sous-unité B de la toxine Shiga de type 1 (Stx1) a été produite dans le système E. coli, purifiée par chromatographie d'affinité sur colonne de Ni, et utilisée comme immunogène pour immuniser des poules pondeuses afin d'obtenir des immunoglobulines de jaune d'oeuf (IgY). Les titres en IgY augmentaient graduellement à la suite d'immunisations de rappel, pour atteindre finalement un niveau de 105 stable durant 1 an. Par la suite, l'efficacité protectrice des IgY contre Stx1 a été évaluée in vitro et in vivo. Il a été démontré que les IgY anti-Stx1 bloquaient efficacement la liaison de Stx1 aux cellules HeLa et protégeaient les souris BALB/c lors d'une provocation à la toxine. Les données indiquent qu'il est facile d'utiliser les immunoglobulines de jaune d'oeuf IgY lors d'interventions thérapeutiques dans les cas d'intoxication par les toxines Shiga. [ABSTRACT FROM AUTHOR]

Published

2010

26. Molecular Basis of Differential B-Pentamer Stability of Shiga Toxins 1 and 2.

Author

Conrady, Deborah G., Flagler, Michael J., Friedmann, David R., Vander Wielen, Bradley D., Kovall, Rhett A., Weiss, Alison A., and Herr, Andrew B.

Subjects

ESCHERICHIA coli, ESCHERICHIA, FOOD poisoning, FOODBORNE diseases, DIARRHEA, INTESTINAL diseases, CHRONIC kidney failure, VEROCYTOTOXINS, ULTRACENTRIFUGATION, CENTRIFUGATION

Abstract

Escherichia coli strain O157:H7 is a major cause of food poisoning that can result in severe diarrhea and, in some cases, renal failure. The pathogenesis of E. coli O157:H7 is in large part due to the production of Shiga toxin (Stx), an AB5 toxin that consists of a ribosomal RNA-cleaving A-subunit surrounded by a pentamer of receptor-binding B subunits. There are two major isoforms, Stx1 and Stx2, which differ dramatically in potency despite having 57% sequence identity. Animal studies and epidemiological studies show Stx2 is associated with more severe disease. Although the molecular basis of this difference is unknown, data suggest it is associated with the B-subunit. Mass spectrometry studies have suggested differential B-pentamer stability between Stx1 and Stx2. We have examined the relative stability of the B-pentamers in solution. Analytical ultracentrifugation using purified B-subunits demonstrates that Stx2B, the more deadly isoform, shows decreased pentamer stability compared to Stx1B (EC50 = 2.3 mM vs. EC50 = 0.043 mM for Stx1B). X-ray crystal structures of Stx1B and Stx2B identified a glutamine in Stx2 (versus leucine in Stx1) within the otherwise strongly hydrophobic interface between B-subunits. Interchanging these residues switches the stability phenotype of the B-pentamers of Stx1 and Stx2, as demonstrated by analytical ultracentrifugation and circular dichroism. These studies demonstrate a profound difference in stability of the B-pentamers in Stx1 and Stx2, illustrate the mechanistic basis for this differential stability, and provide novel reagents to test the basis for differential pathogenicity of these toxins. [ABSTRACT FROM AUTHOR]

Published

2010

27. Shiga toxins — from cell biology to biomedical applications.

Author

Johannes, Ludger and Römer, Winfried

Subjects

ESCHERICHIA coli, PATHOGENIC bacteria, HEMOLYTIC-uremic syndrome, TOXINS, CYTOLOGY, CELLULAR signal transduction, APOPTOSIS

Abstract

Shiga toxin-producing Escherichia coli is an emergent pathogen that can induce haemolytic uraemic syndrome. The toxin has received considerable attention not only from microbiologists but also in the field of cell biology, where it has become a powerful tool to study intracellular trafficking. In this Review, we summarize the Shiga toxin family members and their structures, receptors, trafficking pathways and cellular targets. We discuss how Shiga toxin affects cells not only by inhibiting protein biosynthesis but also through the induction of signalling cascades that lead to apoptosis. Finally, we discuss how Shiga toxins might be exploited in cancer therapy and immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2010

28. Macropinocytosis in Shiga toxin 1 uptake by human intestinal epithelial cells and transcellular transcytosis.

Author

Malyukova, Irma, Murray, Karen F., Chengru Zhu, Boedeker, Edgar, Kane, Anne, Patterson, Kathleen, Peterson, Jeffrey R., Donowitz, Mark, and Kovbasnjuk, Olga

Subjects

PINOCYTOSIS, TOXINS, EPITHELIAL cells, ESCHERICHIA coli, MICROBIAL virulence, INTESTINES

Abstract

Shiga toxin 1 and 2 production is a cardinal virulence trait of enterohemorrhagic Escherichia coli infection that causes a spectrum of intestinal and systemic pathology. However, intestinal sites of enterohemorrhagic E. coli colonization during the human infection and how the Shiga toxins are taken up and cross the globotriaosylceramide (Gb3) receptor-negative intestinal epithelial cells remain largely uncharacterized. We used samples of human intestinal tissue from patients with E. coli O157:H7 infection to detect the intestinal sites of bacterial colonization and characterize the distribution of Shiga toxins. We further used a model of largely Gb3-negative T84 intestinal epithelial monolayers treated with B-subunit of Shiga toxin 1 to determine the mechanisms of non-receptor-mediated toxin uptake. We now report that E. coli O157:H7 were found at the apical surface of epithelial cells only in the ileocecal valve area and that both toxins were present in large amounts inside surface and crypt epithelial cells in all tested intestinal samples. Our in vitro data suggest that macropinocytosis mediated through Src activation significantly increases toxin endocytosis by intestinal epithelial cells and also stimulates toxin transcellular transcytosis. We conclude that Shiga toxin is taken up by human intestinal epithelial cells during E. coli O157:H7 infection regardless of the presence of bacterial colonies. Macropinocytosis might be responsible for toxin uptake by Gb3-free intestinal epithelial cells and transcytosis. These observations provide new insights into the understanding of Shiga toxin contribution to enterohemorrhagic E. coli-related intestinal and systemic diseases. [ABSTRACT FROM AUTHOR]

Published

2009

29. Autoregulative function in the brain in an endotoxic rat shock model.

Author

B. Rosengarten, M. Hecht, S. Wolff, and M. Kaps

Subjects

RATS, ESCHERICHIA coli, SEPSIS, BLOOD pressure

Abstract

Abstract. Objective and design:  Autoregulative function in the brain gets relevant in hypodynamic conditions of a sepsis syndrome. We investigated the temporal pattern and dose dependent effects of LPS-induced shock on autoregulative function in rats. Material and subjects:  Chloralose-anesthetized and mechanically ventilated male CD-rats (n = 30). Treatment:  Animals were subjected to vehicle, 1 or 5 mg/kg b.w. lipopolysaccharide (LPS) from E. coli given intravenously. Methods:  Autoregulative function was tested repeatedly with a carotid compression technique assessing the transient hyperemic response ratio (THRR) in the cortex with laser Doppler flowmetry up to 270 min. THRR data from exsanguination experiments served as controls. Results:  Despite lower blood pressure levels in the high dose group (control: 114 ± 7 mmHg; 1 mg/kg LPS group: 82 ± 16 mmHg; 5 mg/kg LPS group: 62 ± 16 mmHg; p Conclusions:  Cerebral autoregulation was affected by LPS-induced shock supporting the notion of vasoregulative failure in endotoxic shock [ABSTRACT FROM AUTHOR]

Published

2008

30. Production and characterization of rabbit polyclonal sera against Shiga toxins Stx1 and Stx2 for detection of Shiga toxin-producing Escherichia coli.

Author

Mendes-Ledesma, Meire R. B., Rocha, Letícia B., Bueris, Vanessa, Krause, Gladys, Beutin, Lothar, Franzolin, Marcia R., Trabulsi, Luiz R., Elias, Waldir P., and Piazza, Roxane M. F.

Subjects

IMMUNOBLOTTING, VEROCYTOTOXINS, ESCHERICHIA coli, PATHOGENIC microorganisms, DEVELOPING countries

Abstract

STEC has emerged as an important group of enteric pathogens worldwide. In this study, rabbit polyclonal Stx1 and Stx2 antisera were raised and employed in the standardization of immunoassays for STEC detection. Using their respective antisera, the limit of detection of the toxin was 35.0 pg for Stx1 and 5.4 pg for Stx2. By immunoblotting, these antisera recognized both toxin subunits. Cross-reactivity was observed in the A subunit, but only Stx2 antiserum was able to neutralize the cytotoxicity of both toxins in the Vero cell assay. Six stx-harboring E. coli isolates were analyzed for their virulence traits. They belonged to different serotypes, including the O48:H7, described for the first time in Brazil. Only three strains harbored eae, and the e-hly gene and hemolytic activity was detected in five strains. Three isolates showed new stx2 variants ( stx2v-ha and stx2vb-hb). The ELISA assay detected all six isolates, including one VCA-negative isolate, while the immunodot assay failed to detect one isolate, which was VCA-positive. In contrast, the colony-immunoblot assay detected only one VCA-positive isolate. Our results demonstrate that among the immunoassays developed in this study, the immunodot, and particularly the ELISA, appear as perspective for STEC detection in developing countries. [ABSTRACT FROM AUTHOR]

Published

2008

31. ZAK: a MAP3Kinase that transduces Shiga toxin- and ricin-induced proinflammatory cytokine expression.

Author

Jandhyala, Dakshina M., Ahluwalia, Amrita, Obrig, Tom, and Thorpe, Cheleste M.

Subjects

MICROBIOLOGY, CYTOKINES, ESCHERICHIA coli, PROTEIN kinases, INTERLEUKIN-8, CELLULAR immunity, RNA, ENTEROBACTERIACEAE, PHOSPHOTRANSFERASES

Abstract

Shiga toxins (Stxs) and ricin initiate damage to host cells by cleaving a single adenine residue on the α-sarcin loop of the 28S ribosomal RNA. This molecular insult results in a cascade of intracellular events termed the ribotoxic stress response (RSR). Although Stxs and ricin have been shown to cause the RSR, the mitogen-activated protein kinase kinase kinase (MAP3K) that transduces the signal from intoxicated ribosomes to activate SAPKinases has remained elusive. We show in vitro that DHP-2 (7-[3-fluoro-4-aminophenyl-(4-(2-pyridin-2-yl-5,6-dihydro-4H-pyrrolo[1,2-b]pyrazol-3-yl))]-quinoline), a zipper sterile-α-motif kinase (ZAK)-specific inhibitor, blocks Stx2/ricin-induced SAPKinase activation. Treatment of cells with DHP-2 also blocks Stx2/ricin-mediated upregulation of the proinflammatory cytokine interleukin-8 and results in a modest but statistically significant improvement in cell viability following Stx2/ricin treatment. Finally we show that siRNA directed against the N-terminus of ZAK diminishes Stx2/Ricin-induced SAPKinase activation. Together, these data demonstrate that a ZAK isoform(s) is the MAP3Kinase that transduces the RSR. Therefore, ZAKα and/or β isoforms may act as potential therapeutic target(s) for treating Stx/ricin-associated illnesses. Furthermore, a small molecule inhibitor like DHP-2 may prove valuable in preventing the Stx/ricin-induced proinflammatory and/or apoptotic effects that are thought to contribute to pathogenesis by Stx-producing Escherichia coli and ricin. [ABSTRACT FROM AUTHOR]

Published

2008

32. Prevalence and pathogenicity of Shiga toxin-producing Escherichia coli in beef cattle and their products2.

Subjects

BEEF cattle, BEEF products, ESCHERICHIA coli, BEEF industry, BEEF, DISEASE prevalence

Abstract

During the past 23 yr, a large number of human illness outbreaks have been traced worldwide to consumption of undercooked ground beef and other beef products contaminated with Shiga toxin-producing Escherichia coli (STEC). Although several routes exist for human infection with STEC, beef remains a main source. Thus, beef cattle are considered reservoirs of O157 and nonO157 STEC. Because of the global nature of the food supply, safety concerns with beef will continue, and the challenges facing the beef industry will increase at the production and processing levels. To be prepared to address these concerns and challenges, it is critical to assess the beef cattle role in human infection with STEC. Because most STEC outbreaks in the United States were traced to beef containing E. coli O157:H7, the epidemiological studies have focused on the prevalence of this serotype in beef and beef cattle. Worldwide, however, additional STEC serotypes (e.g., members of the O26, O91, O103, O111, O118, O145, and O166 serogroups) have been isolated from beef and caused human illnesses ranging from bloody diarrhea and hemorrhagic colitis to the life-threatening hemolytic uremic syndrome (HUS). To provide a global assessment of the STEC problem, published reports on beef and beef cattle in the past 3 decades were evaluated. The prevalence rates of E. coli O157 ranged from 0.1 to 54.2% in ground beef, from 0.1 to 4.4% in sausage, from 1.1 to 36.0% in various retail cuts, and from 0.01 to 43.4% in whole carcasses. The corresponding prevalence rates of nonO157 STEC were 2.4 to 30.0%, 17.0 to 49.2%, 11.4 to 49.6%, and 1.7 to 58.0%, respectively. Of the 162 STEC serotypes isolated from beef products, 43 were detected in HUS patients and 36 are known to cause other human illnesses. With regard to beef cattle, the prevalence rates of E. coli O157 ranged from 0.3 to 19.7% in feedlots and from 0.7 to 27.3% on pasture. The corresponding prevalence rates of nonO157 STEC were 4.6 to 55.9% and 4.7 to 44.8%, respectively. Of the 373 STEC serotypes isolated from cattle feces or hides, 65 were detected in HUS patients and 62 are known to cause other human illnesses. The results indicated the prevalence of a large number of pathogenic STEC in beef and beef cattle at high rates and emphasized the critical need for control measures to assure beef safety. [ABSTRACT FROM AUTHOR]

Published

2007

33. Comparative evaluation of the Ridascreen® Verotoxin enzyme immunoassay for detection of Shiga-toxin producing strains of Escherichia coli (STEC) from food and other sources.

Author

Beutin, L., Steinrück, H., Krause, G., Steege, K., Haby, S., Hultsch, G., and Appel, B.

Subjects

ESCHERICHIA coli, ENZYME-linked immunosorbent assay, TOXINS, BACTERIA, GLYCOPROTEINS

Abstract

Aims: To evaluate the suitability of the commercially distributed Ridascreen® Verotoxin enzyme immunoassay (EIA) for detection of known genetic types of the Vero (Shiga) toxins 1 (Stx1) and 2 (Stx2) families and to determine its relative sensitivity and specificity. Methods and Results: The Ridascreen-EIA was compared with the Vero cell assay, a P1-glycoprotein receptor EIA and with stx gene-specific PCs for detection of Stx with 43 Shiga toxin-producing strains of Escherichia coli (STEC) reference strains and with 241 test strains. The Ridascreen-EIA detects strains producing Stx1 and variants Stx1c and Stx1d, as well as Stx2 and variants Stx2d1, Stx2d2, Stx2e, Stx2d, Stx2-O118 (Stx2d-ount), Stx2-NV206, Stx2f and Stx2g. The assay showed a relative sensitivity of 95·7% and a relative specificity of 98·7%. Some of the Stx2-O118-, Stx2e- and Stx2g-producing STEC were not detected with the Ridascreen-EIA probably because of low amount of toxin produced by these strains. Conclusions: The Ridascreen-EIA is able to detect all known types of Stx and is applicable for routine screening of bacterial isolates owing to its high specificity. It is less applicable for testing samples where low amounts of Stx are expected, such as mixed cultures and certain Stx2 variants. Significance and Impact of the Study: This study presents a first comprehensive evaluation of the Ridascreen-EIA, a rapid standardized STEC screening test for routine diagnostic laboratories. Data are presented on the type of the spectrum of Stx that are detected with this immunoassay and its advantages and limits for practical use. [ABSTRACT FROM AUTHOR]

Published

2007

34. Binding of adenine to Stx2, the protein toxin from Escherichia coli O157:H7.

Author

Fraser, Marie E., Cherney, Maia M., Marcato, Paola, Mulvey, George L., Armstrong, Glen D., and James, Michael N. G.

Subjects

ADENINE, ESCHERICHIA coli, GLYCOSIDASES, ADENOSINES, ELECTRON distribution, BINDING sites

Abstract

Stx2 is a protein toxin whose catalytic subunit acts as an N-glycosidase to depurinate a specific adenine base from 28S rRNA. In the holotoxin, the catalytic portion, A1, is linked to the rest of the A subunit, A2, and A2 interacts with the pentameric ring formed by the five B subunits. In order to test whether the holotoxin is active as an N-glycosidase, Stx2 was crystallized in the presence of adenosine and adenine. The crystals diffracted to ∼1.8 Å and showed clear electron density for adenine in the active site. Adenosine had been cleaved, proving that Stx2 is an active N-glycosidase. While the holotoxin is active against small substrates, it would be expected that the B subunits would interfere with the binding of the 28S rRNA. [ABSTRACT FROM AUTHOR]

Published

2006

35. Enterohemorrhagic Escherichia coli (EHEC).

Author

Welinder-Olsson, Christina and Kaijser, Bertil

Subjects

ESCHERICHIA coli O157:H7, ESCHERICHIA coli, MICROBIAL virulence, PATHOGENIC microorganisms, TOXINS, DIARRHEA

Abstract

Enterohaemorrhagic Escherichia coli has since the last 2 decades been known to cause severe and bloody diarrhoea as well as haemorrhagic colitis (HC) and haemorrhagic uraemic syndrome (HUS) especially among children. The importance of screening for EHEC among children and older patients with severe symptoms is apparent. Production of the verocytotoxins VT1 and VT2 are the main features of EHEC, and the VT types and mode of action during human infection is described. There are, however, other features adding to the pathogenicity. In this review we deal with the importance of properties such as fimbriae and adhesins as well as systems to meet the bacterial need for iron during infection. These factors are probably important for the establishment of EHEC in the gut and add to the bacterial virulence. It has now become evident that VT producing E. coli, irrespective of serogroup, might be human pathogens. We conclude that knowledge of the different possible virulence factors adds to the possibility of separating more virulent from less virulent isolates. [ABSTRACT FROM AUTHOR]

Published

2005

36. Interaction of Shiga toxin from Escherichia coli with human intestinal epithelial cell lines and explants: Stx2 induces epithelial damage in organ culture.

Author

Schüller, Stephanie, Frankel, Gad, and Phillips, Alan D.

Subjects

ESCHERICHIA coli, EPITHELIAL cells, ENDOTHELIUM, MYOFIBROBLASTS, ENDOPLASMIC reticulum, ORGANELLES

Abstract

Shiga toxins (Stx) produced by Escherichia coli are associated with systemic complications such as haemolytic–uraemic syndrome. The mechanism of Stx translocation across the epithelial barrier is unknown as human intestinal epithelium lacks receptor Gb3. In this study, we have examined the interaction of purified Stx1 and 2 with Caco-2 (Gb3+ ) and T84 (Gb3– ) cell lines, and determined the effects of Stx on human intestine using in vitro organ culture (IVOC). Stx exposure caused inhibition of protein synthesis and apoptosis in Caco-2 but not in T84 cells. However, both Stx1 and 2 were transported to the endoplasmic reticulum, and the Stx1 A-subunit was cleaved in a furin-dependent manner in both cell lines. Thus, a Gb3-independent retrograde transport route exists in T84 cells for Stx that does not induce cell damage. IVOC demonstrated increased epithelial cell extrusion in response to exposure to Stx2, but not Stx1, in both small intestine and colon. Pretreatment of Stx2 with Stx2-specific antibody abrogated this effect. Overlaying frozen sections with Stx showed lamina propria, but not epithelial, cell binding that paralleled Gb3 localization, and included endothelium and pericryptal myofibroblasts. This indicates that human intestinal epithelium may evince Stx2-induced damage in the absence of Gb3 receptors, by an as yet unrecognized mechanism. [ABSTRACT FROM AUTHOR]

Published

2004

37. Bacteriophage control of Shiga toxin 1 production and release by Escherichia coli.

Author

Wagner, Patrick L, Livny, Jonathan, Neely, Melody N, Acheson, David W. K, Friedman, David I, and Waldor, Matthew K

Subjects

ESCHERICHIA coli, BACTERIOPHAGES, MICROBIAL toxins

Abstract

Summary The stx genes of many Shiga toxin-encoding Escherichia coli (STEC) strains are encoded by prophages of the λ bacteriophage family. In the genome of the Stx1-encoding phage H-19B, the stx 1 AB genes are found ≈ 1 kb downstream of the late phage promoter, p R ′, but are known to be regulated by the associated iron-regulated promoter, p Stx1 . Growth of H-19B lysogens in low iron concentrations or in conditions that induce the prophage results in increased Stx1 production. Although the mechanism by which low iron concentration induces Stx1 production is well understood, the mechanisms by which phage induction enhances toxin production have not been extensively characterized. The studies reported here identify the factors that contribute to Stx1 production after induction of the H-19B prophage. We found that replication of the phage genome, with the associated increase in stx 1 AB copy number, is the most quantitatively important mechanism by which H-19B induction increases Stx1 production. Three promoters are shown to be involved in stx 1 AB transcription after phage induction, the iron-regulated p Stx1 and the phage-regulated p R and p R ′ promoters, the relative importance of which varies with environmental conditions. Late phage transcription initiating at the p R ′ promoter, contrary to previous findings in the related Stx2-encoding phage φ361, was found to be unnecessary for high-level Stx1 production after phage induction. Finally, we present evidence that phage-mediated lysis regulates the quantity of Stx1 produced by determining the duration of Stx1 accumulation and provides a mechanism for Stx1 release. By amplifying stx 1 AB copy number, regulating stx 1 AB transcription and allowing for Stx1 release, the biology of the Stx-encoding phages contributes greatly to the production of Stx,... [ABSTRACT FROM AUTHOR]

Published

2002

38. Effect of Shiga toxin 2 on water and ion transport in human colon in vitro.

Author

Fiorito, Paula, Burgos, Juan, Miyakawa, Mariano, Rivas, Marta, Chillemi, German, Berkowski, Dario, Zotta, Elsa, Silberstein, Claudia, Ibarra, Cristina, Fiorito, P, Burgos, J M, Miyakawa, M F, Rivas, M, Chillemi, G, Berkowski, D, Zotta, E, Silberstein, C, and Ibarra, C

Subjects

BACTERIAL toxins, BIOLOGICAL transport, COLON (Anatomy), COMPARATIVE studies, ESCHERICHIA coli, INTESTINAL mucosa, RESEARCH methodology, MEDICAL cooperation, RESEARCH, TOXINS, WATER, EVALUATION research, IN vitro studies

Abstract

Shiga toxin-producing Escherichia coli (STEC) colonize the lower segments of the human gastrointestinal tract, causing gastrointestinal and systemic diseases. In this study, the effects of Shiga toxin 2 (Stx2) on fluid absorption and ion transport in the human colon were examined. Net water movement (Jw) and short-circuit current (Isc) were simultaneously measured across the colonic mucosa incubated with crude or purified Stx2. Stx2 significantly inhibited the absorptive J(w) with no effect on the basal I(sc) after 60 min of exposure. These effects may be due to the inhibition of a nonelectrogenic transport system present in the surface colonic villus cells. Morphological studies of the colonic mucosa treated with crude or purified Stx2 demonstrated a selective damage in the absorptive villus epithelial cells. These findings suggest that Stx2 inhibits water absorption across the human colon by acting on a specific cell population: the mature, differentiated absorptive villus epithelium. [ABSTRACT FROM AUTHOR]

Published

2000

39. Bacteriophages to control Shiga toxin-producing E. coli – safety and regulatory challenges.

Author

Pinto, Graça, Almeida, Carina, and Azeredo, Joana

Subjects

FOOD pathogens, FECAL contamination, BIOLOGICAL pest control agents, REGULATORY approval, ESCHERICHIA coli, BACTERIOPHAGES

Abstract

Shiga toxin-producing Escherichia coli (STEC) are usually found on food products due to contamination from the fecal origin, as their main environmental reservoir is considered to be the gut of ruminants. While this pathogen is far from the incidence of other well-known foodborne bacteria, the severity of STEC infections in humans has triggered global concerns as far as its incidence and control are concerned. Major control strategies for foodborne pathogens in food-related settings usually involve traditional sterilization/disinfection techniques. However, there is an increasing need for the development of further strategies to enhance the antimicrobial outcome, either on food-contact surfaces or directly in food matrices. Phages are considered to be a good alternative to control foodborne pathogens, with some phage-based products already cleared by the Food and Drug Administration (FDA) to be used in the food industry. In European countries, phage-based food decontaminants have already been used. Nevertheless, its broad use in the European Union is not yet possible due to the lack of specific guidelines for the approval of these products. Furthermore, some safety concerns remain to be addressed so that the regulatory requirements can be met. In this review, we present an overview of the main virulence factors of STEC and introduce phages as promising biocontrol agents for STEC control. We further present the regulatory constraints on the approval of phages for food applications and discuss safety concerns that are still impairing their use. [ABSTRACT FROM AUTHOR]

Published

2020

40. Gut–Kidney Axis on Chip for Studying Effects of Antibiotics on Risk of Hemolytic Uremic Syndrome by Shiga Toxin-Producing Escherichia coli.

Author

Lee, Yugyeong, Kim, Min-Hyeok, Alves, David Rodrigues, Kim, Sejoong, Lee, Luke P., Sung, Jong Hwan, and Park, Sungsu

Subjects

HEMOLYTIC-uremic syndrome, ECULIZUMAB, ANTIBIOTICS, ESCHERICHIA coli, LARGE intestine, ESCHERICHIA coli diseases

Abstract

Shiga toxin-producing Escherichia coli (STEC) infects humans by colonizing the large intestine, and causes kidney damage by secreting Shiga toxins (Stxs). The increased secretion of Shiga toxin 2 (Stx2) by some antibiotics, such as ciprofloxacin (CIP), increases the risk of hemolytic–uremic syndrome (HUS), which can be life-threatening. However, previous studies evaluating this relationship have been conflicting, owing to the low frequency of EHEC infection, very small number of patients, and lack of an appropriate animal model. In this study, we developed gut–kidney axis (GKA) on chip for co-culturing gut (Caco-2) and kidney (HKC-8) cells, and observed both STEC O157:H7 (O157) infection and Stx intoxication in the gut and kidney cells on the chip, respectively. Without any antibiotic treatment, O157 killed both gut and kidney cells in GKA on the chip. CIP treatment reduced O157 infection in the gut cells, but increased Stx2-induced damage in the kidney cells, whereas the gentamycin treatment reduced both O157 infection in the gut cells and Stx2-induced damage in the kidney cells. This is the first report to recapitulate a clinically relevant situation, i.e., that CIP treatment causes more damage than gentamicin treatment. These results suggest that GKA on chip is very useful for simultaneous observation of O157 infections and Stx2 poisoning in gut and kidney cells, making it suitable for studying the effects of antibiotics on the risk of HUS. [ABSTRACT FROM AUTHOR]

Published

2021

41. Regulated expression of the Shiga toxin B gene induces apoptosis in mammalian fibroblastic cells.

Author

Nakagawa, Ichiro, Nakata, Masanobu, Kawabata, Shigetada, and Hamada, Shigeyuki

Subjects

BACTERIAL toxins, ESCHERICHIA coli, COLON (Anatomy), GENE transfection, ULCERS

Abstract

Shiga toxins (Stxs) produced by enterohaemorrhagic Escherichia coli may induce colonic ulceration, bloody diarrhoea and acute renal failure. The A subunit (StxA) is known to inhibit protein synthesis, whereas the B subunits (StxB) bind to Gb3 on the cell surface. However, the mechanisms by which Stxs kill target cells remain unclear. Stx1A or Stx1B genes were introduced into pcDNA3.1 vectors and transfected into NIH3T3 and HeLa cells. The Stx1B gene-transfected cells became apoptotic with accompanying DNA fragmentation, whereas the Stx1A gene-transfected cells were found to be necrotic and no DNA fragmentation occurred. The HeLa/C4 cells integrated with the Stx1B gene with a tetracycline-inducible promoter eventually produced cytoplasmic Stx1B, leading to DNA fragmentation on the addition of doxycycline. These apoptotic changes were abrogated by pretreatment with Z-VAD-fmk. These results suggest that the transfected Stx1B gene induces apoptosis by activating the caspase cascade after Stx1B expression in the cytoplasm. [ABSTRACT FROM AUTHOR]

Published

1999

42. Characterization of an exported protease from Shiga toxin-producing Escherichia coli.

Author

Djafari, Soudabeh, Ebel, Frank, Deibel, Christina, Krämer, Sylvia, Hudel, Martina, and Chakraborty, Trinad

Subjects

PROTEOLYTIC enzymes, ESCHERICHIA coli, PROTEINS, MICROBIAL virulence, PATHOGENIC microorganisms

Abstract

The gene for a novel, high molecular weight protein secreted by Shiga toxin-producing Escherichia coli (STEC) has been cloned, sequenced and characterized with respect to its activity. This gene, designated pssA, is localized on the large plasmid that also harbours the STEC haemolysin operon. Sequencing of a region comprising 10 630nt revealed that the sequences flanking the pssA gene are composed of several remnants of different insertion elements. The PssA protein is produced as a 142 kDa precursor molecule that, after N- and C-terminal processing, is released into the culture supernatant as a mature polypeptide of approximately 104 kDa. The primary sequence of PssA is highly related to a family of autonomously transported putative virulence factors from different Gram-negative pathogens, which includes the Tsh protein of an avian-pathogenic E. coli strain, the SepA protein from Shigella flexneri and the EspC protein from enteropathogenic E. coli. A common motif present in all four proteins is reminiscent of the catalytic centre of certain serine proteases. PssA (protease secreted by STEC) indeed shows serine protease activity in a casein-based assay and is moreover cytotoxic for Vero cells. This activity of PssA and probably of other proteins of the Tsh family may be of functional importance during infection of the mucosal cell layer by the bacterial pathogen. [ABSTRACT FROM AUTHOR]

Published

1997

43. Proteolytic cleavage at arginine residues within the hydrophilic disulphide loop of the Escherichia coli Shiga-like toxin IA subunit is not essential for cytotoxicity.

Author

Burgess, Beverley J. and Roberts, Lynne M.

Subjects

ESCHERICHIA coli, VEROCYTOTOXINS, RIBOSOMES, PROTEINS, GLYCOCONJUGATES, GLYCOSIDASES, PROTEIN metabolism

Abstract

Escherichia coli Shiga-like toxin I is a type II ribosome-inactivating protein composed of an A subunit with RNA-specific N-glycosidase activity, non-covalently associated with a pentamer of B subunits possessing affinity for gatabiose-containing glycolipids. The A subunit contains a single intrachain disulphide bond encompassing a hydrophilic sequence containing two trypsin-sensitive arginine residues. By analogy with other bacterial toxins it has been proposed that proteolytic nicking, deemed essential for a cytotoxic effect, occurs within this disulphide-bonded loop to generate the A1 and A2 fragments. Reduced A1 is then believed to translocate an internal membrane to inactivate protein synthesis in the cytosol. In this report, the disulphide-loop arginines of the SLT I A subunit were mutated to block the specific proteolysis presumed to occur. However, the mutant generated remained an effective toxin having similar catalytic activity to wild-type toxin and only a marginally reduced cytotoxicity towards cultured cells. We conclude that the disulphide-loop arginine residues are not the unique and essential processing sites previously assumed, but that processing may occur at alternative accessible sites to compensate for loss of target sites within the loop. [ABSTRACT FROM AUTHOR]

Published

1993

44. Toxigenic Escherichia coli.

Author

Chart and Chart

Subjects

ESCHERICHIA coli, BACTERIAL toxins

Abstract

Provides information on toxigenic Escherichia coli. Production of a heat-labile protein toxin by certain strains of E. coli; Ability of E. coli to produce a hemolysin, a property considered as a virulence factor.

Published

1998

45. Shiga Toxin-Associated Hemolytic Uremic Syndrome: Specificities of Adult Patients and Implications for Critical Care Management.

Author

Travert, Benoit, Rafat, Cédric, Mariani, Patricia, Cointe, Aurélie, Dossier, Antoine, Coppo, Paul, and Joseph, Adrien

Subjects

HEMOLYTIC-uremic syndrome, CRITICAL care medicine, ADULTS, THROMBOTIC thrombocytopenic purpura, PROGNOSIS, CLINICAL epidemiology

Abstract

Shiga toxin-producing Escherichia coli-associated hemolytic uremic syndrome (STEC-HUS) is a form of thrombotic microangiopathy secondary to an infection by an enterohemorrhagic E. coli. Historically considered a pediatric disease, its presentation has been described as typical, with bloody diarrhea at the forefront. However, in adults, the clinical presentation is more diverse and makes the early diagnosis hazardous. In this review, we review the epidemiology, most important outbreaks, physiopathology, clinical presentation and prognosis of STEC-HUS, focusing on the differential features between pediatric and adult disease. We show that the clinical presentation of STEC-HUS in adults is far from typical and marked by the prevalence of neurological symptoms and a poorer prognosis. Of note, we highlight knowledge gaps and the need for studies dedicated to adult patients. The differences between pediatric and adult patients have implications for the treatment of this disease, which remains a public health threat and lack a specific treatment. [ABSTRACT FROM AUTHOR]

Published

2021

46. Roles of Shiga Toxins in Immunopathology.

Author

Lee, Moo-Seung and Tesh, Vernon L.

Subjects

IMMUNOPATHOLOGY, ESCHERICHIA coli, PROTEIN synthesis, ENDOTHELIAL cells, ERYTHROCYTES, HEMOLYTIC anemia

Abstract

Shigella species and Shiga toxin-producing Escherichia coli (STEC) are agents of bloody diarrhea that may progress to potentially lethal complications such as diarrhea-associated hemolytic uremic syndrome (D+HUS) and neurological disorders. The bacteria share the ability to produce virulence factors called Shiga toxins (Stxs). Research over the past two decades has identified Stxs as multifunctional toxins capable of inducing cell stress responses in addition to their canonical ribotoxic function inhibiting protein synthesis. Notably, Stxs are not only potent inducers of cell death, but also activate innate immune responses that may lead to inflammation, and these effects may increase the severity of organ injury in patients infected with Stx-producing bacteria. In the intestines, kidneys, and central nervous system, excessive or uncontrolled host innate and cellular immune responses triggered by Stxs may result in sensitization of cells to toxin mediated damage, leading to immunopathology and increased morbidity and mortality in animal models (including primates) and human patients. Here, we review studies describing Stx-induced innate immune responses that may be associated with tissue damage, inflammation, and complement activation. We speculate on how these processes may contribute to immunopathological responses to the toxins. [ABSTRACT FROM AUTHOR]

Published

2019

47. Virulence from vesicles: Novel mechanisms of host cell injury by Escherichia coli O104:H4 outbreak strain.

Author

Kunsmann, Lisa, Rüter, Christian, Bauwens, Andreas, Greune, Lilo, Glüder, Malte, Kemper, Björn, Fruth, Angelika, Wai, Sun Nyunt, He, Xiaohua, Lloubes, Roland, Schmidt, M. Alexander, Dobrindt, Ulrich, Mellmann, Alexander, Karch, Helge, and Bielaszewska, Martina

Subjects

ESCHERICHIA coli, DIARRHEA, UREMIA, MICROBIAL virulence, APOPTOSIS

Abstract

The highly virulent Escherichia coli O104:H4 that caused the large 2011 outbreak of diarrhoea and haemolytic uraemic syndrome secretes blended virulence factors of enterohaemorrhagic and enteroaggregative E. coli, but their secretion pathways are unknown. We demonstrate that the outbreak strain releases a cocktail of virulence factors via outer membrane vesicles (OMVs) shed during growth. The OMVs contain Shiga toxin (Stx) 2a, the major virulence factor of the strain, Shigella enterotoxin 1, H4 flagellin, and O104 lipopolysaccharide. The OMVs bind to and are internalised by human intestinal epithelial cells via dynamin-dependent and Stx2a-independent endocytosis, deliver the OMV-associated virulence factors intracellularly and induce caspase-9-mediated apoptosis and interleukin-8 secretion. Stx2a is the key OMV component responsible for the cytotoxicity, whereas flagellin and lipopolysaccharide are the major interleukin-8 inducers. The OMVs represent novel ways for the E. coli O104:H4 outbreak strain to deliver pathogenic cargoes and injure host cells. [ABSTRACT FROM AUTHOR]

Published

2015

48. Simple Method for Shiga Toxin 2e Purification by Affinity Chromatography via Binding to the Divinyl Sulfone Group.

Author

Arimitsu, Hideyuki, Sasaki, Keiko, Kojima, Hiroe, Yanaka, Tadashi, and Tsuji, Takao

Subjects

AFFINITY chromatography, VEROCYTOTOXINS, SULFONES, ESCHERICHIA coli, LINCOMYCIN, GALACTOSE, PLASMIDS, CARRIER proteins

Abstract

Here we describe a simple affinity purification method for Shiga toxin 2e (Stx2e), a major causative factor of edema disease in swine. Escherichia coli strain MV1184 transformed with the expression plasmid pBSK-Stx2e produced Stx2e when cultivated in CAYE broth containing lincomycin. Stx2e bound to commercial D-galactose gel, containing α-D-galactose immobilized on agarose resin via a divinyl sulfone linker, and was eluted with phosphate-buffered saline containing 4.5 M MgCl2. A small amount of Stx2e bound to another commercial α-galactose-immobilized agarose resin, but not to β-galactose-immobilized resin. In addition, Stx2e bound to thiophilic adsorbent resin containing β-mercaptoethanol immobilized on agarose resin via a divinyl sulfone, and was purified in the same manner as from D-galactose gel, but the Stx2e sample contained some contamination. These results indicate that Stx2e bound to D-galactose gel mainly through the divinyl sulfone group on the resin and to a lesser extent through α-D-galactose. With these methods, the yields of Stx2e and attenuated mutant Stx2e (mStx2e) from 1 L of culture were approximately 36 mg and 27.7 mg, respectively, and the binding capacity of the D-galactose gel and thiophilic adsorbent resin for Stx2e was at least 20 mg per 1 ml of resin. In addition, using chimeric toxins with prototype Stx2 which did not bind to thiophilic adsorbent resin and some types of mutant Stx2e and Stx2 which contained inserted mutations in the B subunits, we found that, at the least, asparagine (amino acid 17 of the B subunits) was associated with Stx2e binding to the divinyl sulfone group. The mStx2e that was isolated exhibited vaccine effects in ICR mice, indicating that these methods are beneficial for large-scale preparation of Stx2e toxoid, which protects swine from edema disease. [ABSTRACT FROM AUTHOR]

Published

2013

49. Identification and characterization of the human Gb3/CD77 synthase gene promoter.

Author

Tetsuya Okuda and Ken-ichi Nakayama

Subjects

ESCHERICHIA coli, FOOD poisoning, COLIFORMS, CYTOKINES

Abstract

Hemolytic uremic syndrome (HUS) is triggered by verotoxin (VT) produced by the Escherichia coli O157 strain. Several studies have demonstrated that VT induces endothelial cell (EC) death via the VT receptor globotriaosylceramide (Gb3/CD77) leading to this symptom. Inflammatory mediators which are produced as a result of E. coli O157 infection, increase the expression level of Gb3 in EC. Therefore increased expression of Gb3 is considered as a progression step for HUS. The increased expression of Gb3 is due to the transcriptional upregulation of Gb3/CD77 synthase gene (Gb3S, also known as α1,4-galactosyltransferase gene), the mechanism of which still remains unknown. To understand the transcriptional machinery and to elucidate the onset mechanism of HUS, we cloned and characterized the human Gb3S promoter. A modified 5′-RACE was used to determine the transcriptional initiation site, which revealed the presence of a TATA-less GC-rich sequence in the proximal region. Promoter activity measured using a luciferase assay demonstrated that the GC-rich sequence is necessary for the basal transcriptional activity, and two silencer elements located 5′-upstream of this GC-rich region regulated the transcriptional level. Furthermore, we found that the GC-rich sequence contained three potential Sp1 binding sites and that all three Sp1 binding elements acted as positive regulators. Since Sp1 is an inducer of several genes in the presence of the inflammatory cytokines in EC, our results suggest that the transcriptional regulation of the Gb3S gene by Sp1 might affect the VT sensitivity of EC and HUS progression. [ABSTRACT FROM AUTHOR]

Published

2008

50. Enterohemorrhagic Escherichia coli and Other Shiga Toxin-Producing E. coli

Author

Vanessa Sperandio, Carolyn Hovde Bohach, Vanessa Sperandio, and Carolyn Hovde Bohach

Subjects

Hemolytic-uremic syndrome, Escherichia coli, Verocytotoxins, Escherichia coli infections, Escherichia coli O157:H7

Abstract

Useful as a textbook for advanced courses in microbiology, food safety, infectious disease, or microbial pathogenesis, the text presents the most current, relevant research overview from a multidisciplinary, international group of expert authors concerned with tracking, deciphering, intervening, and understanding the diseases caused by EHEC and STEC.

Published

2015