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Studies on staphylococcus enterotoxinWilson, Robert J. January 1937 (has links)
[No abstract available] / Science, Faculty of / Microbiology and Immunology, Department of / Graduate
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A High Molecular Weight Protein From Staphylococcus Intermedius Cross-Reacts With Staphylococcus Aureus Enterotoxin AntibodiesLaffan, J. J., Petras, P., Ferguson, K. P., Lambe, D. W. 01 December 1996 (has links)
Enterotoxin production by Staphylococcus species other than Staphylococcus aureus has been reported. Staphylococcus strains (104 in toto) representing twelve species and subspecies were examined for enterotoxins using a commercial staphylococcal enterotoxin ELISA immunoassay (TECRA, International Bioproducts). Staphylococcus intermedius (24 strains) and S. aureus (7 strains) were positive with this test. Western blots of S. aureus exoproteins demonstrated proteins of ∼30 kD, consistent with known staphylococcal enterotoxins. The major antigen in all S. intermedius strains, a 75 kD protein, was not analogous to previously described staphylococcal enterotoxins. This protein was unique to S. intermedius. Gel filtration data indicate that the protein is a subunit of a larger protein in vivo. The 75 kD protein cross-reacts with several enterotoxin antibodies. It is unclear whether the protein is a toxin, but its homology with S. aureus enterotoxins may indicate a shared toxic region, or this protein may create false positive results in screening for enterotoxin.
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Secretion and Lipopolysaccharide Binding of Heat-Labile EnterotoxinMudrak, Benjamin January 2010 (has links)
<p>Enterotoxigenic <italic>Escherichia coli</italic> (ETEC) is a leading cause of morbidity and mortality worldwide. The causative agent of traveler's diarrhea, ETEC is often associated with cholera-like disease, especially in developing countries. One major virulence factor released by ETEC is the heat-labile enterotoxin LT, which upsets the balance of electrolytes in the intestine. LT is highly similar to cholera toxin (CT) produced by <italic>Vibrio cholerae</italic>, both in structure and function. The toxin consists of a single catalytically active A subunit and a ring of five B subunits mediating its binding and secretion. Previous work from our lab has shown that, after export by the type II secretion (T2S) system, LT associates with lipopolysaccharide (LPS) on the bacterial surface. However, little is known about what identifies LT as a T2S substrate, and the portion of the toxin that mediates LPS binding has not previously been defined. Site-directed mutagenesis of residues in a peripheral sugar binding pocket of the toxin was performed, revealing mutations that affect its binding to LPS, as determined by an in vitro cell surface binding assay. One binding mutant, which is expressed and secreted at wild-type levels from ETEC, holds particular promise for further studies of the role of the LT-LPS interaction. Interestingly, some mutations made affected the secretion of the toxin as detected by ganglioside-binding ELISAs of cell-free supernatant, and several mutations affected both secretion and LPS binding. These mutations identify residues of the toxin that are involved in its secretion and association with LPS. In addition, we introduced mutations affecting the secretion of LT into CT, due to the high similarity between the two toxins. While one mutation affects the secretion of each, other mutations affect one toxin but not the other. These results demonstrate that LT and CT are recognized in different ways during T2S. Combined with an analysis of the effects of secretion mutations on the stability of the toxin, the results described here highlight the delicate balance between structure and function of the LT B subunit.</p> / Dissertation
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Functional characterisation of superantigens in Staphylococcus aureus disease pathogenesisNutbeam-Tuffs, Stephen William January 2016 (has links)
Bacterial superantigens (SAgs) are virulence factors that induce nonspecific T-cell proliferation contributing to host immune avoidance, and occasionally severe life-threatening toxinoses such as toxic shock syndrome. In the current study, the multiple functions of 3 superantigens named staphylococcal enterotoxin-like toxins X, Y and Z are investigated. SElX and SElZ were non-emetic in a musk shrew model of emesis. SElX is structurally and phylogenetically related to staphylococcal superantigen-like proteins (SSls) which are non-mitogenic but exhibit a variety of immune modulatory properties. We carried out protein and gene expression analysis of mutants of different S. aureus gene regulators and demonstrated that selx expression is controlled by saeRS, a two-component regulator linked to the bacterial response to phagocytic signals. Considering the co-regulation of SElX with known mediators of innate immune evasion we investigated a potential role for SElX in both humoral and cellular innate immune modulation and discovered that SElX strongly binds to human, bovine, murine, and laprine neutrophils and interferes with IgG-mediated phagocytosis, independently of Fcγ receptor signalling. Bacterial survival assays with neutrophils demonstrated that the deletion of selx significantly reduced the ability of S. aureus to resist neutrophil killing. Site-directed mutagenesis in the conserved sialic acid-binding motif of SElX abolished its neutrophil binding capacity, which is consistent with a critical role for glycosylated receptors in this interaction. Importantly, the sialic-acid binding mutants of SElX retained the ability to induce T-cell proliferation demonstrating that the distinct functions of SElX are mechanistically independent. Affinity precipitation experiments identified potential glycoprotein receptors for SElX and the interaction with protein ICAM-3, an important ligand for MAC-1 integrins, was validated suggesting SElX may interfere with cell signalling. Taken together, we present the first example of a bi-functional SAg that can manipulate two distinct arms of the human immune system and contribute to S. aureus survival during infection.
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Assay and Control of Staphylococcal Enterotoxin a Development in Cheddar Cheese SlurriesGandhi, Niranjan R. 01 May 1972 (has links)
Attempts were made to adapt the microtiter hemagglutination inhibition assay technique for the assay of enterotoxin A. The presence of a potent hemagglutinin in crude and partially purified preparations and the instability of sensitized erythrocytes prevented its use for routine analysis of enterotoxin from culture media and foods.
A capillary tube immunological assay was developed in which 1 μ g of enterotoxin/ml was detected in less than 1 hr . Interfacial reaction of antisera and enterotoxin solutions in a 1 mm internal diameter capillary tube allowed rapid detection and serological typing of enterotoxins.
Staphylococcus aureus growth and enterotoxin A development in Cheddar cheese slurry was evaluated. S. aureus growth and enterotoxin production occurred at 32 C. in 45 and 60% moisture cheese slurries following inoculation with 10 3 to 10 5 bacteria/gram.
Hydrogen peroxide (0. 5%) treatment of slurry at 37 C did not inhibit S. aureus and enterotoxin A development. Heating slurry at 72 C for 30 min eliminated staphylococci but reinoculation with ripening organisms was essential. Addition of sorbic acid (0. 2 to 0. 3%) to a slurry adjusted to pH 5. 0 with lactic acid, inhibited staphylococci. in milk and slurry. Cheese flavor development was retarded due to inhibition of micrococci and lipolysis. Non-protein nitrogen increases paralleled that of sorbate-free controls. Sorbate treatment was preferred over other treatments .
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Characterization and Molecular Analysis of Fragilysin: The Bacteroides fragilis ToxinObiso, Richard J. Jr. 05 June 1997 (has links)
Bacteroides fragilis is a gram negative, anaerobic rod, that is a member of the normal colonic microflora of most mammals, and it is the anaerobe most commonly isolated from human soft tissue infections. During the past decade, strains of B. fragilis that produce an enterotoxin have been implicated as the cause of diarrhea in a number of animals, including humans. The extracellular enterotoxin has been purified and characterized as a single polypeptide (Mr~ 20,600) that causes rapid morphological changes in human colon carcinoma cell lines, particularly, HT-29.
This dissertation research began in 1993 with the purpose of determining how this enterotoxin, termed fragilysin, causes diarrhea. The deduced amino acid sequence revealed a signature zinc binding consensus motif (His-Glu-Xx-Xxx-His-Xxx-Xxx-Gly-Xxx-Xxx-His/Met) characteristic of metalloproteinases. Sequence analysis showed close identity with metalloproteinases within the zinc-binding and Met-turn regions. Purified fragilysin contained 1 gram atom of zinc per molecule, and it hydrolyzed a number of proteins, including gelatin. Optimal proteolytic activity occurred at 37° C and pH 6.5. Activity was inhibited by metal chelators but not by inhibitors of other classes of proteinases. When fragilysin is injected into ligated ileal and colonic loops of animals, there is significant tissue damage and a subsequent dose dependent fluid response. Histological examination revealed mild necrosis of epithelial cells, crypt elongation, villus attenuation, and hyperplasia. There was extensive detachment and rounding of surface epithelial cells and an infiltration of neutrophils. Enterotoxic activity was inhibited by the metal chelators EDTA and 1,10-phenanthroline; and, to some degree, the enterotoxic activity could be reconstituted by the addition of zinc to chelated toxin. Fragilysin rapidly increased the permeability of the paracellular barrier of epithelial cells to ions (decrease in electrical resistance across monolayers) and to larger molecules (increase in mannitol flux across monolayers). Furthermore, there is a direct effect on the tight junction proteins. Fragilysin appears to cause diarrhea by proteolytically degrading the paracellular barrier of epithelial cells. Fragilysin is a recently discovered virulence factor that could contribute to the pathogenesis of B. fragilis in both intestinal and soft tissue infections.
This research was supported by a Public Health Service grants AI 322940 and AI 32940-03 from the National Institute of Allergy and Infectious Diseases, and by the Commonwealth of Virginia project 6127250 / Ph. D.
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Characterization of Coagulase Positive Staphylococci from Pig Carcasses from Swedish SlaughterhousesNeskovic, Anika January 2008 (has links)
<p>The aim was to characterize 100 coagulase positive staphylococci isolates originating from pig carcasses from Swedish slaughterhouses by biotyping, antibiotic susceptibility testing, typing with pulsed field gel electrophoresis (PFGE) and real-time PCR-screening of the enterotoxin genes sea, sec, seg and sei in order to evaluate the impact on human health. The biotyping classified 56 as non host specific (NHS), 29 as human biotype, five as poultry, one as ovine, one as bovine biotype and eight were unclassified (UCF). Susceptibility testing to 16 antibiotics revealed that 49% of the isolates were resistant to penicillin, which the biotype human dominated among these isolates. The results from the PFGE showed correlation between the biotypes and the pulsotypes obtained with several groups with identical strains. The results from the 47 isolates tested for enterotoxins were that the combination of seg and sei was the most common but sea and sec were also detected. There were slaughterhouses that had certain biotypes and penicillin resistance linked to them.</p>
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Caractérisation de l'activité biologique de l'entérotoxine STb d'Escherichia coli à l'aide de membranes lipidiques artificielles et de cellules en cultureGonçalves, Carina January 2007 (has links)
Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Characterizing the role of the enterotoxin gene cluster in Staphylococcus aureus diseasesStach, Christopher 01 July 2015 (has links)
Staphylococcus aureus is the leading cause of infective endocarditis in the United States. Infective endocarditis (IE) is defined as an infection of the endocardium, typically involving the heart valves. The hallmark features of IE are vegetations. Vegetations are cauliflower-like, stratified biofilms of bacteria and host factors that develop on the valve leaflets of the heart. The mechanisms of how vegetations form are not well understood, and as a consequence the bacterial factors that are important for development of IE are not well defined. My studies focus on the role of a family of S. aureus exoproteins known as superantigens and their role in IE.
Superantigens (SAgs) are a class of secreted virulence factors that have been extensively studied for their role in systemic diseases such as toxic shock syndrome (TSS), pneumonia, and food poisoning. The SAg protein family is comprised of 23 distinct members designated as staphylococcal enterotoxin (SE) or enterotoxin-like (SEl) and toxic shock syndrome toxin-1 (TSST-1). The term superantigen is derived from the ability of SAgs to interact with the immune system, resulting in a nearly 3000-fold increase in activation when compared to standard antigens. SAgs have a defined structure that is composed of 2 domains, a carboxy-terminal beta-grasp domain and amino-terminal oligosaccharide/oligonucleotide binding (OB) fold. Defined groups of SAgs are associated with S. aureus strains isolated from specific diseases, but few studies have been done to determine the role of SAgs in diseases outside of TSS and food poisoning.
The enterotoxin gene cluster (egc) is a group of 6 SAgs (selo, selm, sei, selu, seln, and seg) assembled into an operon-like cluster that is present in the majority of S. aureus strains isolated from IE patients. My studies have determined that the egc is able to induce vegetations when expressed in avirulent S. aureus strains. This is the first time the egc has been directly associated with IE. I further characterized the capacity of the individual egc proteins to induce vegetations. Four (selo, selm, sei, and selu) of the 6 egc SAgs were able to induce vegetation formation. This is the first time the individual egc proteins have been characterized and directly associated with IE. I also demonstrated that the egc proteins may not be exclusively expressed as a single polycistronic transcript but that selu and seg contain promoter elements that may drive their individual expression. Lastly, I provide evidence that the egc SAgs may be regulated by MgrA, a global regulator of S. aureus associated with virulence factor expression.
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Characterization of Coagulase Positive Staphylococci from Pig Carcasses from Swedish SlaughterhousesNeskovic, Anika January 2008 (has links)
The aim was to characterize 100 coagulase positive staphylococci isolates originating from pig carcasses from Swedish slaughterhouses by biotyping, antibiotic susceptibility testing, typing with pulsed field gel electrophoresis (PFGE) and real-time PCR-screening of the enterotoxin genes sea, sec, seg and sei in order to evaluate the impact on human health. The biotyping classified 56 as non host specific (NHS), 29 as human biotype, five as poultry, one as ovine, one as bovine biotype and eight were unclassified (UCF). Susceptibility testing to 16 antibiotics revealed that 49% of the isolates were resistant to penicillin, which the biotype human dominated among these isolates. The results from the PFGE showed correlation between the biotypes and the pulsotypes obtained with several groups with identical strains. The results from the 47 isolates tested for enterotoxins were that the combination of seg and sei was the most common but sea and sec were also detected. There were slaughterhouses that had certain biotypes and penicillin resistance linked to them.
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