Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042963 (vomiting)
 31,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Staphylococcal enterotoxin A (SEA), the most common cause of food poisoning, is capable of stimulating human T lymphocyte proliferation at concentrations as low as 10(-13) to 10(-16) M. SEA also induces the lymphokines interleukin 2 (IL 2) and interferon gamma (IFN gamma) at similarly low concentrations. HPL cultures were stimulated with SEA in the presence of antibodies to IL2 to determine the possible role of this lymphokine in its potent mitogenic effects. Polyclonal and monoclonal antibodies to human IL 2 blocked SEA-induced mitogenesis. Treatment of cultures with higher concentrations of SEA overcame the anti-IL 2 blockage, corresponding to induction of higher concentrations of IL 2. Blockage of HPL mitogenesis by anti-IL 2 antibodies also resulted in inhibition of IFN gamma production, which is dependent on IL 2. Neutralizing monoclonal antibody to IFN gamma failed to block SEA-induced proliferation. The data indicate that the induction of IL 2, but not IFN gamma, is a requirement for SEA induced lymphocyte proliferation. SEA food poisoning and IL 2 therapy for cancer result in similar toxic symptoms, characterized by malaise, fever, nausea or vomiting, and diarrhea. The similarity between SEA and IL2 toxic effects, the fact that SEA is a potent inducer of lymphokines such as IL 2, and the fact that IL 2 induction is a prerequisite for the mitogenic effects of SEA raises the intriguing question of the role of lymphokines such as IL 2 in SEA-induced food poisoning.
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PMID:Potent mitogenic activity of staphylococcal enterotoxin A requires induction of interleukin 2. 313 70

Very different toxins are responsible for the two types of gastrointestinal diseases caused by Bacillus cereus: the diarrhoeal syndrome is linked to nonhemolytic enterotoxin NHE, hemolytic enterotoxin HBL, and cytotoxin K, whereas emesis is caused by the action of the depsipeptide toxin cereulide. The recently identified cereulide synthetase genes permitted development of a molecular assay that targets all toxins known to be involved in food poisoning in a single reaction, using only four different sets of primers. The enterotoxin genes of 49 strains, belonging to different phylogenetic branches of the B. cereus group, were partially sequenced to encompass the molecular diversity of these genes. The sequence alignments illustrated the high molecular polymorphism of B. cereus enterotoxin genes, which is necessary to consider when establishing PCR systems. Primers directed towards the enterotoxin complex genes were located in different CDSs of the corresponding operons to target two toxin genes with one single set of primers. The specificity of the assay was assessed using a panel of B. cereus strains with known toxin profiles and was successfully applied to characterize strains from food and clinical diagnostic labs as well as for the toxin gene profiling of B. cereus isolated from silo tank populations.
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PMID:Toxin gene profiling of enterotoxic and emetic Bacillus cereus. 1684 49

Data about Bacillus cereus different enterotoxins including hemolysin (HBL), nonhemolytic enterotoxin (NHE), enterotoxin (T), and emesis-inducing thermostable enterotoxin (ETE) are summarized in the article. Information about synthesis of different diarrhea-inducing and emesis-inducing enterotoxins, methods of their purification, structure, functions, and mechanisms of action are presented. Commercial kits for identification of B. cereus enterotoxins causing food-associated diarrhea are listed.
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PMID:[Bacillus cereus enterotoxins]. 1752 92

Entomopathogenic Bacillus thuringiensis is closely related to Bacillus cereus, a human pathogen known to cause emesis and diarrhea. Standard detection methods do not distinguish these bacilli. Hemolysin BL (hbl) and non-hemolytic enterotoxin (nhe) genes that encode, respectively, HBL and NHE enterotoxins, are known to be harbored in both bacterial species, suggesting that differentiation of these bacilli is clinically and epidemiologically relevant. In this study the reliability of quantitative reverse transcription real-time PCR (qRT-PCR) and enzyme immunoassays (EIAs) in detecting hbl and nhe transcripts and corresponding toxins in environmental B. thuringiensis isolates was assessed. At least one enterotoxin gene was present in each isolate, and nhe or hbl genes were found in 85% and 55% of the strains, respectively. Based on statistical analyses, both BCET-RPLA and Duopath detected HBL at similar levels, and TECRA and Duopath can be used interchangeably for the detection of NHE, although TECRA has significantly lower sensitivity than Duopath. Thus, as potential enterotoxic B. thuringiensis strains occur in the natural environment, and EIA results may not correspond with the presence of enterotoxin genes and their expression, we suggest that reliable interpretation will be significantly enhanced by including qRT-PCR to support inferences based on EIAs.
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PMID:Comparative analysis of quantitative reverse transcription real-time PCR and commercial enzyme imunoassays for detection of enterotoxigenic Bacillus thuringiensis isolates. 2491 32