Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Enteroaggregative Escherichia coli (EAggEC) has been associated with persistent pediatric diarrhea in the developing world, yet the pathogenetic mechanisms of EAggEC infection are unknown. Our previous data have suggested that aggregative adherence of some EAggEC strains to HEp-2 cells is mediated by flexible, bundle-forming fimbriae, which we have termed aggregative adherence fimbriae I (AAF/I). Genes sufficient to confer expression of AAF/I are located on the 60-MDa plasmid of EAggEC 17-2; AAF/I genes are present as two unlinked plasmid regions (regions 1 and 2), separated by 9 kb of DNA. Here we report the complete DNA sequencing of region 2 and the identification of an open reading frame which is involved in the expression of AAF/I. One open reading frame of 794 bp encodes a protein (designated AggR) with a predicted molecular size of 29.4 kDa, which shows a high degree of amino acid sequence identity to CfaR and other members of the AraC class of gene regulators. The cloned aggR gene (or, alternatively, a cloned cfaR gene) was sufficient to complement a region 1 clone to confer AAF/I expression. To further substantiate the role of aggR in the regulation of AAF/I, we constructed a 289-bp in-frame aggR deletion and replaced the native gene in 17-2 by allelic exchange, using the temperature-sensitive vector pIB307. The resulting aggR deletions were negative for AAF/I expression, but expression was restored when the aggR gene (cloned into pBluescript II SK) was reintroduced into the aggR mutant. RNA slot blot experiments using a probe for the putative AAF/I pilin subunit (aggA) revealed that aggR operates as a transcriptional activator of aggA expression. aggA::phoA fusions were constructed in 17-2 and in 17-2 delta aggR. AggR was found to promote expression of the aggA gene under a variety of conditions of temperature, osmolarity, oxygen tension, and medium. At acid pH, aggA expression was maximal and was regulated by both AggR-dependent and AggR-independent mechanisms.
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PMID:AggR, a transcriptional activator of aggregative adherence fimbria I expression in enteroaggregative Escherichia coli. 791 30

Enteropathogenic E. coli (EPEC) are a major cause of diarrhea in infants throughout the world. Although this pathogen was described 50 years ago, it is only recently that the pathogenic mechanisms employed by this organism have been elucidated. The characteristic histopathology induced by this organism, called "attaching and effacing", consists of intimate adherence of the bacterium to the epithelial cell with marked cytoskeletal changes including effacement of microvilli. A 35 kb region of chromosomal DNA, called the LEE for locus of enterocyte effacement has recently been described which contains all known genes necessary for production of this characteristic histopathology. Within this region is the eae gene encoding intimin, a 94 kDa OMP involved in intimate adherence. Also within this region are genes encoding proteins secreted extracellularly by EPEC (esp) and a type III secretion apparatus (sep) which shares homology with similar systems in Yersinia, Shigella, and Salmonella. Additional genes on a 60 MDa plasmid encode a type IV pilus (BFP) and a positive transcriptional activator (per) of multiple chromosomal and plasmid virulence genes.
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PMID:Genetics of virulence of enteropathogenic E. coli. 919 31

Type IV bundle-forming pili of enteropathogenic Escherichia coli are required for the localized adherence and autoaggregation phenotypes. Whether these pili are also required for virulence was tested in volunteers by inactivating bfpA or bfpT (perA) encoding, respectively, the pilus subunit and the bfp operon transcriptional activator. Both mutants caused significantly less diarrhea. Mutation of the bfpF nucleotide-binding domain caused increased piliation, enhanced localized adherence, and abolished the twitching motility-dispersal phase of the autoaggregation phenotype. The bfpF mutant colonized the human intestine but was about 200-fold less virulent. Thus, BfpF is required for dispersal from the bacterial aggregate and for full virulence.
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PMID:Type IV pili, transient bacterial aggregates, and virulence of enteropathogenic Escherichia coli. 966 59

A study of enteroaggregative Escherichia coli (EAggEC) which was recently reported as a causative agent of diarrhea was attempted, by isolating these organisms from the fecal samples collected from sporadic diarrhea patients in Miyazaki Prefecture during the period from January 1993 to April 1998, and by investigating several characteristics of the isolates. By using the PCR method targetting aggR gene which was a transcriptional activator of aggregative adherence fimbria I expression, thirty four strains of aggR(+)-Escherichia coli (E. coli) were detected from 2,652 fecal samples. Twenty nine of these 34 isolates were confirmed as EAggEC by demonstration of aggregative adherence to HEp-2 cells, and the other 5 isolates were not EAggEC because they showed negative adherence to HEp-2 cells. The above mentioned, aggR-PCR method revealed that there were a few non-EAggEC strains with aggR gene. It has been reported that aggregative adherence fimbriae are encoded by the plasmid of about 60 Md. All of the 29 EAggEC isolates possessed plasmids of about 50 Md or more, and these plasmids were suggested to relate to aggregative adherence fimbriae. Sixteen (55%) of the 29 isolates were classified serologically into two serotypes, O111:H21 and O126:H27, and the other 13 isolates were classified into ten groups or more which included a few strains in a group. EAggEC heat-stable enterotoxin 1 (EAST1) gene was demonstrated in nineteen of 29 isolates. In drug susceptibility test, 72%, 59% and 21% of the 29 isolates showed resistance to Ampicillin, Cefazolin, and Streptomycin, respectively.
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PMID:[Detection of enteroaggregative Escherichia coli from sporadic diarrhea patients]. 991 13

Several virulence-related genes have been described for prototype enteroaggregative Escherichia coli (EAEC) strain 042, which has been shown to cause diarrhea in human volunteers. Among these factors are the enterotoxins Pet and EAST and the fimbrial antigen aggregative adherence fimbria II (AAF/II), all of which are encoded on the 65-MDa virulence plasmid pAA2. Using nucleotide sequence analysis and insertional mutagenesis, we have found that the genes required for the expression of each of these factors, as well as the transcriptional activator of fimbrial expression AggR, map to a distinct cluster on the pAA2 plasmid map. The cluster is 23 kb in length and includes two regions required for expression of the AAF/II fimbria. These fimbrial biogenesis genes feature a unique organization in which the chaperone, subunit, and transcriptional activator lie in one cluster, whereas the second, unlinked cluster comprises a silent chaperone gene, usher, and invasin reminiscent of Dr family fimbrial clusters. This plasmid-borne virulence locus may represent an important set of virulence determinants in EAEC strains.
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PMID:Organization of biogenesis genes for aggregative adherence fimbria II defines a virulence gene cluster in enteroaggregative Escherichia coli. 1007 69

The production of cholera toxin (CT) during Vibrio cholerae infection results in the hallmark diarrhea that characterizes the disease cholera. The transmembrane protein ToxR was originally identified as a functional transcriptional activator of ctxAB in a heterologous Escherichia coli system. However, direct ToxR activation of the ctxAB promoter in V. cholerae has not been previously demonstrated. Instead, a regulatory cascade has been defined in which the activators ToxRS and TcpPH modulate ctxAB expression by acting in concert to transcriptionally activate another regulator, ToxT. ToxT, in turn, directly activates ctxAB expression as well as expression of the tcp genes and other virulence-associated genes. In this study, we show that ToxRS directly activates ctxAB in a ToxT-independent manner in a classical biotype V. cholerae, and that this activation requires the presence of bile acids. Although the levels of CT induced by this mechanism are lower than levels induced under other in vitro conditions, the bile-dependent conditions described here are more physiologic, being independent of pH and temperature. We further show that the inability of bile acids to stimulate ToxRS-dependent expression of CT in El Tor biotype strains is related to the differences between classical and El Tor ctxAB promoters, which differ in the number of heptad TTTTGAT repeats in their respective upstream regions. The ability of bile acids to stimulate direct activation of ctxAB by ToxRS depends upon the transmembrane domain of ToxR, which may interact with bile acids in the inner membrane of V. cholerae.
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PMID:Bile acids induce cholera toxin expression in Vibrio cholerae in a ToxT-independent manner. 1569 31

Enteroaggregative Escherichia coli (EAEC) has been implicated in sporadic diarrhea in children and adults and has been identified as the cause of several outbreaks worldwide. The HEp-2 test remains the gold standard for identification of this pathotype. A 60-65 MDa plasmid encodes the aggregative adherence fimbriae (AAF/I and AAF/II), a transcriptional activator (aggR gene), the enteroaggregative heat-stable enterotoxin EAST1 (astA gene) and a cytotoxin (Pet). The standard assay for EAEC is performed only in research laboratories, because it is expensive, labor intensive and time-consuming. The Polymerase Chain Reaction (PCR) offers the possibility of rapid diagnosis. In the current study, a multiplex PCR assay which checks aggR and astA genes was designed. Eigthy-eight E. coli strains, isolated from children with acute diarrhea in Mendoza, Argentina, were characterized by the reference method (HEp-2 assay), and by aggR-astA PCR. A strong correlation between the presence of the specific marker aggR and the reference test was found. The astA gene had a similar distribution between aggregative and localized strains, indicating that this gene could not be considered as a marker of EAEC. We conclude that aggR may be used to identify EAEC, using the PCR method as a screening test.
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PMID:Evaluation of a multiplex PCR method to detect enteroaggregative Escherichia coli. 1697 55

Vibrio cholerae is the causative agent of the disease cholera, characterized by profuse watery diarrhoea. Two of the main virulence factors associated with the disease are cholera toxin (CT) and toxin-coregulated pilus (TCP). Expression of CT and TCP is regulated via a complex cascade of factors that respond to environmental signals, but ultimately ToxT is the direct transcriptional activator of the genes encoding CT and TCP. Recent studies have begun to unveil the mechanisms behind ToxT-dependent transcription. We review current knowledge of transcriptional activation by ToxT and the environmental stimuli that allow ToxT to regulate virulence gene expression, resulting in cholera pathogenesis.
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PMID:The complexity of ToxT-dependent transcription in Vibrio cholerae. 2141 95

Enterohemorrhagic Escherichia coli O157:H7 (EHEC) causes bloody diarrhea and hemolytic-uremic syndrome. EHEC encodes the sRNA chaperone Hfq, which is important in posttranscriptional regulation. In EHEC strain EDL933, Hfq acts as a negative regulator of the locus of enterocyte effacement (LEE), which encodes most of the proteins involved in type III secretion and attaching and effacing (AE) lesions. Here, we deleted hfq in the EHEC strain 86-24 and compared global transcription profiles of the hfq mutant and wild-type (WT) strains in exponential growth phase. Deletion of hfq affected transcription of genes common to nonpathogenic and pathogenic strains of E. coli as well as pathogen-specific genes. Downregulated genes in the hfq mutant included ler, the transcriptional activator of all the LEE genes, as well as genes encoded in the LEE2 to -5 operons. Decreased expression of the LEE genes in the hfq mutant occurred at middle, late, and stationary growth phases. We also confirmed decreased regulation of the LEE genes by examining the proteins secreted and AE lesion formation by the hfq mutant and WT strains. Deletion of hfq also caused decreased expression of the two-component system qseBC, which is involved in interkingdom signaling and virulence gene regulation in EHEC, as well as an increase in expression of stx(2AB), which encodes the deadly Shiga toxin. Altogether, these data indicate that Hfq plays a regulatory role in EHEC 86-24 that is different from what has been reported for EHEC strain EDL933 and that the role of Hfq in EHEC virulence regulation extends beyond the LEE.
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PMID:Hfq virulence regulation in enterohemorrhagic Escherichia coli O157:H7 strain 86-24. 2198 90

Salmonella enterica serovar Typhimurium uses the Salmonella pathogenicity island 1 (SPI1) type III secretion system to induce inflammatory diarrhea and bacterial uptake into intestinal epithelial cells. The expression of hilA, encoding the transcriptional activator of the SPI1 structural genes, is directly controlled by three AraC-like regulators, HilD, HilC, and RtsA, each of which can activate the hilD, hilC, rtsA, and hilA genes, forming a complex feed-forward regulatory loop. A large number of factors and environmental signals have been implicated in SPI1 regulation. We have developed a series of genetic tests that allows us to determine where these factors feed into the SPI1 regulatory circuit. Using this approach, we have grouped 21 of the known SPI1 regulators and environmental signals into distinct classes on the basis of observed regulatory patterns, anchored by those few systems where the mechanism of regulation is best understood. Many of these factors are shown to work post-transcriptionally at the level of HilD, while others act at the hilA promoter or affect all SPI1 promoters. Analysis of the published transcriptomic data reveals apparent coregulation of the SPI1 and flagellar genes in various conditions. However, we show that in most cases, the factors that affect both systems control SPI1 independently of the flagellar protein FliZ, despite its role as an important SPI1 regulator and coordinator of the two systems. These results provide a comprehensive model for SPI1 regulation that serves as a framework for future molecular analyses of this complex regulatory network.
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PMID:Integrating global regulatory input into the Salmonella pathogenicity island 1 type III secretion system. 2202 88


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