EC:2.3.1.184 - FACTA Search

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Query: EC:2.3.1.184 (LasR)
897 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The opportunistic pathogen Pseudomonas aeruginosa has two acyl-homoserine lactone (acyl-HSL) signalling systems, LasR-I and RhlR-I. LasI catalyses the synthesis of N-3-oxododecanoyl homoserine lactone (3OC12) and LasR is a transcription factor that requires 3OC12 as a ligand. RhlI catalyses the synthesis of N-butanoyl homoserine lactone (C4) and RhlR is a transcription factor that responds to C4. LasR and RhlR control the transcription of hundreds of P. aeruginosa genes. There is a third P. aeruginosa LasR-RhlR homologue encoded by qscR for which there is no cognate acyl-HSL synthase gene. To test the hypothesis that QscR functions by direct control of specific promoters in an acyl-HSL-dependent manner we purified QscR and characterized QscR activity in vitro. We also studied QscR activity in recombinant Escherichia coli. QscR binds to promoters that have elements similar in sequence to those found in LasR- or RhlR-dependent promoters but QscR does not bind to the LasR- or RhlR-specific promoters we examined. QscR binding to DNA requires 3OC12, but QscR exhibits a relaxed acyl-HSL specificity compared with the 3OC12-cognate signal receptor LasR. Our results support the hypothesis that there is a specific QscR-dependent regulon. We show that QscR controls genes in this regulon directly and that regulation is dependent on an acyl-HSL produced by LasI. Because of its relaxed signal specificity QscR may also respond to acyl-HSLs made by other bacteria in mixed bacterial communities.
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PMID:Activity of purified QscR, a Pseudomonas aeruginosa orphan quorum-sensing transcription factor. 1639 Apr 53

The Yersinia enterocolitica LuxI homologue YenI directs the synthesis of N-3-(oxohexanoyl)homoserine lactone (3-oxo-C6-HSL) and N-hexanoylhomoserine lactone (C6-HSL). In a Y. enterocolitica yenI mutant, swimming motility is temporally delayed while swarming motility is abolished. Since both swimming and swarming are flagellum dependent, we purified the flagellin protein from the parent and yenI mutant. Electrophoresis revealed that in contrast to the parent strain, the yenI mutant grown for 17 h at 26 degrees C lacked the 45-kDa flagellin protein FleB. Reverse transcription-PCR indicated that while mutation of yenI had no effect on yenR, flhDC (the motility master regulator) or fliA (the flagellar sigma factor) expression, fleB (the flagellin structural gene) was down-regulated. Since 3-oxo-C6-HSL and C6-HSL did not restore swimming or swarming in the yenI mutant, we reexamined the N-acylhomoserine lactone (AHL) profile of Y. enterocolitica. Using AHL biosensors and mass spectrometry, we identified three additional AHLs synthesized via YenI: N-(3-oxodecanoyl)homoserine lactone, N-(3-oxododecanoyl)homoserine lactone (3-oxo-C12-HSL), and N-(3-oxotetradecanoyl)homoserine lactone. However, none of the long-chain AHLs either alone or in combination with the short-chain AHLs restored swarming or swimming in the yenI mutant. By investigating the transport of radiolabeled 3-oxo-C12-HSL and by introducing an AHL biosensor into the yenI mutant we demonstrate that the inability of exogenous AHLs to restore motility to the yenI mutant is not related to a lack of AHL uptake. However, both AHL synthesis and motility were restored by complementation of the yenI mutant with a plasmid-borne copy of yenI.
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PMID:Quorum sensing in Yersinia enterocolitica controls swimming and swarming motility. 1645 28

The Pseudomonas aeruginosa quorum-sensing (QS) systems, Las and Rhl, control the production of several virulence factors and other proteins, which are important to sustain adverse conditions. A comparative transcriptome analysis of a rpoS (-) and a rpoS(-)hfq( -) strain indicated that the Sm-like RNA-binding protein Hfq affects approximately 5% of the P. aeruginosa O1 transcripts. Among these transcripts 72 were identified to be QS regulated. Expression studies revealed that Hfq does not control the master regulators of the Las system, LasR and LasI. Upon entry into stationary phase, Hfq exerted a moderate stimulatory effect on translation of the rhlR gene and on the qscR gene, encoding a LasR/RhlR homologue. However, Hfq considerably stimulated translation of the rhlI gene, encoding the synthetase of the autoinducer N-Butyryl-homoserine lactone (C4-HSL). Correspondingly, the C4-HSL levels were reduced in a hfq(-) strain. To elucidate the stimulatory effect of Hfq on rhlI expression we asked whether Hfq affects the stability of the regulatory RNAs RsmY and RsmZ, which have been implicated in sequestration of the translational repressor RsmA, which in turn is known to negatively regulate RhlI synthesis. We demonstrate that Hfq binds to and stabilizes the regulatory RNA RsmY, which is further shown to bind to the regulatory protein RsmA. A model for the Hfq regulatory network is presented, wherein an alleviation of the negative effect of RsmA accounts for the observed stimulation of rhlI expression by Hfq. The model is corroborated by the observation that a rsmY(-) mutant mimics the hfq(-) phenotype with regard to rhlI expression.
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PMID:Hfq-dependent alterations of the transcriptome profile and effects on quorum sensing in Pseudomonas aeruginosa. 1646 94

N-acyl-L-homoserine lactone (AHL) mediated quorum sensing is a widespread communication system in gram-negative bacteria which regulates a wide range of target genes in a cell density-dependent manner. Although Escherichia coli is not capable of synthesizing AHL molecules because it lacks an AHL synthase encoding gene, it does produce a predicted AHL receptor of the LuxR family, named SdiA. In this work, we used a promoter trap library to screen for E. coli MG1655 promoters whose expression was affected by synthetic N-hexanoyl-L-homoserine lactone (C6-HSL), and we identified six upregulated and nine downregulated promoters, which also responded to synthetic 3-oxo-N-hexanoyl-L-homoserine lactone (3-oxo-C6-HSL). The AHL responsiveness of these promoters was eliminated by knock-out of sdiA, and was temperature dependent, since the identified promoters showed a response at 30 degrees C but not, or only very weakly at 37 degrees C. In addition, in line with the observed induction of gadA encoding a glutamate decarboxylase, we could demonstrate an increased acid tolerance of E. coli upon exposure to C6-HSL. In conclusion, our work shows that E. coli has the capacity to alter its pattern of gene expression and its phenotypical properties in response to AHLs by means of the AHL responsive transcriptional regulator SdiA.
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PMID:N-acyl-L-homoserine lactone signal interception by Escherichia coli. 1648 23

The genus Burkholderia contains over 30 species, many of which are important human pathogens. In addition to the primary pathogens Burkholderia pseudomallei and Burkholderia mallei, several species have emerged as opportunistic pathogens in persons suffering from cystic fibrosis (CF) and immunocompromised individuals. All Burkholderia species investigated so far employ quorum-sensing (QS) systems that rely on N-acyl-homoserine lactone (AHL) signal molecules to express certain phenotypic traits in a population density-dependent manner. Whilst many Burkholderia strains only contain the CepI/CepR QS system, which relies on C8-HSL, some strains, in particular isolates of B. pseudomallei and B. mallei, harbour multiple LuxI/LuxR homologues and produce numerous AHL signal molecules. Evidence has accumulated over the past few years that the QS systems operating in Burkholderia are crucial for full virulence in various animal models. However, only few QS-regulated functions required for virulence in the different infection models have so far been identified. Given the essential role of QS in the expression of pathogenic traits in Burkholderia these regulatory systems represent attractive targets for the development of novel therapeutics.
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PMID:Quorum sensing in the genus Burkholderia. 1649 Mar 97

Two N-acyl-homoserine lactone (acyl-HSL) synthase genes, lasI from Pseudomonas aeruginosa and yenI from Yersinia enterocolitica, were introduced into tobacco, individually and in combination. Liquid chromatograph-tandem mass spectrometry and thin-layer chromatography confirmed products of lasI and yenI activity in single and cotransformants. Cotransformants expressing plastid-localized LasI and YenI synthases produced the major acyl-HSLs for each synthase in all tissues tested. Total acyl-HSL signals accumulated in leaf tissue up to 3 pmol/mg of fresh weight, half as much in stem tissue, and approximately 10-fold less in root tissues. Acyl-HSLs were present in aqueous leaf washes from greenhouse-grown transgenic plants. Transgenic lines grown for 14 days under axenic conditions produced detectable levels of acyl-HSLs in root exudates. Ethyl acetate extractions of rhizosphere and nonrhizosphere soil from transgenically grown plants contained active acyl-HSLs, whereas plant-free soil or rhizosphere and nonrhizosphere soil from wild-type plants lacked detectable amounts of acyl-HSLs. This work shows that bioactive acyl-HSLs are exuded from leaves and roots and accumulate in the phytosphere of plants engineered to produce acyl-HSLs. These data further suggest that plants that are bioengineered to synthesize acyl-HSLs can foster beneficial plant-bacteria communications or deter deleterious interactions. Therefore, it is feasible to use bioengineered plants to supplement soils with specific acyl-HSLs to modulate bacterial phenotypes and plant-associated bacterial community structures.
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PMID:Long- and short-chain plant-produced bacterial N-acyl-homoserine lactones become components of phyllosphere, rhizosphere, and soil. 1657 Jun 53

The opportunistic pathogen Pseudomonas aeruginosa possesses two complete acyl-homoserine lactone (acyl-HSL) signaling systems. One system consists of LasI and LasR, which generate a 3-oxododecanoyl-homoserine lactone signal and respond to that signal, respectively. The other system is RhlI and RhlR, which generate butanoyl-homoserine lactone and respond to butanoyl-homoserine lactone, respectively. These quorum-sensing systems control hundreds of genes. There is also an orphan LasR-RhlR homolog, QscR, for which there is no cognate acyl-HSL synthetic enzyme. We previously reported that a qscR mutant is hypervirulent and showed that QscR transiently represses a few quorum-sensing-controlled genes. To better understand the role of QscR in P. aeruginosa gene regulation and to better understand the relationship between QscR, LasR, and RhlR control of gene expression, we used transcription profiling to identify a QscR-dependent regulon. Our analysis revealed that QscR activates some genes and represses others. Some of the repressed genes are not regulated by the LasR-I or RhlR-I systems, while others are. The LasI-generated 3-oxododecanoyl-homoserine lactone serves as a signal molecule for QscR. Thus, QscR appears to be an integral component of the P. aeruginosa quorum-sensing circuitry. QscR uses the LasI-generated acyl-homoserine lactone signal and controls a specific regulon that overlaps with the already overlapping LasR- and RhlR-dependent regulons.
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PMID:A distinct QscR regulon in the Pseudomonas aeruginosa quorum-sensing circuit. 1662 7

Pseudomonas aeruginosa is an opportunistic bacteria causing a wide variety of infections. The bacterial virulence depends on a large panel of cell-associated and extracellular factors. Quorum sensing (QS) allows cell-to-cell communication: sensing the environment, this system coordinates the expression of various genes within the bacterial population. QS is based on an interaction between a small diffusible molecule, an acylhomoserine lactone (AHL), and a transcriptionnal activator. Two QS systems, the las and rhl systems, have been identified in P. aeruginosa. The las system associates the transcriptionnal activator protein LasR and LasI responsible for the synthesis of a specific AHL: C12-HSL. This system was shown to activate the expression of a large number of virulence factors. Similarly, the rhl system associates the transcriptionnal activator protein RhlR with RhlI, which is responsible for the synthesis of another AHL: C4-HSL. Synthesis and secretion of a number of virulence factors are controlled by QS. Utilization of different animals models showed the crucial role of QS in the pathogenesis of P. aeruginosa infections. The discovery of QS has given a new opportunity to treat bacterial infection by another means than growth inhibition. New drugs inhibiting QS were recently discovered: furanone compounds can repress a large number of QS-regulated genes, including numerous P. aeruginosa virulence factor genes. Furanone administration to mice infected with P. aeruginosa significantly reduced lung bacterial load compared with the control group.
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PMID:[Quorum sensing: a new clinical target for Pseudomonas aeruginosa?]. 1663 32

Quorum sensing, the population density-dependent regulation mediated by N-acylhomoserine lactones (AHSL), is essential for the control of virulence in the plant pathogen Erwinia carotovora ssp. carotovora (Ecc). In Erwinia carotovora ssp. the AHSL signal with an acyl chain of either 6 or 8 carbons is generated by an AHSL synthase, the expI gene product. This work demonstrates that the AHSL receptor, ExpR1, of Ecc strain SCC3193 has strict specificity for the cognate AHSL 3-oxo-C8-HSL. We have also identified a second AHSL receptor (ExpR2) and demonstrate a novel quorum sensing mechanism, where ExpR2 acts synergistically with the previously described ExpR1 to repress virulence gene expression in Ecc. We show that this repression is released by addition of AHSLs and appears to be largely mediated via the negative regulator RsmA. Additionally we show that ExpR2 has the novel property to sense AHSLs with different acyl chain lengths. The expI expR1 double mutant is able to act in response to a number of different AHSLs, while the expI expR2 double mutant can only respond to the cognate signal of Ecc strain SCC3193. These results suggest that Ecc is able to react both to the cognate AHSL signal and the signals produced by other bacterial species.
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PMID:Cooperation of two distinct ExpR regulators controls quorum sensing specificity and virulence in the plant pathogen Erwinia carotovora. 1679 82

The production of several virulence factors by Pseudomonas aeruginosa is regulated through the hierarchical cell-density dependent quorum sensing (QS) systems las and rhl. A third component of the QS hierarchy, the Pseudomonas quinolone signal PQS, also controls the expression of several genes. We previously described P. aeruginosa PtxR as a transcriptional activator of the exotoxin A gene toxA. Here, we provide evidence that PtxR regulates the production of other virulence factors. Mutation of ptxR in PAO1 increased pyocyanin production. This increase was reduced in the presence of a ptxR plasmid. Throughout the growth cycle, PtxR reduced the expression of the pyocyanin operon phzA1-G1 but not phzA2-G2. As pyocyanin production is stringently controlled by QS, we examined the effect of PtxR on QS-related genes in PAO1. PtxR also reduced the expression of the PQS synthesis operon pqsABCDE. ptxR mutation increased the expression of the rhamnolipid synthesis gene rhlA but decreased lasB expression. The expression of the RhlI synthase gene rhlI and the production of the C(4)-HSL autoinducer were increased in the ptxR mutant, while the expression of the LasI synthase gene lasI and the production of 3OC(12)-HSL were reduced. These results suggest that PtxR negatively regulates the expression of the rhamnolipid and pyocyanin genes through rhlI and the pqsABCDE operon while it positively regulates the expression of lasB through lasI.
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PMID:PtxR modulates the expression of QS-controlled virulence factors in the Pseudomonas aeruginosa strain PAO1. 1680 94

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