Quorum-sensing genes in Pseudomonas aeruginosa biofilms: their role and expression patterns

Acylated homoserine lactone molecules are used by a number of gram-negative bacteria to regulate cell density-dependent gene expression by a mechanism known as quorum sensing (QS). In Pseudomonas aeruginosa, QS or cell-to-cell signaling controls expression of a number of virulence factors, as well as biofilm differentiation. In this study, we investigated the role played by the las and rhl QS systems during the early stages of static biofilm formation when cells are adhering to a surface and forming microcolonies. These studies revealed a marked difference in biofilm formation between the PAO1 parent and the QS mutants when glucose, but not citrate, was used as the sole carbon source. To further elucidate the contribution of lasI and rhlI to biofilm maturation, we utilized fusions to unstable green fluorescent protein in concert with confocal microscopy to perform real-time temporal and spatial studies of these genes in a flowing environment. During the course of 8-day biofilm development, lasI expression was found to progressively decrease over time. Conversely, rhlI expression remained steady throughout biofilm development but occurred in a lower percentage of cells. Spatial analysis revealed that lasI and rhlI were maximally expressed in cells located at the substratum and that expression decreased with increasing biofilm height. Because QS was shown previously to be involved in biofilm differentiation, these findings have important implications for the design of biofilm prevention and eradication strategies.     

GacA对假单胞菌株M18两个phz基因簇和菌群传感的调控

摘要:【目的】假单胞菌株M18（Pseudomonas sp. M18）是从甜瓜根际土壤中分离获得的一株对多种植物病原菌具有显著拮抗作用的菌株,在菌群传感（quorum sensing）系统的调控下,能分泌吩嗪-1-羧酸（PCA）以及多种吩嗪（phz）类衍生物的抗真菌物质。全局性因子GacA是M18菌株吩嗪类物质的合成与菌群传感系统的重要调控因子,本文将就GacA对上述两者的调控做进一步研究。【方法】PCR基因扩增和测序研究M18菌株中PCA合成基因簇,运用RT-PCR及构建phzA-lacZ转录融合手段     

细菌群体感应参与铜绿假单胞菌胞内聚羟基脂肪酸酯合成的调控

群体感应是细菌根据细胞密度变化调控基因表达的一种调节机制。铜绿假单胞菌中QS系统由lasI和rhlI合成的信号分子3OC12-HSL和C4-HSL以及各自的受体蛋白LasR、RhlR组成,它们以级联方式调控多个基因表达。【目的】研究细菌群体感应(QS)对聚羟基脂肪酸酯合成的调控。【方法】利用铜绿假单胞菌PAO1及其QS突变株为材料通过气相色谱、荧光定量PCR在生理和分子水平上研究QS对聚羟基脂肪酸酯合成的调控。【结果】QS信号分子合成抑制剂阿奇霉素处理铜绿假单胞菌PAO1和QS突变株导致胞内PHA积累量显著减少;铜绿假单胞菌PAO1中C4-HSL合成酶基因rhlI缺失突变株PAO210胞内PHA积累量与野生型无差别;而3OC12-HSL合成酶基因lasI缺失突变株PAO55、3OC12-HSL受体合成酶基因lasR缺失突变株PAO56以及lasI/lasR双缺失突变株PAO57胞内PHA含量与野生型相比明显减少;lasI和lasR的突变株体内PHA合成酶基因phaC1的表达量显著降低,信号分子3OC12-HSL回补实验使phaC1的表达量可恢复到野生株水平,但只可部分恢复lasI缺失导致的胞内PHA合成。【结论】由此推测,铜绿假单胞菌群体感应系统中lasI/lasR系统参与胞内聚羟基脂肪酸酯合成的调控。     

铜绿假单胞菌群体感应系统缺陷株生物膜形成和结构定量分析

目的研究群体感应(quorum sensing,QS)系统在铜绿假单胞菌生物膜(biofilm,BF)形成中的作用。方法体外建立QS系统完整的铜绿假单胞菌野生型PAO1菌株与QS系统缺陷(lasI rhlI基因缺陷△lasI△rhlI)型菌株生物膜模型,通过SYT09/PI荧光探针标记,结合激光共聚焦显微镜摄取BF不同层面的图片,经图像结构分析(ISA)软件分析获得QS系统lasI rhlI缺陷株、PAO1菌株BF相关空间结构参数。结果培养第3天PAO1菌株可形成较厚、有孔状通道的成熟BF结构,而△lasI△rhlI菌株仅形成明显稀薄的早期BF结构,△lasI△rhlI菌株的3 dBF厚度为(6.62±0.31)μm,PAO1菌株为(21.64±0.57)μm(t=0.205,P0.05),区域孔率(areal porosity,AP)分别为0.902±0.006、0.970±0.003;平均扩散距离(average diffusion distance,ADD)和结构熵(textural entropy,TE)在△lasI△rhlI菌株分别为1.571±0.019和6.586±0.110;在PAO1菌株分别为1.467±0.015和5.213±0.111,△la-sI△rhlI菌株AP较PAO1菌株低(t=0.335,P0.05);而ADD、TE较PAO1菌株高(t=0.289,t=0.300,P0.05)。结论lasI rhlI基因缺陷明显影响铜绿假单胞菌的BF形成能力,QS系统在铜绿假单胞菌BF形成中发挥重要作用。     

Analysis of random and site-directed mutations in rhlI, a Pseudomonas aeruginosa gene encoding an acylhomoserine lactone synthase

The opportunistic human pathogen Pseudomonas aeruginosa possesses two cell density-dependent genetic regulatory systems that control expression of a number of secreted virulence factors. These two systems, the lasI–lasR and rhlI–rhlR gene pairs, are members of the luxI–luxR family of quorum-sensing signal generators and signal receptors. The rhlI gene in P. aeruginosa encodes a 201-amino-acid protein that catalyses the synthesis of an autoinducer, butyrylhomoserine lactone. Through a programme of random and site-specific mutagenesis of rhlI we have gained a better understanding of how its protein product functions. Eight residues critical to butyrylhomoserine lactone synthesis by RhlI were identified by random mutagenesis, and all mapped to a conserved region that spans residues 24–104. Seven of the eight residues were charged amino acids and the other was a glycine. By using site-specific mutagenesis we showed that an active-site cysteine or serine was not required for butyrylhomoserine lactone synthesis, and that two conserved aromatic amino acids in the postulated active site region could be altered without complete loss of RhlI activity. Furthermore, two residues towards the C-terminus that align with critical residues in LuxI can be altered in RhlI without loss of activity. These studies suggest that as opposed to the current models for acyl substrate binding to quorum-sensing signal generators, charged amino acid residues participate directly in the catalysis of butyrylhomoserine lactone synthesis rather than cysteines, serines or hydrophobic amino acids.     

Analysis of 16S–23S rRNA gene internal transcribed spacer of Vibrio anguillarum and Vibrio ordalii strains isolated from fish

The basis of the bactericidal action of antibiotics and the mechanisms of antibiotic tolerance are largely unknown. To elucidate one of the mechanisms of antibiotic tolerance, the present study investigated the role of Pseudomonas aeruginosa quorum sensing (QS) and the rpoS gene in antibiotic tolerance. The survival rates of the lasR and lasI mutants were observed to be lower than that of the parental strain in time-dependent killing studies with 8 μg mL⁻¹ ofloxacin, but the survival rates of the rhlR and rhlI mutants were not different from that of the parental strain. Moreover, a lasR -overexpressing strain was more tolerant to ofloxacin than the parental strain, but this was not the case for an rhlR -overexpressing strain. The mRNA expression levels of lasR , lasI , and rpoS in the wild-type strain in the presence of bactericidal concentration of ofloxacin were lower than that in the absence of ofloxacin. In addition, the significant loss of antibiotic tolerance in the lasR mutant was recovered by the overexpression of rpoS . These results suggest that the Las QS system in P. aeruginosa is involved in the development of ofloxacin tolerance, and the tolerance induced by the Las-system is regulated by rpoS gene.     

Quantitative real-time PCR study of the influence of probiotic culture soluble fraction on the expression of Pseudomonas aeruginosa quorum sensing genes

The opportunistic pathogen Pseudomonas (Ps.) aeruginosa causes severe infections, particularly in immunocompromised individuals and patients with cystic fibrosis (CF). A serious side effect of antibiotic therapy in Ps. aeruginosa infections is the development of resistance to antibiotics. During the infection process Ps. aeruginosa forms biofilms, rendering bacterial cells more resistant to disinfectants, antibiotics and the action of host immune defense effectors. Pseudomonas aeruginosa employs the intercellular communication system, known as quorum sensing (QS) to coordinate the expression of tissue-damaging factors. Since the QS systems controls the production of different virulence factors, it is possible that the inhibition of its regulatory activity to severely compromise the ability of Ps. aeruginosa to cause infections in humans. Many studies have shown that some probiotic strains exhibit inhibitory activity on different virulence properties of pathogenic bacteria (adherence to cellular or inert substrate, soluble virulence factors expression). The aim of the present study was to investigate by real-time RT-qPCR the influence of probiotic culture soluble factors on the QS genes expression in 30 Ps. aeruginosa strains isolated from patients hospitalized in the National Institute for Cardiovascular Infections, Prof. C.C. Iliescu Fundeni Hospital, Bucharest. The results of the real time RT-qPCR have shown that in all Ps. aeruginosa strains grown in the presence of probiotic culture sterile filtrates, the level of QS genes expression was reduced comparatively with those from control cultures. In conclusion, these results proved that the inhibition of virulence factors regulation mechanisms by soluble molecules secreted by probiotics could represent an interesting way pathogenicity and virulence attenuation in Ps. aeruginosa nosocomial strains.     

Inhibition of biofilm formation,quorum sensing activity and molecular docking study of isolated 3, 5, 7-Trihydroxyflavone from Alstonia scholaris leaf against P.aeruginosa

The current study is to evaluate the inhibition of biofilm formation and quorum sensing activity of isolated 3, 5, 7-Trihydroxyflavone (TF) from A.scholaris leaf extract against Pseudomonas aeruginosa. The effects of isolated TF on quorum sensing-regulated virulence factors production such as swimming motility, pyocyanin production, proteolytic, EPS, metabolic assay and inhibition of biofilm formation against P.aeruginosa was evaluated by standard protocols. In addition, the interaction between the isolated TF and active sites of QS- gene (LasI/rhlI, LasR/rhlR, and AHLase) in P.aeruginosa was evaluated by molecular docking studies using AutoDock Tools version 1.5.6. Based on the structural elucidation of the isolated compound was identified as 3, 5, 7-Trihydroxyflavone. Consequently, the isolated TF shows a significant reduction of biofilm formation through the inhibition of QS-dependent phenotypes such as pyocyanin production, proteolytic, swimming motility, EPS activities against P.aeruginosa in a dose-dependent manner. Molecular docking analysis of isolated TF can interfere the signaling [N-(3-oxododecanoyl)-L-homoserine lactone (3-oxo-C12-HSL) and N-butanoyl-L-homoserine lactone (C4-HSL)] molecules in P.aeruginosa by QS genes (LasI, LasR, rhlI, and AHLase) regulation. The isolated TF compound from A.scholaris reveals a greater potential to inhibit biofilm and QS dependent virulence factor production in P.aeruginosa. Docking interaction studies of TF-LasR complex express higher binding affinity than the other QS gene in P.aeruginosa.     

Quorum sensing is not required for twitching motility in Pseudomonas aeruginosa

It has been reported that mutations in the quorum-sensing genes lasI and rhlI in Pseudomonas aeruginosa result in, among many other things, loss of twitching motility (A. Glessner, R. S. Smith, B. H. Iglewski, and J. B. Robinson, J. Bacteriol. 181:1623-1629, 1999). We constructed knockouts of lasI and rhlI and the corresponding regulatory genes lasR and rhlR and found no effect on twitching motility. However, twitching-defective variants accumulated during culturing of lasI and rhlI mutants. Further analysis showed that the stable twitching-defective variants of lasI and rhlI mutants had arisen as a consequence of secondary mutations in vfr and algR, respectively, both of which encode key regulators affecting a variety of phenotypes, including twitching motility. In addition, when grown in shaking broth culture, lasI and rhlI mutants, but not the wild-type parent, also accumulated unstable variants that lacked both twitching motility and swimming motility and appeared to be identical in phenotype to the S1 and S2 variants that were recently reported to occur at high frequencies in P. aeruginosa strains grown as a biofilm or in static broth culture (E. Deziel, Y. Comeau, and R. Villemur, J. Bacteriol. 183:1195-1204, 2001). These results indicate that mutations in one regulatory system may create distortions that select during subsequent culturing for compensatory mutations in other regulatory genes within the cellular network. This problem may have compromised some past studies of regulatory hierarchies controlled by quorum sensing and of bacterial regulatory systems in general.     

植物精油对铜绿假单胞菌群体感应系统的抑制作用研究进展

群体感应（quorum sensing,QS）是细菌个体与个体之间的一种交流机制,广泛存在于细菌中。铜绿假单胞菌是人类的一种条件致病菌,它具有至少3种QS系统,即las、rhl和pqs系统,且各系统之间存在着级联调控关系,它们共同作用调控着该菌众多毒力基因的表达和毒力因子的产生。近年来,通过抑制铜绿假单胞菌的QS系统以控制其毒力和致病力,成为一种新型的铜绿假单胞菌感染防控策略。植物精油是一种天然的群体感应抑制剂（quorum sensing inhibitors, QSI）,多种精油活性化合物都能抑制铜绿假单胞菌的QS系统,而且尚未发现细菌对其产生耐药性。基于此,梳理了铜绿假单胞菌QS系统的组成及其级联调控关系,简要介绍了植物精油的QS抑制机制和抑制活性,并重点综述了萜烯类化合物、芳香族化合物、脂肪族化合物、含硫含氮化合物4类精油化合物对铜绿假单胞菌QS系统抑制作用的研究进展,以期为从天然化合物中发现和筛选安全、高效的细菌QSI的相关研究提供参考,并为致病菌的防控奠定理论基础。