活性污泥中群体感应淬灭菌的分离纯化及功能验证

【背景】近年来,群体感应淬灭(Quorum Quenching,QQ)技术在膜生物污堵防控中的应用研究受到了广泛关注。然而,目前已成功分离纯化的高效QQ菌有限,更多高效QQ菌资源亟待挖掘。【目的】从实际运行的膜生物反应器(MembraneBioreactor,MBR)活性污泥中采样,分离并富集高效QQ菌。【方法】以根瘤农杆菌(Agrobacterium tumefaciens) A136为报告菌株,使用指示琼脂平板法测定各菌株的N-辛酰基高丝氨酸内酯(N-Octanoyl-DL-Homoserine Lactone,C8-HSL)降解能力。以紫色色杆菌(Chromobacterium violaceum) VIR24为报告菌株,定量测定所得QQ菌降解N-己酰高丝氨酸内酯(N-Hexanoyl-DL-Homoserine Lactone,C6-HSL)信号分子的能力。通过微生物形态、生理生化及16SrRNA基因序列测定、构建系统发育树、扫描电子显微镜形态观测等方法对菌株进行分类学鉴定。用共培养法分析QQ菌对生物膜形成的抑制能力,通过聚乙烯醇和海藻酸钠包埋固定化QQ菌。【结果】筛选出了6株高效QQ菌,其中对C8-HSL分解能力最强的为杆状、革兰氏阴性戴尔福特菌属(Delftia sp.) JL5。定量分析结果表明菌株JL5能在10 h内完全降解C6-HSL。菌株JL5显著抑制铜绿假单胞菌(Pseudomonas aeruginosa) PAO1和菠萝泛菌(Pantoea ananatis) SK-1生物膜的形成。固定化后的JL5微球仍具有高效的C6-HSL和C8-HSL信号分子分解能力,而且分解速度较被广泛报道的红球菌(Rhodococcussp.)BH4更快。【结论】研究分离得到了高效的QQ菌,能够有效抑制N-酰基高丝氨酸内酯(N-Acyl-HomoserineLactones,AHL)型群体感应菌生物膜的形成,固定化后仍然具有强QQ活性,具备广泛的应用前景,为后续QQ膜生物污堵防控技术的实践应用奠定了基础。     

Preparation of a mesoporous silica quorum quenching medium for wastewater treatment using a membrane bioreactor

Abstract

Various quorum quenching (QQ) media have been developed to mitigate membrane biofouling in a membrane bioreactor (MBR). However, most are expensive, unstable and easily trapped in hollow fibre membranes. Here, a sol-gel method was used to develop a mesoporous silica medium entrapping a QQ bacterial strain (Rhodococcus sp. BH4). The new silica QQ medium was able to remove quorum sensing signalling molecules via both adsorption (owing to their mesoporous hydrophobic structure) and decomposition with an enzyme (lactonase), preventing MBR biofouling without affecting the water quality. It also demonstrated a relatively long life span due to its non-biodegradability and its relatively small particle size (<1.0?mm), which makes it less likely to clog in a hollow fibre membrane module.     

基于Lux型群体感应系统干预的生物被膜调控在污水处理中的研究进展与前景

基于Lux型群体感应系统的生物被膜调控在污水处理中的研究备受关注,群体感应系统的干预包括正向强化和负向削弱两类。群体感应系统的正向强化作用可提高生物膜法污水处理中的挂膜速度,提高污水处理效率,促进活性污泥中胞外聚合物(Extracellular polymeric substance,EPS)和可溶性微生物产物(Soluble microbial products,SMP)的生成,提高生物被膜的产量;群体感应的负向削弱作用可以降解生物被膜形成过程中所需要的信号分子,切断生物被膜形成的基因表达过程,有效抑制MBR膜表面生物被膜的形成,防止膜污染。对信号分子酰基高丝氨酸内酯(N-acyl homoserine lactone,AHLs)的结构和作用机理的进一步研究、群体感应淬灭菌的固定化技术与应用、多种防治膜污染方法的协同效果验证及群体感应干预在更多污水处理领域的应用可行性是该领域要研究的几个重要方向。     

Microbial population dynamics and proteomics in membrane bioreactors with enzymatic quorum quenching

Quorum sensing gives rise to biofilm formation on the membrane surface, which in turn causes a loss of water permeability in membrane bioreactors (MBRs) for wastewater treatment. Enzymatic quorum quenching was reported to successfully inhibit the formation of biofilm in MBRs through the decomposition of signal molecules, N-acyl homoserine lactones (AHLs). The aim of this study was to elucidate the mechanisms of quorum quenching in more detail in terms of microbial population dynamics and proteomics. Microbial communities in MBRs with and without a quorum quenching enzyme (acylase) were analyzed using pyrosequencing and compared with each other. In the quorum quenching MBR, the rate of transmembrane pressure (TMP) rise-up was delayed substantially, and the proportion of quorum sensing bacteria with AHL-like autoinducers (such as Enterobacter, Pseudomonas, and Acinetobacter) also decreased in the entire microbial community of mature biofilm in comparison to that in the control MBR. These factors were attributed to the lower production of extracellular polymeric substances (EPS), which are known to play a key role in the formation of biofilm. Proteomic analysis using the Enterobacter cancerogenus strain ATCC 35316 demonstrates the possible depression of protein expression related to microbial attachments to solid surfaces (outer membrane protein, flagellin) and the agglomeration of microorganisms (ATP synthase beta subunit) with the enzymatic quorum quenching. It has been argued that changes in the microbial population, EPS and proteins via enzymatic quorum quenching could inhibit the formation of biofilm, resulting in less biofouling in the quorum quenching MBR.     

Quorum sensing: an emerging link between temperature and membrane biofouling in membrane bioreactors

Lab-scale membrane bioreactors (MBRs) were investigated at 12, 18, and 25?°C to identify the correlation between quorum sensing (QS) and biofouling at different temperatures. The lower the reactor temperature, the more severe the membrane biofouling measured in terms of the transmembrane pressure (TMP) during filtration. More extracellular polymeric substances (EPSs) that cause biofouling were produced at 18?°C than at 25?°C, particularly polysaccharides, closely associated with QS via the production of N-acyl homoserine lactone (AHL). However, at 12?°C, AHL production decreased, but the release of EPSs due to deflocculation increased the soluble EPS concentration. To confirm the temperature effect related to QS, bacteria producing AHL were isolated from MBR sludge and identified as Aeromonas sp., Leclercia sp., and Enterobacter sp. through a 16S rDNA sequencing analysis. Batch assays at 18 and 25?°C showed that there was a positive correlation between QS through AHL and biofilm formation in that temperature range.     

Effective biofilm control in a membrane biofilm reactor using a quenching bacterium (Rhodococcus sp. BH4)

The biofilm thickness in membrane biofilm reactors (MBfRs) is an important factor affecting system performance because excessive biofilm formation on the membrane surface inhibits gas diffusion to the interior of the biofilm, resulting in a significant reduction in the performance of contaminant removal. This study provides innovative insights into the control of biofilm thickness in O₂-based MBfRs by using the quorum quenching (QQ) method. The study was carried out in MBfRs operated at different gas pressures and hydraulic retention times (HRTs) using QQ beads containing Rhodococcus sp. BH4 at different amounts. The highest performance was observed in reactors operated with 0.21 ml QQ bead/cm² membrane surface area, 12 HRTs and 1.40 atm. Over this period, the performance increase in chemical oxygen demand (COD) removal was 25%, while the biofilm thickness on the membrane surface was determined to be 250 μm. Moreover, acetate and equivalent oxygen flux results reached 6080 and 10 640 mg·m⁻²·d⁻¹ maximum values, respectively. The extracellular polymeric substances of the biofilm decreased significantly with the increase of gas pressure and QQ beads amount. Polymerase chain reaction denaturing gradient gel electrophoresis results showed that the microbial community in the MBfR system changed depending on operating conditions and bead amount. The results showed that the QQ method was an effective method to control the biofilm thickness in MBfR and provide insights for future research.     

Biofouling control and sludge properties promotion through quorum quenching in membrane bioreactors at two aeration intensities

Objective

A modified method was used for cell entrapped beads (CEBs) preparation and two aeration intensities (low and high aeration intensity) was supplied as factors to investigate the change of quorum quenching performance for membrane biofouling in membrane bioreactor (MBR).

Results

Dehydrogenase activity and growth trend of activated sludge were improved at high aeration intensity. Compared with C-MBR (with vacant beads), QQ-MBR (with CEBs) had more stable quorum quenching activity and longer application time at high aeration intensity, in which the proteins and polysaccharides were reduced by 15 and 20%, respectively. The difference of EPS concentration in mixed liquor was attributed to the protein concentration controlled by quorum quenching bacteria, meanwhile sufficient organics was necessary to maintain the process.

Conclusions

The better settleability, greater stability and relatively lower hydrophobicity of activated sludge properties was achieved with quorum quenching. The scouring effect of CEBs was promoted at high aeration intensity, further controlling the membrane biofouling.

     

Quorum quenching activity in Anabaena sp. PCC 7120: identification of AiiC, a novel AHL-acylase

Many bacteria use quorum sensing (QS) to coordinate responses to environmental changes. In Gram-negative bacteria, the most extensively studied QS systems rely on the use of N -acylhomoserine lactones (AHLs) signal molecules. Some bacteria produce enzymes that are able to inactivate AHL signals produced by other bacteria and hence interfere with QS-mediated processes via a phenomenon known as quorum quenching. Acylase-type AHL degradation activity has been found in the biomass of the filamentous nitrogen-fixing cyanobacterium Anabaena ( Nostoc ) sp. PCC 7120, being absent from the culture media. The gene all3924 has been identified and cloned whose product exhibits homology to the acylase QuiP of Pseudomonas aeruginosa PAO1, demonstrating that it is at least partially responsible for the AHL-acylase activity. The recombinant enzyme, which was named auto-inducer inhibitor from Cyanobacteria (AiiC), shows broad acyl-chain length specificity. Because the presence of AHLs in the biomass of nitrogen-fixing cultures of Anabaena sp. PCC 7120 has been described recently, AiiC could represent a self-modulatory system to control the response to its own QS signals but could also be involved in the interference of signalling within complex microbial communities in which Cyanobacteria are present.     

海洋微生物群体感应与群体感应淬灭的开发利用

群体感应与感应淬灭在微生物中普遍存在,群体感应通过调控基因表达赋予细菌有益或有害的特性,这些特性与人类健康、农业及水产养殖等领域密切相关。群体感应现象首先发现于海洋环境,近几年海洋采样等相关技术的发展,极大促进了海洋微生物的群体感应与淬灭研究的快速发展。本文对细菌及典型真菌的群体感应作用机制、信号分子的多样性以及其与细菌致病性的相关性进行了阐述,对群体感应淬灭的机制与意义、淬灭因子多样性以及相关酶资源的发掘也进行了分析和展望。     

细菌群体感应调控多样性及群体感应淬灭

群体感应(Quorum sensing, QS)是细菌通过信号分子分泌、识别,从而调控基因水平转移、毒力因子分泌、芽孢产生及生物膜形成等群体行为的细胞交流机制。干扰信号分子的分泌、识别,可以阻断群体感应,实现群体淬灭。群体淬灭(Quorum quenching, QQ)是目前致病性控制、致腐性预防以及生物膜污染削减的重要策略之一。本文以群体感应信号分泌-识别-响应为主线,将群体感应分为等级、平行及竞争型三类调控方式,并对其特征进行了详细阐述;同时,探讨了信号分子类似物、信号分子降解酶剂、信号受体激活剂/抑制剂等策略在不同调控方式淬灭中的适用性;最后,对群体感应调控及淬灭进行了展望,以期为丰富细菌群体感应认知、促进群体淬灭应用提供参考。     

青岛近海沉积物生物被膜中密度感应及密度感应淬灭细菌多样性

【背景】细菌密度感应(Quorum sensing,QS)是指细菌利用分泌的信号分子进行相互交流的现象,而密度感应淬灭(Quorumquenching,QQ)是指通过干扰信号分子的产生、释放、积累或应答从而阻抑密度感应通路。【目的】探究青岛近海沉积物生物被膜中密度感应和密度感应淬灭细菌的多样性。【方法】采用海水培养基2216E从青岛近海沉积物生物被膜中分离获取可培养细菌,采用平板交互划线和高通量筛选的方法分别筛选具有密度感应和密度感应淬灭的菌株。【结果】共分离获得83株共54种具有密度感应和密度感应淬灭的细菌,分属于四大细菌门类:变形菌门、拟杆菌门、厚壁菌门和放线菌门。其中,38株(45.8%)可以产生酰基高丝氨酸内酯(Acyl-homoserine lactone,AHL)类信号分子,它们分属于变形菌门(37株,15种)和拟杆菌门(1株,1种),优势属为弧菌属和鲁杰氏菌属;能够降解AHL类信号分子的有57株(68.7%),在变形菌门(41株,23种)、拟杆菌门(14株,10种)、厚壁菌门(5株,5种)以及放线菌门(1株,1种)中均有分布。【结论】在青岛近海沉积物生物被膜可培养细菌中,具有密度感应和密度感应淬灭现象的菌株具有很高的丰度和多样性,为后续生态学意义的研究与海洋微生物的开发提供了参考。     

Targeting N-acyl-homoserine-lactones to mitigate membrane biofouling based on quorum sensing using a biofouling reducer

Exploring novel biological anti-quorum sensing (QS) agents to control membrane biofouling is of great worth in order to allow sustainable performance of membrane bioreactors (MBRs) for wastewater treatment. In recent studies, QS inhibitors have provided evidence of alternative route to control membrane biofouling. This study investigated the role of Piper betle extract (PBE) as an anti-QS agent to mitigate membrane biofouling. Results demonstrated the occurrence of the N-acyl-homoserine-lactone (AHL) autoinducers (AIs), correlate QS activity and membrane biofouling mitigation. The AIs production in bioreactor was confirmed using an indicator strain Agrobacterium tumefaciens (NTL4) harboring plasmid pZLR4. Moreover, three different AHLs were found in biocake using thin layer chromatographic analysis. An increase in extracellular polymeric substances (EPS) and transmembrane pressure (TMP) was observed with AHL activity of the biocake during continuous MBR operation, which shows that membrane biofouling was in close relationship with QS activity. PBE was verified to mitigate membrane biofouling via inhibiting AIs production. SEM analysis further confirmed the effect of PBE on EPS and biofilm formation. These results exhibited that PBE could be a novel agent to target AIs for mitigation of membrane biofouling. Further work can be carried out to purify the active compound of Piper betle extract to target the QS to mitigate membrane biofouling.     

Isolation and identification of quorum quenching bacteria from environmental samples

A large number of Gram-negative pathogens produce N-acylhomoserine lactones (AHLs) as signal molecules for quorum sensing (QS). This cell-cell communication system allows them to coordinate gene expression and regulate virulence. Therefore, strategies to inhibit QS are promising for the control of infectious diseases. The aim of the present study was to develop a high-throughput method for the isolation and identification of AHL-degrading bacteria from environmental samples. Samples were cultured in a microtitre plate in a minimal medium containing 1 mM N-(3-oxo-dodecanoyl)-l-homoserine lactone and 2 mM N-(3-oxo-hexanoyl)-l-homoserine lactone as the sole sources of carbon and nitrogen. Isolates growing on this minimal medium were subcultured and identified by partial 16S rRNA gene sequencing. Subsequently, the AHL-degrading capacity of each isolate was evaluated in the Pseudomonas aeruginosa QSIS2 biosensor assay, as such or after treatment with heat or proteinase K. The 16 samples tested yielded a total of 59 isolates which are, either alone or as part of a consortium, able to use AHL signal molecules as sole sources of carbon and nitrogen. Follow-up experiments have shown that in each sample there is at least one isolate with quorum quenching (QQ) activity, and that for all samples combined, 41 isolates have QQ activity. Furthermore, heat treatment did not fully inhibit QQ activity in all isolates. In some isolates, QQ activity was lost after proteinase K treatment, while others remained able to quench QS. Therefore, it is likely that some isolates produce and secrete (a) heat-stable, low molecular weight inhibitory compound(s).     

Cis-9-octadecenoic acid from the rhizospheric bacterium Stenotrophomonas maltophilia BJ01 shows quorum quenching and anti-biofilm activities

Quorum quenching (QQ) is an effective approach for the prevention of bacterial infections involving biofilms. This study reports the QQ and anti-biofilm activities of a rhizospheric bacterium identified as Stenotrophomonas maltophilia BJ01. The QQ activity was demonstrated using Chromobacterium violaceum CV026 as a biosensor. A maximum of 95% reduction in violacein production, a quorum sensing-regulated behavior, was observed. Gas chromatography–mass spectroscopy of the extract showed that the active compound was cis-9-octadecenoic acid, which was confirmed by electronspray ionization–mass spectroscopy data. The extract also inhibited biofilm formation of Pseudomonas aeruginosa ATCC 9027 without affecting its growth. Scanning electron and atomic force microscopy showed architectural disruption of the biofilm when treated with the extract. This is the first report of the QQ and anti-biofilm activities of cis-9-octadecenoic acid isolated from any bacterium. It may have the potential to combat detrimental infections with P. aeruginosa. Further validation is required for any possible medical application.     

Biofouling inhibition in MBR by Rhodococcus sp. BH4 isolated from real MBR plant

It has been reported that an indigenous quorum quenching bacterium, Rhodococcus sp. BH4, which was isolated from a real plant of membrane bioreactor (MBR) has promising potential to control biofouling in MBR. However, little is known about quorum quenching mechanisms by the strain BH4. In this study, various characteristics of strain BH4 were investigated to elucidate its behavior in more detail in the mixed liquor of MBR. The N-acyl homoserine lactone hydrolase (AHL–lactonase) gene of strain BH4 showed a high degree of identity to qsdA in Rhodococcus erythropolis W2. The LC-ESI-MS analysis of the degradation product by strain BH4 confirmed that it inactivated AHL activity by hydrolyzing the lactone bond of AHL. It degraded a wide range of N-acyl homoserine lactones (AHLs), but there was a large difference in the degradation rate of each AHL compared to other reported AHL–lactonase-producing strains belonging to Rhodococcus genus. Its quorum quenching activity was confirmed not only in the Luria-Bertani medium, but also in the synthetic wastewater. Furthermore, the amount of strain BH4 encapsulated in the vessel as well as the material of the vessel substantially affected the quorum quenching activity of strain BH4, which provides useful information, particularly for the biofouling control in a real MBR plant from an engineering point of view.     

Quorum sensing unveils the sludge floccule-assisted stabilization of aerobic granules in granule-dominated sequencing batch reactors

Floccules are another major form of microbial aggregates in aerobic granular sludge systems. Previous studies mainly attributed the persistence of floccules to their relatively faster nutrient uptake and higher growth rate over aerobic granules; however, they failed to unravel the underlying mechanism of the long-term coexistence of these two aggregates. In this work, the existence and function of the floccules in an aerobic granule-dominated sequencing batch reactor were investigated from the view of quorum sensing (QS) and quorum quenching (QQ). The results showed that though the floccules were closely associated with the granules in terms of similar community structures (including the QS- and QQ-related ones), they exhibited a relatively higher QQ-related activity but a lower QS-related activity. A compatible proportion of floccules might be helpful to maintain the QS-related activity and keep the granules stable. In addition, the structure difference was demonstrated to diversify the QS- and QQ-related activities of the floccules and the aerobic granules. These findings could broaden our understanding of the interactions between the coexistent floccules and granules in aerobic granule-dominated systems and would be instructive for the development of the aerobic granular sludge process.     

Pseudomonas as a frequent and important quorum quenching bacterium with biocontrol capability against many phytopathogens

The aim of the present study was to isolate a variety of quorum quenching bacteria (QB) from the rhizosphere and phyllosphere of three agricultural plants using minimal medium (MM)- and non-minimal medium (NM)-based methods. The members of the Pseudomonas genus constituted the most abundant QB genus, particularly in the rhizospheres of all plant samples and showed the highest quorum quenching (QQ) activity according to a screening assay using a biosensor and 3-oxo-C6-HSL (as an important quorum sensing signal in many phytopathogenic bacteria). In addition, QQ-Pseudomonas were recognised as versatile biocontrol agents against non-bacterial and bacterial plant pathogens, such as Pectobacterium carotovorum subsp. carotovorum (Pcc). Three types of quenching activities, including intracellular and extracellular enzymatic and non-enzymatic activities, were observed in QQ-Pseudomonas. Pseudomonas strains, particularly NM-isolated strains with extracellular activity, are the strongest QQ-based biocontrol agents.     

Determination of whether quorum quenching is a common activity in marine bacteria by analysis of cultivable bacteria and metagenomic sequences

The abundance of quorum quenching (QQ) activity was evaluated in cultivable bacteria obtained from oceanic and estuarine seawater and compared with the frequency of QQ enzyme sequences in the available marine metagenomic collections. The possible role of the high QQ activity found among marine bacteria is discussed.     

Recent advances in membrane bio-technologies for sludge reduction and treatment

This paper is designed to critically review the recent developments of membrane bio-technologies for sludge reduction and treatment by covering process fundamentals, performances (sludge reduction efficiency, membrane fouling, pollutant removal, etc.) and key operational parameters. The future perspectives of the hybrid membrane processes for sludge reduction and treatment are also discussed. For sludge reduction using membrane bioreactors (MBRs), literature review shows that biological maintenance metabolism, predation on bacteria, and uncoupling metabolism through using oxic-settling-anaerobic (OSA) process are promising ways that can be employed in full-scale applications. Development of control methods for worm proliferation is in great need of, and a good sludge reduction and MBR performance can be expected if worm growth is properly controlled. For lysis-cryptic sludge reduction method, improvement of oxidant dispersion and increase of the interaction with sludge cells can enhance the lysis efficiency. Green uncoupler development might be another research direction for uncoupling metabolism in MBRs. Aerobic hybrid membrane system can perform well for sludge thickening and digestion in small- and medium-sized wastewater treatment plants (WWTPs), and pilot-scale/full-scale applications have been reported. Anaerobic membrane digestion (AMD) process is a very competitive technology for sludge stabilization and digestion. Use of biogas recirculation for fouling control can be a powerful way to decrease the energy requirements for AMD process. Future research efforts should be dedicated to membrane preparation for high biomass applications, process optimization, and pilot-scale/full-scale tracking research in order to push forward the real and wide applications of the hybrid membrane systems for sludge minimization and treatment.     

Luminescence, virulence and quorum sensing signal production by pathogenic Vibrio campbellii and Vibrio harveyi isolates

Aims:  To study the relationship between luminescence, autoinducer production and virulence of pathogenic vibrios. Methods and Results:  Luminescence, quorum sensing signal production and virulence towards brine shrimp nauplii of 13 Vibrio campbellii and Vibrio harveyi strains were studied. Although only two of the tested strains were brightly luminescent, all of them were shown to produce the three different types of quorum sensing signals known to be produced by Vibrio harveyi. Cell-free culture fluids of all strains significantly induced bioluminescence in the cholerae autoinducer 1, autoinducer 2 and harveyi autoinducer 1 reporter strains JAF375, JMH597 and JMH612, respectively. There was no relation between luminescence and signal production and virulence towards brine shrimp. Conclusions:  There is a large difference between different strains of Vibrio campbellii and Vibrio harveyi with respect to bioluminescence. However, this is not reflected in signal production and virulence towards gnotobiotic brine shrimp. Moreover, there seems to be no relation between quorum sensing signal production and virulence towards brine shrimp. Significance and Impact of the Study:  The results presented here indicate that strains that are most brightly luminescent are not necessarily the most virulent ones and that the lower virulence of some of the strains is not due to a lack of autoinducer production.