海洋微生物群体感应抑制剂研究进展

海洋生态环境复杂多变,其未被开发的栖息地蕴藏着丰富且稀有的生物资源,具有高盐、高压、寡营养、常年高温或低温等特点。海洋微生物经过长期持续的缓慢进化,已形成独特的代谢机制来适应海洋相对特殊的生态环境,极大地增加了发现新型活性物质的可能性。因此,海洋微生物代谢产物被认为是发现新型天然活性化合物(群体感应抑制剂)的潜在来源。本文首先介绍群体感应概念及起源,随后简述不同种群群体感应系统,然后介绍群体感应抑制剂定义及分类,最后回顾海洋微生物群体感应抑制剂的研究进展,从而为进一步研究群体感应抑制剂奠定基础,同时也为研发新型抗病原菌感染药物提供新的思路。     

细菌群体感应系统研究进展及其应用

细菌能自发产生、释放一些特定的信号分子,并能感知其浓度变化,调节微生物的群体行为,这一调控系统称为群体感应。细菌群体感应参与包括人类、动植物病原菌致病力在内的多种生物学功能的调节。本文综述了细菌群体感应的最新研究进展,并阐述了其在生物技术领域的应用前景。     

分子对接技术在研究群体感应抑制剂中的进展

在大多数致病菌中都存在群体感应系统,而群体感应抑制剂就是以此系统作为靶点,在不影响细菌生长的情况下阻断细菌生物被膜形成或抑制毒力基因表达,不易导致耐药性的产生,是一种理想的抗菌增效剂。分子对接作为虚拟筛选技术之一,其目标具体、效率高、成本低,是药物研发的重要手段。本文重点介绍了分子对接的主要模块及其在研究群体感应抑制剂中的进展。     

群体感应抑制剂对海洋生态功能菌生物膜形成的影响

[目的]研究天然群体感应抑制剂(Quorum sensing inhibitors,QSI)分子对海洋生态功能菌生物膜形成的影响.[方法]以对污损生物幼虫附着具有诱导作用的海洋细菌为目标菌,通过在其生物膜的形成过程中添加天然群体感应抑制剂,研究其对目标菌成膜细菌数和浮游细菌数、生物膜形态以及生物膜表面胞外多糖含量的影响.[结果]呋喃酮和吡啶在50 mg/L时,对8株目标菌的成膜有显著的抑制作用,抑制率在80％左右,吲哚、青霉烷酸和香豆素在较高浓度800 mg/L才有比较好的抑制活性.生长抑制实验结果显示,同等浓度下,QSI分子对目标菌成膜的抑制活性明显高于其对浮游细菌生长的抑制活性.结果表明,QSI分子主要通过干扰目标菌群体感应系统以抑制生物膜的形成.[结论]研究证实QSI分子在海洋菌生物膜形成过程中具有一定的调控作用.通过添加QSI可能能够间接抑制由生物膜诱导的污损生物附着,从而以新的角度研制新型抗污损物质.     

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。     

细菌群体感应信号分子与抑制剂研究进展

具有群体感应系统的细菌通过相互交换一种自动诱导（autoinducer）信号分子来实现彼此问的信息交流。当信号分子积累到一定浓度时会改变细菌特定基因的表达,如生物膜的形成、生物发光行为、毒性基因的表达、孢子的形成等。近年来,人们发现了多种天然或者人工合成的群体感应抑制剂,可以干扰群感系统的信息回路。本文系统地阐述了细菌群体感应信息系统的划分、自体诱导分子及其抑制剂的研究进展。     

乳酸菌群体感应与其肠道生物膜形成的研究进展

肠道内栖息着数量庞大且复杂的微生物菌群,是一个具有生物多样性的微环境,菌群在调节宿主肠道健康中发挥着重要作用。群体感应(quorumsensing,QS)是细菌间通过化学信号分子进行信息传递的重要方式。本文综述了QS系统组成、信号转导机制及AI-2/LuxS系统对肠道生物膜形成的调控,介绍了乳酸菌AI-2/LuxSQS系统及其在调控生物膜形成上的作用。通过肠道乳酸菌QS与生物膜形成综述分析,旨在为肠道屏障功能和健康调控提供新思路。     

真菌群体感应现象的研究进展

群体感应是细菌中普遍存在的细胞与细胞间的通讯系统,即细菌可通过向环境释放可扩散的信号分子来感知细胞群体密度并调控自身的某些生理行为。近年来研究发现,真菌中也存在类似于细菌群体感应信号分子的信息素,并参与调节真菌诸如菌相转化、致病性及次级代谢产物产生等生理行为。主要综述了目前真菌中群体感应系统的研究进展。     

群体感应抑制剂的筛选及其在微生物病害防治中的应用

在绝大多数病原菌中都发现有群体感应机制存在,用于调控侵染过程中微生物致病基因的表达。群体感应抑制剂处理既能控制微生物致病毒性,又不影响细胞生长,因此不会导致抗性株的形成,是一种理想的抗病原性药物。本文重点探讨了群体感应抑制剂的筛选、种类以及在群体感应过程中的作用机理和潜在应用价值。     

废水处理中群体感应调控行为研究进展

群体感应是微生物在繁殖过程中分泌一些特定的信号分子,当信号分子浓度达到一定阈值后,可以调控某些基因表达,从而实现信息交流的现象.群体感应调控着生物膜形成、公共物质合成、基因水平转移等一系列社会性行为,广泛存在于各类微生物信息交流中.活性污泥、生物膜和颗粒污泥等生物聚集体广泛存在群体感应现象,了解和认识群体感应与微生物之间的调控行为,对于废水处理具有重要意义.本文综述了感应信号分子的分类、群体感应调控机制,群体感应在活性污泥、生物膜、好氧颗粒污泥和厌氧颗粒污泥等废水处理中的调控行为的研究进展,并对废水处理中群体感应的研究进行了展望,以期为深入理解废水处理中群体感应调控行为提供参考.     

凡纳滨对虾优势腐败菌鉴定及其群体感应现象

为了鉴定凡纳滨对虾的优势腐败菌并研究其是否存在以N-酰基高丝氨酸内酯类化合物(AHLs)介导的群体感应系统,采用16S rRNA序列鉴定凡纳滨对虾的优势腐败菌,并采用紫色杆菌CV026对优势腐败菌的AHLs活性进行检测.结果发现凡纳滨对虾优势腐败菌菌株1(Aci-1)和菌株2 (Aci-2)均为不动杆菌属,均存在以AHLs为信号分子的群体感应系统.添加外源信号分子AHLs能促进Aci-1菌株生物膜的形成,且呈浓度依赖性.在一定的贮藏范围内,凡纳滨对虾腐败菌信号分子AHLs浓度与细菌总数、挥发性盐基氮含量存在正相关性,其相关系数r分别为0.846 6和0.986 7,分别在P＜0.05与P＜0.01水平上显著,结论是凡纳滨对虾优势腐败菌不动杆菌菌株存在以AHLs介导的群体感应系统,且与凡纳滨对虾的腐败密切相关.     

Dihydropyrrolones as bacterial quorum sensing inhibitors

Bacteria regulate their pathogenicity and biofilm formation through quorum sensing (QS), which is an intercellular communication system mediated by the binding of signaling molecules to QS receptors such as LasR. In this study, a range of dihydropyrrolone (DHP) analogues were synthesized via the lactone-lactam conversion of lactone intermediates. The synthesized compounds were tested for their ability to inhibit QS, biofilm formation and bacterial growth of Pseudomonas aeruginosa. The compounds were also docked into a LasR crystal structure to rationalize the observed structure-activity relationships. The most active compound identified in this study was compound 9i, which showed 63.1% QS inhibition of at 31.25?µM and 60% biofilm reduction at 250?µM with only moderate toxicity towards bacterial cell growth.     

Effects of quorum sensing on cell viability in Streptococcus mutans biofilm formation

Streptococcus mutans (S. mutans) uses a quorum sensing (QS) signaling system, which is dependent on competence stimulating peptide (CSP), to regulate diverse physiological activities including bacteriocin production, genetic transformation, and biofilm formation. However, the mechanism of the QS system-induced biofilm formation remains unclear. Here, we demonstrated that the late-stage biofilm formation was increased by the addition of exogenous CSP in S. mutans. The numbers of dead cells in biofilms formed in presence of CSP was 64.5% higher than that without CSP after 12 h (p < 0.05) and 76.3% higher after 24 h (p < 0.05), the numbers of live cells in biofilms formed in presence of CSP were 89.3% higher than that without CSP after 24 h (p < 0.01). The expression of QS-associated genes was increased 3.4-5.3-fold by CSP in biofilms. Our results revealed that cell viability of S. mutans grown in biofilms is affected by the CSP-dependent QS system.     

铜绿假单胞菌群体感应系统研究进展

群体感应系统是一种细胞密度依赖的基因表达系统,其广泛存在于细菌性病原体中,是细菌细胞通讯方式的一种。群体感应系统可利用细菌释放的信号分子不断监控周围细菌的密度。当细菌密度达到阈值时,群体感应系统网络将启动,参与调控生物被膜、细菌毒力等特定基因的表达,从而使临床抗感染治疗失败。而通过抑制群体感应系统,可一定程度上治疗铜绿假单胞菌引起的感染。本文通过查阅近年国内外相关文献,对铜绿假单胞菌群体感应系统研究进展进行总结,为临床铜绿假单胞菌治疗提供新的方向,即群体感应系统抑制剂有可能成为治疗铜绿假单胞菌感染的新策略。     

A mathematical model of the Gac/Rsm quorum sensing network in Pseudomonas fluorescens

I present a deterministic model of the dynamics of signal transduction and gene expression in the Gac/Rsm network of the soil-dwelling bacterium Pseudomonas fluorescens. The network is involved in quorum sensing and governs antifungal production in this important biocontrol agent. A central role is played by small untranslated RNAs, which sequester regulatory mRNA-binding proteins. The model provides a reasonable match to the available data, which consists primarily of time series from reporter gene fusions. I use the model to investigate the information-processing properties of the Gac/Rsm network, in part by comparing it to a simplified model capable of quorum sensing. The results suggest that the complexity and redundancy of the Gac/Rsm network have evolved to meet the conflicting requirements of high sensitivity to environmental conditions and a conservative, robust response to variability in parameter values. Similar systems exist in a wide variety of bacteria, where they control a diverse set of population-dependent behaviors. This makes them important subjects for mathematical models that can help link empirical understanding of network structure to theoretical insights into how these networks have evolved to function under natural conditions.     

Inhibition of quorum sensing in a computational biofilm simulation

Bacteria communicate through small diffusible molecules in a process known as quorum sensing. Quorum-sensing inhibitors are compounds which interfere with this, providing a potential treatment for infections associated with bacterial biofilms. We present an individual-based computational model for a developing biofilm. Cells are aggregated into particles for computational efficiency, but the quorum-sensing mechanism is modelled as a stochastic process on the level of individual cells. Simulations are used to investigate different treatment regimens. The response to the addition of inhibitor is found to depend significantly on the form of the positive feedback in the quorum-sensing model; in cases where the model exhibits bistability, the time at which treatment is initiated proves to be critical for the effective prevention of quorum sensing and hence potentially of virulence.     

Biogenesis of methane in primate dental plaque

Dental plaque samples collected from monkeys (Macaca mulatta) were found to contain a large amount of dissolved methane gas (0.6 nmol CH4/mg wet wt plaque). Enrichment cultures inoculated with dental plaque obtained from Macaca fascicularis produced methane when the medium contained ethanol, methanol, lactate, acetate or a hydrogen + CO2 atmosphere. Methane formation in the enrichments was inhibited by oxidation of the culture medium, autoclaving or the addition of 2-bromoethane sulfonic acid (BES). The methane producing enrichments were observed to contain fluorescent cocci occurring singly and in short chains. It was concluded that methane formation in the monkey dental plaque was the result of the presence of methanogenic bacteria.     

铜绿假单胞菌群体感应抑制剂研究进展

铜绿假单胞菌是一种常见的机会致病菌,可在人群中引起严重的急性和慢性感染,是病人在医院期间发生感染的第三大致病菌。铜绿假单胞菌多种毒力因子的分泌以及生物被膜的形成都是受一种被称为群体感应(Quorum Sensing,QS)的胞间信号传导系统调控的。QS使细菌能够根据细胞密度变化进行基因表达的调控。通过抑制QS来治疗铜绿假单胞菌感染是一个很有前景的发展方向。本文将就近年来铜绿假单胞菌群体感应抑制剂的研究进展进行综述。