成像InlC的分泌由细菌病原体调查感染蜂窝<em>单核细胞增生李斯特氏菌</em
Summary
李斯特菌是一种革兰氏阳性细菌病原体常作为细胞内寄生的研究的主要模型。后期成像L.菌的小干扰RNA的屏幕范围内感染阶段允许所需的靶宿主细胞的细菌感染的细胞通路的全球研究。
Abstract
细菌细胞内病原体可以设想作为分子工具来剖析,由于其能力,以精美的操纵和颠覆所必需的宿主靶组织感染细胞功能的细胞信号级联。在这些细菌病原体, 李斯特菌是,已被用来作为一个范例为细胞内寄生的细胞免疫应答的表征一种革兰氏阳性微生物,并且其在分子通路控制细胞骨架和膜运输动力学的发现发挥大的作用。在这篇文章中,我们描述了一个强大的显微镜测定法属晚期细胞感染阶段的检测根据InlC的,分泌的细菌蛋白,其存储在被感染细胞的细胞质中的荧光标记的单核细胞 ,该测定可耦合到自动化的高通量小分子干扰RNA的屏幕,以便为characterize涉及的向上或向下调节感染的细胞信号途径。
Introduction
对革兰氏阳性细菌李斯特菌食源性病原体侵入宿主细胞,破坏其内在液泡和复制的宿主细胞1的细胞质。L。菌易于操纵与在细胞和动物模型中观察到细菌毒力性状的持久性相关的实验室环境(快速增长,对健康人低毒性)(溶血活性,白细胞增多)允许在上世纪60年代初期使用作为一个重要的模型研究细胞内寄生,并建立细胞抗感染2免疫力的理论基础。 20世纪80年代末90年代初,细菌细胞内循环3,以及最重要的细菌毒力的分子特性的解剖因素4-7赞成使用L的菌等作为操纵和螺柱的一个关键分子工具Ÿ的宿主细胞的功能。无毒的李斯特菌属的存在(L.英诺克 )和毒力( 单增李斯特菌 )的物种铺平了道路,比较基因组研究8,与最近设立了完整的L.在一起单核细胞转录组9,增加了我们L的进化的理解菌作为一种人类病原体和感染模型系统研究10。
单增李斯特菌在细菌表面的蛋白质INLA和InlB与宿主细胞受体的E-钙粘蛋白和蛋氨酸,分别为11-12之间的相互作用诱导其内化进入宿主细胞。初始候选为基础的研究导致了α/β连环蛋白-肌动蛋白链路的标识作为磷脂酰肌醇3 -激酶(PI3-K)和INLA入侵通路13的作为InlB-关键效应一个显著成分依赖入侵卡斯卡德14-15。蛋白质组学和功能为基础的检测后允许新颖的骨架元素16和所需的宿主细胞侵袭脂质第二信使17的鉴定。转录研究18和质谱为基础的定量蛋白质组学19最近关于棚主信号通路的激活和免疫反应L.在镇压新的光菌感染。系统生物学的方法基础上,大型成套基因(kinomes,完整的基因组)的小干扰RNA失活(RNA干扰)沉默最近已经开始了全球主机在特定的细胞功能,包括细胞吞噬功能的背景下信号通路分析的新途径和病原体内在20。全基因组siRNA筛选此前已进行调查所需的L的感染细胞级联在果蝇吞噬单核细胞增生 </eM> S2细胞21-22,但还没有在非吞噬细胞来进行这种类型的分析,这代表体内感染的关键目标。
我们已经进行了优化的协议由L.的显微镜检测感染的晚期阶段这适合于上皮细胞内细菌条目的高通量siRNA的研究菌等 。我们的实验需要一个高度侵袭性L的优势菌菌株呈现在PRFA,L的主要转录调节子的点突变菌毒力因子6:这种突变(名为PRFA *)呈现PRFA组成性激活23,并导致入侵的蛋白质INLA和InlB的表达增加,从而有利于在其他不佳感染非吞噬细胞的细菌进入。我们的读出对于感染是基于分泌性细菌蛋白InlC的的细胞质积累的检测:该分子是一个由胞质内L.优先表达一种多效性效应单核细胞增生 9和其参与不仅在细菌细胞至细胞传播24,但它也调节宿主的免疫反应25。 InlC的分泌的胞内细菌的荧光标记不仅可以明确区分感染与非感染的细胞,也代表一个端点的读出,可用于随后解剖感染在其不同的步骤:输入,空泡逃逸,胞浆菌增殖和细胞 – 细胞间传播。这个显微镜为基础的协议可以被耦合到siRNA筛选因此,研究涉及在宿主细胞中的由L.感染细胞途径菌等 。
Protocol
Representative Results
Discussion
几个参数是我们InlC的检测协议的成功,包括使用健康细胞系显示一个足够大的胞质,以允许一个明确的检测InlC的信号是至关重要的。在试验中,我们提出本文中,我们提议使用的HeLa细胞的CCL2的,这是特别适合于我们的测定法由于其细胞内空间的延伸中,其他的HeLa克隆诸如海拉京都细胞显示出更小的细胞质中,但可用于与我们的感染协议(京都的HeLa细胞,特别适合于分割的分析,因为细胞不与?…
Disclosures
The authors have nothing to disclose.
Acknowledgements
研究体育科萨特实验室是支持的巴斯德研究所,研究所国家德拉桑特等德拉RECHERCHEMédicale,研究所法国国家农艺,ERC高级格兰特(233348),该法新社国立德拉RECHERCHE(批准MIE- SignRupVac),路易 – Jeantet基金会和基金会乐罗克莱斯Mousquetaires酒店。 AK是从巴斯德 – 巴黎大学国际博士课程/学院卡诺弊端Infectieuses奖学金的获得者。我们感谢杰森 – 美世优化细胞转染协议。
Materials
| Name of Material/ Equipment | Company | Catalog Number | Comments/Description |
| Bacto Brain Heart Infusion | BD | 237500 | For liquid BHI preparation |
| Bacto Agar | BD | 214010 | Supplement to liquid BHI for BHI agar plates |
| Heat-Inactivated Fetal Bovine Serum | Biowest | 51830-500 | |
| DMEM | Invitrogen | 61965-026 | |
| Lipofectamine RNAiMax | Invitrogen | 13778-100 | |
| Gentamicin | Sigma | G1397-10ML | |
| Formaldehyde (16%) | EMS | 15710 | Prepare fresh before each experiment |
| Anti-Rabbit Alexa Fluor 546 | Invitrogen | A-11035 | |
| DAPI | Invitrogen | D-1306 | |
| Phalloidin Dy647 | Dyomics | 647-33 | |
| siRNA Scramble | Dharmacon | D-001810-10 | |
| siRNA Met | Dharmacon | L-003156-00-0005 | |
| Black 384-well microscopy cell culture plate | Corning | 3985 | |
| AxioObserver Z1 microscope | Zeiss | 431007 9901 | |
| sCMOS camera | Andor | Neo | |
| Metamorph analysis software | Molecular Devices | 4000 | |
| CellProfiler analysis software | Broad Institute | Public software available at http://www.cellprofiler.org/ |
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