Identification of a sigma B-dependent small noncoding RNA in Listeria monocytogenes

In Listeria monocytogenes, the alternative sigma factor σ^B plays important roles in stress tolerance and virulence. Here, we present the identification of SbrA, a novel small noncoding RNA that is produced in a σ^B-dependent manner. This finding adds the σ^B regulon to the growing list of stress-induced regulatory circuits that include small noncoding RNAs.     

Nucleotide-dependent conformational changes in the sigma54-dependent activator DctD

Activators of sigma(54)-RNA polymerase holoenzyme couple ATP hydrolysis to formation of an open promoter complex. DctD(Delta1-142), a truncated and constitutively active form of the sigma(54)-dependent activator DctD from Sinorhizobium meliloti, displayed an altered DNase I footprint at its binding site located upstream of the dctA promoter in the presence of ATP. The altered footprint was not observed for a mutant protein with a substitution at or near the putative arginine finger, a conserved arginine residue thought to contact the nucleotide. These data suggest that structural changes in DctD(Delta1-142) during ATP hydrolysis can be detected by alterations in the DNase I footprint of the protein and may be communicated by interactions between bound nucleotide and the arginine finger. In addition, kinetic data for changes in fluorescence energy transfer upon binding of 2'(3')-O-(N-methylanthraniloyl)-ATP (Mant-ATP) to DctD(Delta1-142) and DctD suggested that these proteins undergo multiple conformational changes following ATP binding.     

Listeria monocytogenes, a unique model in infection biology: an overview

This review rather than covering the whole field intends to highlight recent findings on the Listeria monocytogenes infectious process or some Listeria specific traits, place them within the framework of well-established data, and demonstrate how this Gram-positive bacterium has, in two decades, emerged as a multifaceted paradigm. Indeed, the cell biology of the infectious process has been deciphered in great detail and provided insights in both the way bacterial pathogen manipulate the host and unsuspected functions of well-known cellular proteins. The intra- and intercellular motility has in particular been instrumental in understanding actin-based motility in general. The analysis of the two main Listeria invasion proteins and that of their host specificities have illustrated how in vitro studies can help generating or choosing relevant animal models for in vivo studies. Listeria post-genomics studies have highlighted the power of comparative genomics in virulence studies. Together, Listeria, after being recognized as a powerful tool in immunology, now appears as one of the most insightful models in infection biology.     

单核细胞增多性李斯特菌氨基肽酶Lmo1711体外表达及其酶活分析

对单核细胞增多性李斯特菌(简称单增李斯特菌)lmo1711基因编码的氨基肽酶进行克隆表达与纯化,并研究该重组蛋白的体外酶学特性。首先通过生物信息学分析预测Lmo1711与氨基肽酶家族成员的亲缘关系及关键活性位点的保守性。利用SWISS-MODEL模拟预测该蛋白的空间结构;构建Lmo1711原核表达载体并转化入E.coli Rosetta中,诱导表达重组目的蛋白,并利用镍离子亲和层析方法纯化目的蛋白;以氨基酸-对硝基苯胺偶联物为底物,Lmo1711通过水解底物N端氨基酸残基产生游离对硝基苯胺单体,405 nm处检测吸光值对该产物进行检测从而分析Lmo1711的酶学特性。在此基础上系统研究Lmo1711对不同氨基酸残基底物的催化特异性,及不同金属离子对该酶活性的影响。经原核表达纯化获得49.3 kDa的重组Lmo1711蛋白,与预测分子量一致;生物信息学分析推测Lmo1711属于M29氨基肽酶家族,且存在保守关键氨基酸活性位点(Glu250、Glu316、His345、Tyr352、His378、Asp380);酶活分析显示,Lmo1711具有较强的氨基肽酶活性,针对不同底物的结合和催化能力差异较大,对亮氨酸残基的亲和程度最高;Lmo1711氨基肽酶活性具有金属离子依赖性,Co~(2+)、Cd~(2+)、Zn~(2+)等多种金属离子均能显著增强其活性,其中Co~(2+)的激活效应最显著。本试验首次发现并证实,单增李斯特菌Lmo1711属于M29氨基肽酶家族成员,具有较强的催化活性,且对金属离子具有不同程度的依赖性。     

Characterization of the calcium-binding sites of Listeria monocytogenes InlB

The Listeria monocytogenes protein InlB promotes invasion of mammalian cells through activation of the receptor tyrosine kinase Met. The InlB N-cap, a approximately 40 residue part of the domain that binds Met, was previously observed to bind two calcium ions in a novel and unusually exposed manner. Because subsequent work raised questions about the existence of these calcium-binding sites, we assayed calcium binding in solution to the InlB N-cap. We show that calcium ions are bound with dissociation constants in the low micromolar range at the two identified sites, and that the sites interact with one another. We demonstrate that the calcium ions are not required for structure, and also find that they have no appreciable effect on Met activation or intracellular invasion. Therefore, our results indicate that the sites are fortuitous in InlB, but also suggest that the simple architecture of the sites may be adaptable for protein engineering purposes.     

天然缺失inlAB的非典型单核细胞增多性李斯特菌生物学特性鉴定

摘要：【目的】 InlA与InlB是单核细胞增多性李斯特菌重要的毒力因子,其介导的黏附作用是细菌建立感染的前提。本研究拟探明天然缺失inlAB基因簇的非典型单增李斯特菌的表型与基因型特征。【方法】针对inlAB天然缺失株S10,进行生化特征、细胞黏附力、小鼠体内毒力、感染相关基因检测、谱系分析等。【结果】 S10株为具有典型单增李斯特菌生化特征的1/2b型菌株,对HeLa细胞的黏附力显著低于其他菌株（p<0.05）,对小鼠毒力较弱。S10缺失inlAB及与其毗邻的lmo0431、lmo0432、lmo0436、lmo0437基因,但具有李斯特菌第一毒力岛中完整的毒力基因构成。S10分布于谱系Ⅰ的进化枝上,与4b型菌株的遗传距离较近。【结论】 S10为单增李斯特菌inlAB天然缺失株代表该类非典型菌株的首次报道。S10具有典型的单增李斯特菌谱系Ⅰ基因背景,inlAB可能通过独立的重组或水平转移事件缺失于基因组。     

Characterization of a Listeria monocytogenes protein interfering with Rab5a

Listeria monocytogenes (LM) phagocytic strategy implies recruitment and inhibition of Rab5a. Here, we identify a Listeria protein that binds to Rab5a and is responsible for Rab5a recruitment to phagosomes and impairment of the GDP/GTP exchange activity. This protein was identified as a glyceraldehyde-3-phosphate dehydrogenase (GAPDH) from Listeria (p40 protein, Lmo 2459). The p40 protein was found within the phagosomal membrane. Analysis of the sequence of LM p40 protein revealed two enzymatic domains: the nicotinamide adenine dinucleotide (NAD)-binding domain at the N-terminal and the C-terminal glycolytic domain. The putative ADP-ribosylating ability of this Listeria protein located in the N-terminal domain was examined and showed some similarities to the activity and Rab5a inhibition exerted by Pseudomonas aeruginosa ExoS onto endosome–endosome fusion. Listeria p40 caused Rab5a-specific ADP ribosylation and blocked Rab5a-exchange factor (Vps9) and GDI interaction and function, explaining the inhibition observed in Rab5a-mediated phagosome–endosome fusion. Meanwhile, ExoS impaired Rab5-early endosomal antigen 1 (EEA1) interaction and showed a wider Rab specificity. Listeria GAPDH might be the first intracellular gram-positive enzyme targeted to Rab proteins with ADP-ribosylating ability and a putative novel virulence factor.     

Internalins: a complex family of leucine-rich repeat-containing proteins in Listeria monocytogenes

The Listeria monocytogenes genome includes a large family of proteins harbouring leucine-rich repeats known as internalins (Inl). The generation of novel mutants and comparative analysis of Inl variability among Listeria and other bacterial genomes suggest that beyond the extensively-studied invasins, InlA and InlB, additional internalins also play important functions in the infectious process.