Evidence implicating the 5' untranslated region of Listeria monocytogenes actA in the regulation of bacterial actin-based motility

The ActA protein of Listeria monocytogenes is a major virulence factor, essential for the recruitment and polymerization of host actin filaments that lead to intracellular motility and cell-to-cell spread of bacteria within the infected host. The expression of actA is tightly regulated and is strongly induced only when L. monocytogenes is within the host cytosol. Intracellular induction of actA expression is mediated through a single promoter element that directs the expression of a messenger RNA with a long (150 bp) 5' untranslated region (UTR). Deletion of the actA+3 to +130 upstream region was found to result in bacterial mutants that were no longer capable of intracellular actin recruitment or cell-to-cell spread, thus indicating that this region is important for actA expression. L. monocytogenes strains that contained smaller deletions (21-23 bp) within the actA upstream region demonstrated a range of actA expression levels that coincided with the amount of bacterial cell-to-cell spread observed within infected monolayers. A correlation appeared to exist between levels of actA expression and the ability of L. monocytogenes to transition from uniform actin accumulation surrounding individual bacteria (actin clouds) to directional assembly and the formation of actin tails. Bacterial mutants containing deletions that most significantly altered the predicted secondary structure of the actA mRNA 5' UTR had the largest reductions in actA expression. These results suggest that the actA 5' UTR is required for maximal ActA synthesis and that a threshold level of ActA synthesis must be achieved to promote the transition from bacteria-associated actin clouds to directional actin assembly and movement.     

Isolation of Listeria monocytogenes mutants with high-level in vitro expression of host cytosol-induced gene products

The facultative intracellular bacterial pathogen Listeria monocytogenes dramatically increases the expression of several key virulence factors upon entry into the host cell cytosol. actA, the protein product of which is required for cell-to-cell spread of the bacterium, is expressed at low to undetectable levels in vitro and increases in expression more than 200-fold after L. monocytogenes escape from the phagosome. To identify bacterial factors that participate in the intracellular induction of actA expression, L. monocytogenes mutants expressing high levels of actA during in vitro growth were selected after chemical mutagenesis. The resulting mutant isolates displayed a wide range of actA expression levels, and many were less sensitive to environmental signals that normally mediate repression of virulence gene expression. Several isolates contained mutations affecting actA gene expression that mapped at least 40 kb outside the PrfA regulon, supporting the existence of additional regulatory factors that contribute to virulence gene expression. Two actA in vitro expression mutants contained novel mutations within PrfA, a key regulator of L. monocytogenes virulence gene expression. PrfA E77K and PrfA G155S mutations resulted in high-level expression of PrfA-dependent genes, increased bacterial invasion of epithelial cells and increased virulence in mice. Both prfA mutant strains were significantly less motile than wild-type L. monocytogenes. These results suggest that, although constitutive activation of PrfA and PrfA-dependent gene expression may enhance L. monocytogenes virulence, it may conversely hamper the bacterium's ability to compete in environments outside host cells.     

Virulence Phenotyping and Molecular Characterization of a Low-pathogenicity Isolate of Listeria monocytogenes from Cow＇s Milk

A low-pathogenicity isolate of Listeria monocytogenes from cow＇s milk, as screened in mouse and chicken embryonated egg models, was examined for virulence-related phenotypic traits. Corresponding virulence genes （iap, prfA, picA, hly, mpl, actA, plcB, InlA and lnlB） were compared with L. monocytogenes reference strains 10403S and EGD to elucidate the possible molecular mechanisms of low virulence. Although L. monocytogenes H4 exhibited similar patterns to strain 10403S in terms of hemolytic activity, in vitro growth and invasiveness and even had higher adhesiveness, faster intracellular growth and higher phospholipase activity in vitro, it was substantially less virulent than the strain 10403S in mouse and chicken embryo models （50% lethal dose： 10^8.14 VS. 10^5.49 and 10^6.73 VS. 10^1.9, respectively）. The genes prfA, picA and mpl were homologous among L. monocytogenes strains H4, 10403S and EGD （〉98%）. Genes iap, hly, plcB, lnlA and lnlB of L. monocytogenes 10403S had higher homology to those of strain EGD （〉98%） than isolate H4. The homology of the gene hly between strain 10403S and isolate H4 was 96.9% at the nucleotide level, but 98.7% at the amino acid level. The actA gene of isolate H4 had deletions of 105 nucleotides corresponding to 35 amino acid deletions falling within the proline-rich region. Taken together, this study presents some clues as to reduced virulence to mice and chicken embryos of the isolate H4 probably as a result of deletion mutations of actA.     

Virulence Phenotyping and Molecular Characterization of a Low-pathogenicity Isolate of Listeria monocytogenes from Cow's Milk

A low-pathogenicity isolate of Listeria monocytogenes from cow's milk,as screened in mouseand chicken embryonated egg models,was examined for virulence-related phenotypic traits.Correspondingvirulence genes (iap,prfA,plcA,hly,mpl,actA,plcB,InlA and InlB) were compared with L.monocytogenesreference strains 10403S and EGD to elucidate the possible molecular mechanisms of low virulence.Al-though L.monocytogenes H4 exhibited similar patterns to strain 10403S in terms of hemolytic activity,invitro growth and invasiveness and even had higher adhesiveness,faster intracellular growth and higherphospholipase activity in vitro,it was substantially less virulent than the strain 10403S in mouse and chickenembryo models (50% lethal dose:10~(8.14) vs.10~(5.49) and 10~(6.73) vs.10~(1.9),respectively).The genes prfA,plcA andmpl were homologous among L.monocytogenes strains H4,10403S and EGD (>98%).Genes iap,hly,plcB,InlA and InIB of L.monocytogenes 10403S had higher homology to those of strain EGD (>98%) than isolateH4.The homology of the gene hly between strain 10403S and isolate H4 was 96.9% at the nucleotide level,but 98.7% at the amino acid level.The actA gene of isolate H4 had deletions of 105 nucleotides correspondingto 35 amino acid deletions falling Within the proline-rich region.Taken together,this study presents someclues as to reduced virulence to mice and chicken embryos of the isolate H4 probably as a result of deletionmutations of actA.     

Sequence variations within PrfA DNA binding sites and effects on Listeria monocytogenes virulence gene expression

Reporter gene fusions were used to investigate the contributions of PrfA DNA binding sites to Listeria monocytogenes virulence gene expression. Our results suggest that the DNA sequence of PrfA binding sites determines the levels of expression of certain virulence genes, such as hly and mpl. Other virulence genes, such as actA and plcB, may depend upon additional factors for full regulation of gene expression.     

Listeriolysin O-dependent activation of endothelial cells during infection with Listeria monocytogenes: activation of NF-kappa B and upregulation of adhesion molecules and chemokines

The facultative intracellular bacterium Listeria monocytogenes is an invasive pathogen that crosses the vascular endothelium and disseminates to the placenta and the central nervous system. Its interaction with endothelial cells is crucial for the pathogenesis of listeriosis. By infecting in vitro human umbilical vein endothelial cells (HUVEC) with L. monocytogenes, we found that wild-type bacteria induced the expression of the adhesion molecules (ICAM-1 and E-selectin), chemokine secretion (IL-8 and monocyte chemotactic protein-1) and NF-kappa B nuclear translocation. The activation of HUVEC required viable bacteria and was abolished in prfA-deficient mutants of L. monocytogenes, suggesting that virulence genes are associated with endothelial cell activation. Using a genetic approach with mutants of virulence genes, we found that listeriolysin O (LLO)-deficient mutants inactivated in the hly gene did not induce HUVEC activation, as opposed to mutants inactivated in the other virulence genes. Adhesion molecule expression, chemokine secretion and NF-kappa B activation were fully restored by a strain of Listeria innocua transformed with the hly gene encoding LLO. The relevance in vivo of endothelial cell activation for listerial pathogenesis was investigated in transgenic mice carrying an NF-kappa B-responsive lacZ reporter gene. NF-kappa B activation was visualized by a strong lacZ expression in endothelial cells of capillaries of mice infected with a virulent haemolytic strain, but was not seen in those infected with a non-haemolytic isogenic mutant. Direct evidence that LLO is involved in NF-kappa B activation in transgenic mice was provided by injecting intravenously purified LLO, thus inducing stimulation of NF-kappa B in endothelial cells of blood capillaries. Our results demonstrate that functional listeriolysin O secreted by bacteria contributes as a potent inflammatory stimulus to inducing endothelial cell activation during the infectious process.     

Listeriolysin of Listeria monocytogenes forms Ca2+-permeable pores leading to intracellular Ca2+ oscillations

Listeriolysin (LLO) is a major virulence factor of Listeria monocytogenes, a Gram-positive bacterium that can cause life-threatening diseases. Various signalling events and cellular effects, including modulation of gene expression, are triggered by LLO through unknown mechanisms. Here, we demonstrate that LLO applied extracellularly at sublytic concentrations causes long-lasting oscillations of the intracellular Ca2+ level of human embryonic kidney cells; resulting from a pulsed influx of extracellular Ca2+ through pores that are formed by LLO in the plasma membrane. Calcium influx does not require the activity of endogenous Ca2+ channels. LLO-formed pores are transient and oscillate between open and closed states. Pore formation and Ca2+ oscillations were also observed after exposure of cells to native Listeria monocytogenes. Our data identify LLO as a tool used by Listeria monocytogenes to manipulate the intracellular Ca2+ level without direct contact of the bacterium with the target cell. As Ca2+ oscillations modulate cellular signalling and gene expression, our findings provide a potential molecular basis for the broad spectrum of Ca2+-dependent cellular responses induced by LLO during Listeria infection.     

GFP用于单核细胞增生李斯特菌PrfA调控毒力基因actA转录表达的研究

PrfA是单核细胞增生李斯特菌(LM)中迄今为止发现的惟一个调控绝大多数毒力基因转录表达的蛋白因子.为了研究PrfA转录调控毒力基因表达的分子机制,将无启动子的绿色荧光蛋白(GFP)基因与毒力基因actA的启动子融合,连接到穿梭载体pLSV16质粒上,构建成表达融合载体pLSV16-PactA-gfp,然后将其电转化入LM野生株P14、PrfA高表达突变株P14a和prfA基因等位缺失突变株A42中表达.利用荧光显微镜和荧光酶标仪检测上述3株细菌中绿色荧光蛋白的不同表达强度,从而评价actA基因依赖于PrfA的转录活性强弱.结果显示,绿色荧光蛋白在P14a中发出的荧光强度最高,P14次之,A42最弱,两两比较均有显著差异(P＜0.01),表明毒力基因actA的转录水平高低与PrfA的活性成正相关,其转录表达依赖于PrfA的调控;该试验同时也显示GFP能方便、有效地用于研究PrfA调控LM不同毒力基因的转录表达水平.     

Characterization of a mutant Listeria monocytogenes strain expressing green fluorescent protein

To construct a recombinant strain of Listeria monocytogenes for the expression of heterologous genes, homologous recombination was utilized for insertional mutation, targeting its listeriolysin O gene (hly). The gene encoding green fluorescent protein (GFP) was used as the indicator of heterologous gene expression. The gene gfp was inserted into hly downstream from its promoter and signal sequence by an overlapping extension polymerase chain reaction, and was then cloned into the shuttle plasmid pKSV7 for allelic exchange with the L. monocytogenes chromosome. Homologous recombination was achieved by growing the electro-transformed L. monocytogenes cells on chloramphenicol plates at a non-permissive temperature. Sequencing analysis indicated correct insertion of the target gene in-frame with the signal sequence. The recombinant strain expressed GFP constitutively as revealed by fluorescence microscopy. The mutant strain L. monocytogenes hly-gfp lost its hemolytic activity as visualized on the blood agar or when analyzed with the culture supernatant samples. Such insertional mutation resulted in a reduced virulence of about 2 logs less than its parent strain L. monocytogenes 10403s as shown by the 50%-lethal-dose assays in the mouse and embryonated chicken egg models. These results thus demonstrate that mutated L. monocytogeues could be a potential carrier for the expression of heterologous passenger genes or could act as an indicator organism in the food industry.     

Differential expression of virulence and stress fitness genes during interaction between Listeria monocytogenes and Bifidobacterium longum

Bifidobacterium is well known to have an inhibitory effect on the survival, growth, and proliferation of various foodborne pathogens, but the mechanism of the molecular action of B. longum in blocking the invasion of Listeria monocytogenes is not yet well defined. In the present study, following RNA extraction and cDNA synthesis, differential expression of virulence and stress fitness genes in L. monocytogenes and B. longum was determined by real-time PCR. The results indicate that L. monocytogenes virulence factors, including actA, hly, inlA, and plcA, showed significantly downregulated expression during co-incubation of B. longum and L. monocytogenes in phosphate-buffered saline. The relative mRNA levels of oppA and serpin, two stress fitness genes in B. longum, were significantly higher than for the control group. These results indicate that downregulation of L. monocytogenes virulence factors during co-incubation with B. longum might be responsible for the inhibitory effects.     

Listeria monocytogenes virulence proteins induce surface expression of Fas ligand on T lymphocytes

Virulence factors secreted by Listeria monocytogenes are known to interfere with host cellular signalling pathways. We investigated whether L. monocytogenes modulates T-cell receptor signalling by examining surface expression of proteins known to be upregulated on activated T cells. In vitro culture of murine splenocytes with L. monocytogenes resulted in a specific and dose-dependent upregulation of Fas ligand (FasL). Induction of FasL expression was also observed for pathogenic Listeria ivanovii but not for non-pathogenic Listeria innocua, indicating involvement of Listeria virulence protein(s). Examination of L. monocytogenes strains deficient in different virulence genes demonstrated that FasL upregulation was dependent on the expression of two secreted proteins: listeriolysin O (LLO) and phosphatidylcholine-preferring phospholipase C (PC-PLC). Treatment of cells with purified proteins demonstrated that LLO was sufficient for inducing FasL, while PC-PLC synergized with LLO for the induction of FasL expression. FasL-expressing cells induced by L. monocytogenes were capable of killing Fas-expressing target cells. Furthermore, L. monocytogenes infection results in upregulation of FasL on T cells in mice. These results describe a novel function for LLO and PC-PLC and suggest that L. monocytogenes may use these virulence factors to modulate the host immune response.     

Drosophila S2 cells: an alternative infection model for Listeria monocytogenes

Listeria monocytogenes is a Gram-positive facultative intracellular bacterial pathogen that infects humans and animals. Its pathogenic strategy involves the expression of virulence proteins that mediate intracytosolic growth and cell-to-cell spread. A key virulence protein is the cholesterol-dependent cytolysin, listeriolysin O (LLO), which is largely responsible for mediating escape from the phagosome into the host cytosol. To study further the host processes exploited during L. monocytogenes infection, we sought to develop Drosophila S2 cells as a model for infection. Here, we show that S2 cells share a number of properties with mammalian cell culture models of infection. As with mouse macrophages, LLO was required for phagosomal escape from S2 cells. Furthermore, vacuolar escape was dependent on their acidification via the ATPase proton pumps, as bafilomycin A1 treatment sharply decreased escape. However, unlike in mouse macrophages, LLO mutants replicated in the phagosome of S2 cells. Drosophila cells are cholesterol auxotrophs, and exogenous cholesterol increased the infection rate of L. monocytogenes (LLO independent) and also augmented the efficiency of vacuolar escape (LLO dependent). With available genetic tools such as RNA interference, S2 cells could become an important model in the study of host-pathogen interactions.     

李斯特菌溶血素基因的原核表达及其生物学特性

李斯特菌溶血素(LLO)是产单核细胞李斯特菌的主要毒力因子,利用PCR技术从血清型4b的产单核细胞李斯特菌菌株中扩增出编码LLO的hly基因,经克隆筛选和测序鉴定后,构建成该基因的原核表达质粒pGEX6P1hly,SDSPAGE结果表明：LLO与谷胱甘肽在大肠杆菌中已融合表达,融合蛋白的分子量为82kD;溶血实验证明融合蛋白具有较强的裂解真核细胞膜的作用,表明表达产物LLO具有生物活性,其溶血效价达2.26×101.4 HU/mg,这为进一步研究其致病与免疫机理、单抗研制和疫苗设计提供了条件。     

Inducible control of virulence gene expression in Listeria monocytogenes: temporal requirement of listeriolysin O during intracellular infection

We have constructed a lac repressor/operator-based system to tightly regulate expression of bacterial genes during intracellular infection by Listeria monocytogenes. An L. monocytogenes strain was constructed in which expression of listeriolysin O was placed under the inducible control of an isopropyl-beta-D-thiogalactopyranoside (IPTG)-dependent promoter. Listeriolysin O (LLO) is a pore-forming cytolysin that mediates lysis of L. monocytogenes-containing phagosomes. Using hemolytic-activity assays and Western blot analysis, we demonstrated dose-dependent IPTG induction of LLO during growth in broth culture. Moreover, intracellular growth of the inducible-LLO (iLLO) strain in the macrophage-like cell line J774 was strictly dependent upon IPTG. We have further shown that iLLO bacteria trapped within primary phagocytic vacuoles can be induced to escape into the cytosol following addition of IPTG to the cell culture medium, thus yielding the ability to control bacterial escape from the phagosome and the initiation of intracellular growth. Using the iLLO strain in plaque-forming assays, we demonstrated an additional requirement for LLO in facilitating cell-to-cell spread in L2 fibroblasts, a nonprofessional phagocytic cell line. Furthermore, the efficiency of cell-to-cell spread of iLLO bacteria in L2 cells was IPTG dose dependent. The potential use of this system for determining the temporal requirements of additional virulence determinants of intracellular pathogenesis is discussed.     

The use of listeriolysin to identify in vivo induced genes in the gram-positive intracellular pathogen Listeria monocytogenes

Listeria monocytogenes is capable of growth within the cytoplasm of infected host cells. Escape from the host cell phagosome is mediated primarily through secretion of listeriolysin, a haemolytic factor which functions to actively lyse the phagosomal membrane. Listeriolysin negative mutants of L. monocytogenes are non-haemolytic on blood agar plates and demonstrate a significant reduction of virulence in the mouse model of infection. We have developed a system for the identification of in vivo induced genes in L. monocytogenes which utilizes the listeriolysin gene, hly, as both a reporter of gene expression and as a means of selection of promoter elements expressed in vivo. The system is analogous to in vivo expression technology (IVET) first reported for Salmonella, however, as listeriolysin functions in the environment of the host phagosome the loci identified in this study are most likely expressed during residence in the phagosome. The system was successfully tested using the promoter of the inducible virulence gene plcA. A bank was created by fusing a promoterless copy of hly to random promoter elements in a listeriolysin negative IVET host. Sequential inoculations of mice with this bank resulted in the isolation of clones with increased survival potential in the mouse model relative to a negative control, but which remained haemolysin negative on blood agar plates. Nine in vivo induced loci were identified including genes encoding a DNA topoisomerase III, a cellobiose transporter and a fumarase. Two isolates represented fusions to proteins of unknown function and three isolates contained no significant homologues in the database. A mutant in the fumarase gene demonstrated reduced virulence for mice and an inability to grow in cultured mouse phagocytes.     

Efficacy of a Lactococcus lactis ΔpyrG vaccine delivery platform expressing chromosomally integrated hly from Listeria monocytogenes

Listeria monocytogenes is a significant food-borne pathogen and the causative agent of listeriosis, a disease which manifests as meningitis in immunocompromised adults or infection of the fetus and miscarriage in pregnant women. We have previously used Lactococcus lactis, a GRAS (Generally Regarded As Safe) organism, as a vaccine vector against listeriosis by engineering plasmid-mediated expression of the immunodominant antigen from L. monocytogenes, listeriolysin O (LLO). However, the environmental release of an engineered vaccine vector carrying a replicating plasmid during clinical usage may raise safety concerns. Here we describe the integration of the LLO gene (hly) into the L. lactis chromosome through homologous double crossover to allow stable expression, in order to avoid the use of antibiotic selection markers and to eliminate the requirement for a plasmid-based system. The approach was designed to simultaneously eliminate the pyrG gene encoding the CTP synthase which is responsible for converting UTP to CTP in a unique step in the de novo pyrimidine synthesis in L. lactis. This gene was targeted in order to restrict bacterial replication outside of the host (biological containment). The resulting cytidine auxotroph was able to secrete LLO constitutively and could elicit LLO(91-99)-specific CD8(+) T lymphocytes in the murine infection model. Moreover, protection against lethal challenge with L. monocytogenes was accomplished after intraperitoneal (IP) vaccination with the constructed strain. The implications for the use of cytidine auxotropy in biological containment are discussed.