A role for ActA in epithelial cell invasion by Listeria monocytogenes

We assessed the role of the actin-polymerizing protein, ActA, in host cell invasion by Listeria monocytogenes . An in frame Δ actA mutant was constructed in a hyperinvasive strain of prfA * genotype, in which all genes of the PrfA-dependent virulence regulon, including actA , are highly expressed in vitro . Loss of ActA production in prfA * bacteria reduced entry into Caco-2, HeLa, MDCK and Vero epithelial cells to basal levels. Reintroduction of actA into the Δ actA prfA * mutant fully restored invasiveness, demonstrating that ActA is involved in epithelial cell invasion. ActA did not contribute to internalization by COS-1 fibroblasts and Hepa 1-6 hepatocytes. Expression of actA in Listeria innocua was sufficient to promote entry of this non-invasive species into epithelial cell lines, but not into COS-1 and Hepa 1-6 cells, indicating that ActA directs an internalization pathway specific for epithelial cells. Scanning electron microscopy of infected Caco-2 human enterocytes suggested that this pathway involves microvilli. prfA * bacteria, but not wild-type bacteria (which express PrfA-dependent genes very weakly in vitro ) or prfA *Δ actA bacteria, efficiently invaded differentiated Caco-2 cells via their apical surface. Microvilli played an active role in the phagocytosis of the prfA * strain, and actA was required for their remodelling into pseudopods mediating bacterial uptake. Thus, ActA appears to be a multifunctional virulence factor involved in two important aspects of Listeria pathogenesis: actin-based motility and host cell tropism and invasion.     

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.     

依赖PrfA转录调控的单核细胞增生李斯特菌毒力基因inlC启动子结构特点的初步研究

为了研究单核细胞增生李斯特菌毒力基因启动子的结构特点与转录调控因子PrfA蛋白之间的关系,应用PCR定点突变和重组PCR技术缺失了该菌毒力基因inlC启动子上可能与PrfA蛋白结合以及诱发转录起始相关的碱基序列,构建了一系列突变启动子与lacZ报告基因融合表达质粒, 使lacZ基因的表达置于inlC突变启动子下,并分别电转化单核细胞增生李斯特菌野生株P14、PrfA蛋白高表达突变株P14a 和prfA基因等位缺失突变株A42中,检测相应的β-半乳糖苷酶活性。结果表明：位于inlC启动子转录起始点下游22bp 处的一段17bp的类似PrfA蛋白结合序列TTAACAGCGTTTGTTAA并没有增强和抑制PrfA转录调控活性的功能;甚至将其改造成“完美的” PrfA蛋白结合序列TTAACATTTGTTAA后,也不影响inlC依赖于PrfA的转录活性地表达;但是,如果缺失inlC启动子上原始的PrfA蛋白结合序列,则使inlC依赖于PrfA的转录活性完全丧失;另外,单核细胞增生李斯特菌毒力基因inlC和plcA 依赖于PrfA的转录活性的表达也与启动子上PrfA蛋白结合区(PrfA-box)距离-10区的碱基个数有关:最适为22或23bp,长于23bp或短于22bp的突变启动子的依赖PrfA的转录活性大大降低,甚至没有活性。说明除PrfA蛋白结合序列外,受PrfA调控的毒力基因启动子上还可能存在其它尚未阐明的结构和序列影响PrfA蛋白的结合以及启动转录表达。     

依赖PrfA转录调控的单核细胞增生李斯特菌毒力基因inlC启动子结构特点的初步研究

为了研究单核细胞增生李斯特菌毒力基因启动子的结构特点与转录调控因子PrfA蛋白之间的关系,应用PCR定点突变和重组PCR技术缺失了该菌毒力基因inlC启动子上可能与PrfA蛋白结合以及诱发转录起始相关的碱基序列,构建了一系列突变启动子与lacZ报告基因融合表达质粒,使lacZ基因的表达置于inlC突变启动子下,并分别电转化单核细胞增生李斯特菌野生株P14、PrfA蛋白高表达突变株P14a和prfA基因等位缺失突变株A42中,检测相应的β-半乳糖苷酶活性。结果表明:位于inlC启动子转录起始点下游22bp处的一段17bp的类似PrfA蛋白结合序列TTAACAGCGTTTGTTAA并没有增强和抑制PrfA转录调控活性的功能;甚至将其改造成“完美的”PrfA蛋白结合序列TTAACATTTGTTAA后,也不影响inlC依赖于PrfA的转录活性地表达;但是,如果缺失inlC启动子上原始的PrfA蛋白结合序列,则使inlC依赖于PrfA的转录活性完全丧失;另外,单核细胞增生李斯特菌毒力基因inlC和plcA依赖于PrfA的转录活性的表达也与启动子上PrfA蛋白结合区(PrfA-box)距离-10区的碱基个数有关:最适为22或23bp,长于23bp或短于22bp的突变启动子的依赖PrfA的转录活性大大降低,甚至没有活性。说明除PrfA蛋白结合序列外,受PrfA调控的毒力基因启动子上还可能存在其它尚未阐明的结构和序列影响PrfA蛋白的结合以及启动转录表达。     

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.     

Ruminant rhombencephalitis-associated Listeria monocytogenes alleles linked to a multilocus variable-number tandem-repeat analysis complex

Listeria monocytogenes is among the most important food-borne pathogens and is well adapted to persist in the environment. To gain insight into the genetic relatedness and potential virulence of L. monocytogenes strains causing central nervous system (CNS) infections, we used multilocus variable-number tandem-repeat analysis (MLVA) to subtype 183 L. monocytogenes isolates, most from ruminant rhombencephalitis and some from human patients, food, and the environment. Allelic-profile-based comparisons grouped L. monocytogenes strains mainly into three clonal complexes and linked single-locus variants (SLVs). Clonal complex A essentially consisted of isolates from human and ruminant brain samples. All but one rhombencephalitis isolate from cattle were located in clonal complex A. In contrast, food and environmental isolates mainly clustered into clonal complex C, and none was classified as clonal complex A. Isolates of the two main clonal complexes (A and C) obtained by MLVA were analyzed by PCR for the presence of 11 virulence-associated genes (prfA, actA, inlA, inlB, inlC, inlD, inlE, inlF, inlG, inlJ, and inlC2H). Virulence gene analysis revealed significant differences in the actA, inlF, inlG, and inlJ allelic profiles between clinical isolates (complex A) and nonclinical isolates (complex C). The association of particular alleles of actA, inlF, and newly described alleles of inlJ with isolates from CNS infections (particularly rhombencephalitis) suggests that these virulence genes participate in neurovirulence of L. monocytogenes. The overall absence of inlG in clinical complex A and its presence in complex C isolates suggests that the InlG protein is more relevant for the survival of L. monocytogenes in the environment.     

A novel mutation within the central Listeria monocytogenes regulator PrfA that results in constitutive expression of virulence gene products

The PrfA protein of Listeria monocytogenes functions as a key regulatory factor for the coordinated expression of many virulence genes during bacterial infection of host cells. PrfA activity is controlled by multiple regulatory mechanisms, including an apparent requirement for either the presence of a cofactor or some form of posttranslational modification that regulates the activation of PrfA. In this study, we describe the identification and characterization of a novel PrfA mutation that results in constitutive activation of the PrfA protein. The PrfA L140F mutation was found to confer high-level expression of PrfA-regulated genes and to be functionally dominant over the wild-type allele. The presence of the PrfA L140F mutation resulted in the aggregation of L. monocytogenes in broth culture and, unlike previously described prfA mutations, appeared to be slightly toxic to the bacteria. High-level PrfA-dependent gene expression showed no additional increase in L. monocytogenes strains containing an additional copy of prfA L140F despite a >4-fold increase in PrfA protein levels. In contrast, the introduction of multiple copies of the wild-type prfA allele to L. monocytogenes resulted in a corresponding increase in PrfA-dependent gene expression, although overall expression levels remained far below those observed for PrfA L140F strains. These results suggest a hierarchy of PrfA regulation, such that the relative levels of PrfA protein present within the cell correlate with the levels of PrfA-dependent gene expression when the protein is not in its fully activated state; however, saturating levels of the protein are then quickly reached when PrfA is converted to its active form. Regulation of the PrfA activation status must be an important facet of L. monocytogenes survival, as mutations that result in constitutive PrfA activation may have deleterious consequences for bacterial physiology.     

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.     

AgrD-dependent quorum sensing affects biofilm formation, invasion, virulence and global gene expression profiles in Listeria monocytogenes

The Listeria monocytogenes Agr peptide-sensing system has been analysed by creating a deletion mutant in agrD , the structural gene for the putative quorum-sensing peptide. The Δ agrD mutant displayed significantly reduced biofilm formation, a defect which could be restored by genetic or physical complementation. A reduced invasion of Caco-2 intestinal epithelial cells was observed for the Δ agrD mutant while phagocytosis by THP-1 macrophages was unaffected. Additionally, the level of internalin A (InlA) in the cell wall was decreased in the Δ agrD mutant. Expression profiling of virulence genes ( hlyA , actA , plcA , prfA and inlA ) identified a finely tuned regulation which resulted in an impaired virulence response in the Δ agrD mutant. The mutant is also significantly attenuated for virulence in mice, as revealed by bioluminescent in vivo imaging. On day 3 post infection, systemic dissemination to livers and spleens had occurred for the wild type, whereas the Δ agrD mutant remained localized to the liver. Microarray analysis identified 126 and 670 genes as significantly regulated in exponential and stationary phase respectively. The results presented here suggest that peptide sensing plays an important role in the biology of L. monocytogenes , with relevant phenotypes in both the saprophytic and parasitic lifecycles.     

Constitutive activation of PrfA tilts the balance of Listeria monocytogenes fitness towards life within the host versus environmental survival

PrfA is a key regulator of Listeria monocytogenes pathogenesis and induces the expression of multiple virulence factors within the infected host. PrfA is post-translationally regulated such that the protein becomes activated upon bacterial entry into the cell cytosol. The signal that triggers PrfA activation remains unknown, however mutations have been identified (prfA* mutations) that lock the protein into a high activity state. In this report we examine the consequences of constitutive PrfA activation on L. monocytogenes fitness both in vitro and in vivo. Whereas prfA* mutants were hyper-virulent during animal infection, the mutants were compromised for fitness in broth culture and under conditions of stress. Broth culture prfA*-associated fitness defects were alleviated when glycerol was provided as the principal carbon source; under these conditions prfA* mutants exhibited a competitive advantage over wild type strains. Glycerol and other three carbon sugars have been reported to serve as primary carbon sources for L. monocytogenes during cytosolic growth, thus prfA* mutants are metabolically-primed for replication within eukaryotic cells. These results indicate the critical need for environment-appropriate regulation of PrfA activity to enable L. monocytogenes to optimize bacterial fitness inside and outside of host cells.