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Intracellular Survival (intracellular + survival)
Selected AbstractsAn Unusual Galactofuranose Lipopolysaccharide That Ensures the Intracellular Survival of Toxin-Producing Bacteria in Their Fungal Host,ANGEWANDTE CHEMIE, Issue 41 2010Dr. Maria R. Leone Dresscode für das Leben in einem Pilz: Die Analyse der Kohlenhydrathülle des toxinproduzierenden Endobakteriums des phytopathogenen Pilzes Rhizopus microsporus ergab eine neuartige Lipopolysaccharid(LPS)-Struktur, die für die Infektion und Besiedelung des Pilzwirts wesentlich ist. Eine Mutante ohne das ungewöhnliche [,2)-,- D -Galactofuranose-(1,]n -O-Antigen (im Schema rot) konnte keine stabile Symbiose mit dem Pilz eingehen. [source] Manipulating cellular transport and immune responses: dynamic interactions between intracellular Salmonella enterica and its host cellsCELLULAR MICROBIOLOGY, Issue 5 2006Garth L. Abrahams Summary Intracellular survival and replication within eukaryotic host cells is of central importance for the pathogenesis of infections caused by Salmonella enterica. Intracellular Salmonella translocates a set of effector proteins by means of a type III secretion system (T3SS) encoded by Salmonella pathogenicity island 2 (SPI2) that manipulates normal host-cell functions. Intracellular survival and replication is linked to the function of the SPI2-T3SS, but recent observations show that many additional cellular functions are targeted by this virulence system. In this review, we focus on the recent observations on the interference of intracellular Salmonella with functions of the innate and adaptive immune system and the modification of endocytic and exocytic cellular transport. The common molecular basis of the different SPI2-dependent phenotypes could be the interference with cellular transport along microtubules. [source] In vitro markers for virulence in Yersinia ruckeriJOURNAL OF FISH DISEASES, Issue 3 2010E Tobback Abstract In this study, different traits that have been associated with bacterial virulence were studied in Yersinia ruckeri. Two isolates that had been shown to cause disease and mortality in experimentally infected rainbow trout were compared with five avirulent isolates. Both virulent isolates showed high adhesion to gill and intestinal mucus of rainbow trout, whereas the majority of non-virulent strains demonstrated significantly lower adhesion. A decrease in adherence capability following bacterial treatment with sodium metaperiodate and proteolytic enzymes suggested the involvement of carbohydrates and proteins. All strains were able to adhere to and invade chinook salmon embryo cell line (CHSE-214), fathead minnow epithelial cell line (FHM) and rainbow trout liver cell line (R1). One non-virulent strain was highly adhesive and invasive in the three cell lines, whereas the virulent strains showed moderate adhesive and invasive capacity. The internalization of several isolates was inhibited by colchicine and cytochalasin-D, suggesting that microtubules and microfilaments play a role. For all strains, intracellular survival assays showed a decrease of viable bacteria in the cells 6 h after inoculation, suggesting that Y. ruckeri is not able to multiply or survive inside cultured cells. Analysis of the susceptibility to the bactericidal effect of rainbow trout serum demonstrated that virulent Y. ruckeri strains were serum resistant, whereas non-virulent strains were generally serum sensitive. [source] A host-vector system for molecular study of the intracellular growth of Mycobacterium tuberculosis in phagocytic cellsMICROBIOLOGY AND IMMUNOLOGY, Issue 10 2009Mari Nomoto ABSTRACT The mechanisms by which Mycobacterium tuberculosis survives and persists in phagocytic cells remain poorly understood. To study the question, a convenient and safe host-vector system is indispensable. In this study it has been shown that, in contrast with M. smegmatis strain mc2155 which has been widely used for molecular analysis, M. smegmatis strain J15cs is able to survive even at day 6 post-infection in a murine macrophage cell line, J774. The survivability of J15cs was found to depend on the culture medium used for the bacteria prior to infection. Bacteria precultured on nutrient agar medium showed a high survivability and a characteristic cell wall ultrastructure. A plasmid vector, pYT923hyg, was developed from an Escherichia coli - mycobacterium shuttle vector pYT923 (previously constructed in our laboratory) to obtain three drug resistant genes (amp-, hyg- and km-resistant gene) and cloning sites in the km resistant gene. The vector pYT923hyg exerted no influence on in vitro growth of J15cs and intracellular survival in J774 cells, and was stably retained in J15cs after serial subculturing (three subcultures) in Luria-Bertani broth and at day 5 post-infection into J774 cells. Furthermore, using this system, the possibility of a relationship between some seemingly essential genes of M. tuberculosis and intracellular growth was demonstrated. In this study, M. smegmatis strain J15cs and pYT923hyg were found to be capable of serving as an appropriate host-vector system for molecular study of the intracellular growth of M. tuberculosis in phagocytic cells; this system may be useful as a screening tool for M. tuberculosis genes. [source] MicroReview: Envelope stress responses and Gram-negative bacterial pathogenesisMOLECULAR MICROBIOLOGY, Issue 5 2005Tracy L. Raivio Summary The ,E, Cpx and Bae envelope stress responses of Escherichia coli are involved in the maintenance, adaptation and protection of the bacterial envelope in response to a variety of stressors. Recent studies indicate that the Cpx and ,E stress responses exist in many Gram-negative bacterial pathogens. The envelope is of particular importance to these organisms because most virulence determinants reside in, or must transit through, this cellular compartment. The Cpx system has been implicated in expression of pili, type IV secretion systems and key virulence regulators, while the ,E pathway has been shown to be critical for protection from oxidative stress and intracellular survival. Homologues of the ,E, and Cpx-regulated protease DegP are essential for full virulence in numerous pathogens, and, like ,E, DegP appears to confer resistance to oxidative stress and intracellular survival capacity. Some pathogens contain multiple homologues of the Cpx-regulated, disulphide bond catalyst DsbA protein, which has been demonstrated to play roles in the expression of secreted virulence determinants, type III secretion systems and pili. This review highlights recent studies that indicate roles for the ,E, Cpx and Bae envelope stress responses in Gram-negative bacterial pathogenesis. [source] The Campylobacter jejuni stringent response controls specific stress survival and virulence-associated phenotypesMOLECULAR MICROBIOLOGY, Issue 1 2005Erin C. Gaynor Summary Campylobacter jejuni is a highly prevalent food-borne pathogen that causes diarrhoeal disease in humans. A natural zoonotic, it must overcome significant stresses both in vivo and during transmission despite the absence of several traditional stress response genes. Although relatively little is understood about its mechanisms of pathogenesis, its ability to interact with and invade human intestinal epithelial cells closely correlates with virulence. A C. jejuni microarray-based screen revealed that several known virulence genes and several uncharacterized genes, including spoT, were rapidly upregulated during infection of human epithelial cells. spoT and its homologue relA have been shown in other bacteria to regulate the stringent response, an important stress response that to date had not been demonstrated for C. jejuni or any other epsilon-proteobacteria. We have found that C. jejuni mounts a stringent response that is regulated by spoT. Detailed analyses of a C. jejuni,spoT mutant revealed that the stringent response is required for several specific stress, transmission and antibiotic resistance-related phenotypes. These include stationary phase survival, growth and survival under low CO2/high O2 conditions, and rifampicin resistance. A secondary suppressor strain that specifically rescues the low CO2 growth defect of the ,spoT mutant was also isolated. The stringent response additionally proved to be required for the virulence-related phenotypes of adherence, invasion, and intracellular survival in two human epithelial cell culture models of infection; spoT is the first C. jejuni gene shown to participate in longer term survival in epithelial cells. Microarray analyses comparing wild-type to the ,spoT mutant also revealed a strong correlation between gene expression profiles and phenotype differences observed. Together, these data demonstrate a critical role for the C. jejuni stringent response in multiple aspects of C. jejuni biology and pathogenesis and, further, may lend novel insight into unexplored features of the stringent response in other prokaryotic organisms. [source] In vitro Leishmanicidal activity of naturally occurring chalconesPHYTOTHERAPY RESEARCH, Issue 2 2001Oliver Kayser Abstract A variety of chalcones have been shown to exhibit activity against Leishmania parasites. In contrast to synthetic or semisynthetic chalcones, only a few plant-derived compounds have been investigated. To provide a scientific rational for the antiprotozoal potency of plants used in ethnomedicine and containing chalcones, and in the search for new antiprotozoal drugs, we have carried out a primary screening for in vitro leishmanicidal activity of 20 chalcones isolated from plants. The compounds were tested against extracellular promastigotes of Leishmania donovani, L. infantum, L. enrietii and L. major, and against intracellular amastigote L. donovani residing within murine macrophages. Against the extracellular Leishmania (L. donovani), most compounds were active with EC50 values between 0.07 and 2.01,µg/mL. Some of these chalcones, 2,,4,-dihydroxy-4-methoxychalcone, 2,-hydroxy-3,4-dimethoxychalcone and 2-hydroxy-4,4,-dimethoxychalcone also significantly inhibited the intracellular survival of L. donovani parasites with EC50 values between 0.39 and 0.41,µg/mL. When tested against murine bone marrow-derived macrophages as a mammalian host cell control, all compounds with antileishmanial activities also proved to be cytotoxic to varying extents (EC50 0.19,2.06,µg/mL). Correlations between molecular structures and antileishmanial activity are discussed in detail. Specific compounds are illustrated with emphasis on their mode of action and potential for the development of selective antiprotozoal agents. Copyright © 2001 John Wiley & Sons, Ltd. [source] Structure of HsaD, a steroid-degrading hydrolase, from Mycobacterium tuberculosisACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 1 2008Nathan Lack Tuberculosis is a major cause of death worldwide. Understanding of the pathogenicity of Mycobacterium tuberculosis has been advanced by gene analysis and has led to the identification of genes that are important for intracellular survival in macrophages. One of these genes encodes HsaD, a meta -cleavage product (MCP) hydrolase that catalyzes the hydrolytic cleavage of a carbon,carbon bond in cholesterol metabolism. This paper describes the production of HsaD as a recombinant protein and, following crystallization, the determination of its three-dimensional structure to 2.35,Å resolution by X-ray crystallography at the Diamond Light Source in Oxfordshire, England. To the authors' knowledge, this study constitutes the first report of a structure determined at the new synchrotron facility. The volume of the active-site cleft of the HsaD enzyme is more than double the corresponding active-site volumes of related MCP hydrolases involved in the catabolism of aromatic compounds, consistent with the specificity of HsaD for steroids such as cholesterol. Knowledge of the structure of the enzyme facilitates the design of inhibitors. [source] Differences in human macrophage receptor usage, lysosomal fusion kinetics and survival between logarithmic and metacyclic Leishmania infantum chagasi promastigotesCELLULAR MICROBIOLOGY, Issue 12 2009Norikiyo Ueno Summary The obligate intracellular protozoan, Leishmania infantum chagasi (Lic) undergoes receptor-mediated phagocytosis by macrophages followed by a transient delay in phagolysosome maturation. We found differences in the pathway through which virulent Lic metacyclic promastigotes or avirulent logarithmic promastigotes are phagocytosed by human monocyte-derived macrophages (MDMs). Both logarithmic and metacyclic promastigotes entered MDMs through a compartment lined by the third complement receptor (CR3). In contrast, many logarithmic promastigotes entered through vacuoles lined by mannose receptors (MR) whereas most metacyclic promastigotes did not (P < 0.005). CR3-positive vacuoles containing metacyclic promastigotes stained for caveolin-1 protein, suggesting CR3 localizes in caveolae during phagocytosis. Following entry, the kinetics of phagolysosomal maturation and intracellular survival also differed. Vacuoles containing metacyclic parasites did not accumulate lysosome-associated membrane protein-1 (LAMP-1) at early times after phagocytosis, whereas vacuoles with logarithmic promastigotes did. MDMs phagocytosed greater numbers of logarithmic than metacyclic promastigotes, yet metacyclics ultimately replicated intracellularly with greater efficiency. These data suggest that virulent metacyclic Leishmania promastigotes fail to ligate macrophage MR, and enter through a path that ultimately enhances intracellular survival. The relatively quiescent entry of virulent Leishmania spp. into macrophages may be accounted for by the ability of metacyclic promastigotes to selectively bypass deleterious entry pathways. [source] Capsule enlargement in Cryptococcus neoformans confers resistance to oxidative stress suggesting a mechanism for intracellular survivalCELLULAR MICROBIOLOGY, Issue 10 2008Oscar Zaragoza Summary Cryptococcus neoformans is a facultative intracellular pathogen. The most distinctive feature of C. neoformans is a polysaccharide capsule that enlarges depending on environmental stimuli. The mechanism by which C. neoformans avoids killing during phagocytosis is unknown. We hypothesized that capsule growth conferred resistance to microbicidal molecules produced by the host during infection, particularly during phagocytosis. We observed that capsule enlargement conferred resistance to reactive oxygen species produced by H2O2 that was not associated with a higher catalase activity, suggesting a new function for the capsule as a scavenger of reactive oxidative intermediates. Soluble capsular polysaccharide protected C. neoformans and Saccharomyces cerevisiae from killing by H2O2. Acapsular mutants had higher susceptibility to free radicals. Capsular polysaccharide acted as an antioxidant in the nitroblue tetrazolium (NBT) reduction coupled to ,-nicotinamide adenine dinucleotide (NADH)/phenazine methosulfate (PMS) assay. Capsule enlargement conferred resistance to antimicrobial peptides and the antifungal drug Amphotericin B. Interestingly, the capsule had no effect on susceptibility to azoles and increased susceptibility to fluconazole. Capsule enlargement reduced phagocytosis by environmental predators, although we also noticed that in this system, starvation of C. neoformans cells produced resistance to phagocytosis. Our results suggest that capsular enlargement is a mechanism that enhances C. neoformans survival when ingested by phagocytic cells. [source] Iron acquisition within host cells and the pathogenicity of LeishmaniaCELLULAR MICROBIOLOGY, Issue 2 2008Chau Huynh Summary Iron is an essential cofactor for several enzymes and metabolic pathways, in both microbes and in their eukaryotic hosts. To avoid toxicity, iron acquisition is tightly regulated. This represents a particular challenge for pathogens that reside within the endocytic pathway of mammalian cells, because endosomes and lysosomes are gradually depleted in iron by host transporters. An important player in this process is Nramp1 (Slc11a1), a proton efflux pump that translocates Fe2+ and Mn2+ ions from macrophage lysosomes/phagolysosomes into the cytosol. Mutations in Nramp1 cause susceptibility to infection with the bacteria Salmonella and Mycobacteria and the protozoan Leishmania, indicating that an available pool of intraphagosomal iron is critical for the intracellular survival and replication of these pathogens. Salmonella and Mycobacteria are known to express iron transporter systems that effectively compete with host transporters for iron. Until recently, however, very little was known about the molecular strategy used by Leishmania for survival in the iron-poor environment of macrophage phagolysosomes. It is now clear that intracellular residence induces Leishmania amazonensis to express LIT1, a ZIP family membrane Fe2+ transporter that is required for intracellular growth and virulence. [source] Brucella requires a functional Type IV secretion system to elicit innate immune responses in miceCELLULAR MICROBIOLOGY, Issue 7 2007Christelle M. Roux Summary The virB operon, encoding a Type IV secretion system (T4SS), is essential for intracellular survival and persistent infection by Brucella spp. To better understand the role of the T4SS in evading host defence mechanisms and establishing chronic infection, we compared transcriptional profiles of the host response to infection with wild-type and virB mutant Brucella strains. Analysis of gene expression profiles in murine splenocytes 3 days after inoculation with wild-type Brucella strains revealed an inflammatory response, with a prominent upregulation of genes induced by both type I and type II interferons. Real-time RT-PCR showed that a group of genes from these pathways were induced by day 3 post infection and declined to baseline levels by day 7. In contrast, neither of the two virB mutant strains elicited a proinflammatory gene expression profile, demonstrating that the T4SS was required to trigger this response. Infection studies using type I interferon receptor knockout mice showed that a lack of type I interferon signalling did not affect Brucella replication during the first 4 weeks of infection. Thus, induction of type I interferons does not appear to be an essential mechanism by which the T4SS promotes persistent infection by Brucella. [source] Anaplasma phagocytophilum AnkA is tyrosine-phosphorylated at EPIYA motifs and recruits SHP-1 during early infectionCELLULAR MICROBIOLOGY, Issue 5 2007Jacob W. IJdo Summary Anaplasma phagocytophilum is an intracellular pathogen that infects and survives in neutrophilic granulocytes. The A. phagocytophilum genome encodes a type four secretion system (T4SS) that may facilitate intracellular survival by translocation of virulence factors, but to date, no such factors have been identified. Because T4SS-translocated proteins of several intracellular organisms undergo tyrosine phosphorylation by host cell kinases, we investigated tyrosine phosphorylation of A. phagocytophilum proteins during infection. Within minutes after incubation of A. phagocytophilum with HL-60 cells or PMN, a 190 kDa bacterial protein, AnkA, was increasingly tyrosine-phosphorylated. A. phagocytophilum binding to host cells without entry was sufficient for AnkA tyrosine phosphorylation. An in vitro Src kinase assay demonstrated that purified AnkA expressed in Escherichia coli was phosphorylated at tyrosines located at the C-terminal portion of AnkA. Similarly, AnkA expressed in COS-7 cells underwent tyrosine phosphorylation by Src at the C-terminus. The phosphorylated tyrosines were located in EPIYA motifs that display the consensus sequence for binding to SH2 domains. Immunoprecipitation studies demonstrated AnkA binding to the host cell phosphatase SHP-1 during early infection. Phosphorylation of the EPIYA motifs and the presence of the SH2 domains were necessary for AnkA,SHP-1 interaction. We conclude that AnkA is a translocated virulence factor that is tyrosine-phosphorylated by host cell kinases upon translocation into the host cell early during infection. A. phagocytophilum may manipulate the host cell through SHP-1 recruitment. [source] Modulation of phosphoinositide metabolism by pathogenic bacteriaCELLULAR MICROBIOLOGY, Issue 11 2006Hubert Hilbi Summary Phosphoinositide metabolism plays a pivotal role in the regulation of receptor-mediated signal transduction, actin remodelling and membrane dynamics. Phosphoinositides co-ordinate these processes by recruiting protein effectors to distinct cellular membranes in a time- and organelle-dependent manner. Intracellular bacterial pathogens interfere with phosphoinositide metabolism to direct their entry into eukaryotic cells, form replication-permissive vacuoles, modulate apoptosis, or trigger fluid secretion. Gram-negative pathogens such as Legionella pneumophila, Shigella flexneri, or Salmonella enterica employ secretion systems to invade host cells by ,pathogen-triggered phagocytosis' and thereby bypass a requirement for phosphatidylinositol 3-kinases [PI(3)Ks]. Contrarily, ,receptor-mediated phagocytosis' of Yersinia spp., Listeria monocytogenes and other pathogenic bacteria depends on PI(3)Ks. Secreted effector proteins have been found to directly bind to and modify host cell phosphoinositides, thus modulating phagocytosis and intracellular survival of the pathogens. These effectors include L. pneumophila proteins that specifically attach to phosphatidylinositol 4-phosphate [PI(4)P] on the Legionella -containing vacuole, and phosphoinositide phosphatases produced by S. flexneri, S. enterica or Mycobacterium tuberculosis. This review covers current knowledge about subversion of host cell phosphoinositide metabolism by intracellular bacterial pathogens with an emphasis on recently identified secreted effector proteins directly engaging phosphoinositides. [source] Coronin is involved in uptake of Mycobacterium bovis BCG in human macrophages but not in phagosome maintenanceCELLULAR MICROBIOLOGY, Issue 12 2001Stephanie Schüller By applying density gradient electrophoresis (DGE) to human macrophages infected with Mycobacterium bovis BCG, we were able to separate three different bacterial fractions representing arrested phagosomes, phagolysosomes and mycobacterial clumps. After further purification of the phagosomal population, we found that isolated phagosomes containing live BCG were arrested in maturation as they exhibited only low amounts of the lysosomal glycoprotein LAMP-1 and processing of the lysosomal hydrolase cathepsin D was blocked. In addition, low amounts of MHC class I and class II molecules and the absence of HLA-DM suggest sequestration of mycobacterial phagosomes from antigen-processing pathways. We further investigated the involvement of the actin-binding protein coronin in intracellular survival of mycobacteria and showed that human coronin, as well as F-actin, were associated with early stages of mycobacterial phagocytosis but not with phagosome maintenance. Therefore, we conclude that the unique DGE migration pattern of arrested phagosomes is not as a result of retention of coronin, but that there are other proteins or lipids responsible for the block in maturation in human macrophages. [source] Early Bacillus anthracis,macrophage interactions: intracellular survival and escapeCELLULAR MICROBIOLOGY, Issue 6 2000Terry C. Dixon This study describes early intracellular events occurring during the establishment phase of Bacillus anthracis infections. Anthrax infections are initiated by dormant endospores gaining access to the mammalian host and becoming engulfed by regional macrophages (M,). During systemic anthrax, late stage events include vegetative growth in the blood to very high titres and the synthesis of the anthrax exotoxin complex, which causes disease symptoms and death. Experiments focus on the early events occurring during the first few hours of the B. anthracis infectious cycle, from endospore germination up to and including release of the vegetative cell from phagocytes. We found that newly vegetative bacilli escape from the phagocytic vesicles of cultured M, and replicate within the cytoplasm of these cells. Release from the M, occurs 4,6 h after endospore phagocytosis, timing that correlates with anthrax infection of test animals. Genetic analysis from this study indicates that the toxin plasmid pXO1 is required for release from the M,, whereas the capsule plasmid pXO2 is not. The transactivator atxA, located on pXO1, is also found to be essential for release, but the toxin genes themselves are not required. This suggests that M, release of anthrax bacilli is atxA regulated. The putative ,escape' genes may be located on the chromosome and/or on pXO1. [source] Growth of Brucella abortus in macrophages from resistant and susceptible mouse strainsCLINICAL & EXPERIMENTAL IMMUNOLOGY, Issue 2 2000J. Sathiyaseelan C57Bl/10 mice have a superior ability to control chronic infections with virulent strains of the intracellular bacteria Brucella abortus compared with BALB/c mice. While a number of differences in the cytokines produced by lymphocytes following infection of these two strains of mice have been shown, macrophages have not been evaluated for their role in conveying relative resistance. The importance of macrophages in control of brucella infections is demonstrated by the observations that intracellular survival of various strains of B. abortus directly correlates with their virulence in vivo, and the ability of macrophages to control brucellae in vitro has been shown to correlate with a brucella-resistant phenotype in ruminants. While both BALB/c and C57Bl are Nramp -susceptible mouse strains, additional differences in macrophage function outside of the Nramp1 gene effects could influence susceptibility to brucellosis. The studies conducted here comparing the ability of macrophages from C57Bl/10 and BALB/c mice indicate that the macrophages from resistant mice did not control intracellular growth of B. abortus strain 2308 more efficiently than those from the susceptible mice, either in the absence of, or following, interferon-gamma activation or iron supplementation. A number of different conditions for culturing macrophages were evaluated to rule out the influence of antibiotics on the conclusions drawn from the results. [source] | ||||||||||||||||