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Query: UMLS:C0023241 (Legionella)
 6,990 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Whereas bacteria in the genus Legionella have emerged as relatively frequent causes of pneumonia, the mechanisms underlying their pathogenicity are obscure. The legionellae are facultative intracellular pathogens which multiply within the phagosome of mononuclear phagocytes and are not killed efficiently by polymorphonuclear leukocytes. The functional defects that might permit the intracellular survival of the legionellae have remained an enigma until recently. Phagosome-lysosome fusion is inhibited by a single strain (Philadelphia 1) of Legionella pneumophila serogroup 1, but not by other strains of L. pneumophila or other species. It has been found that following the ingestion of Legionella organisms, the subsequent activation of neutrophils and monocytes in response to both soluble and particulate stimuli is profoundly impaired and the bactericidal activity of these cells is attenuated, suggesting that Legionella bacterial cell-associated factors have an inhibitory effect on phagocyte activation. Two factors elaborated by the legionellae which inhibit phagocyte activation have been described. First, the Legionella (cyto)toxin blocks neutrophil oxidative metabolism in response to various agonists by an unknown mechanism. Second, L. micdadei bacterial cells contain a phosphatase which blocks superoxide anion production by stimulated neutrophils. The Legionella phosphatase disrupts the formation of critical intracellular second messengers in neutrophils. In addition to the toxin and phosphatase, several other moieties that may serve as virulence factors by promoting cell invasion or intracellular survival and multiplication are elaborated by the legionellae. Molecular biological studies show that a cell surface protein named Mip is necessary for the efficient invasion of monocytes. A possible role for a Legionella phospholipase C as a virulence factor is still largely theoretical. L. micdadei contains an unusual protein kinase which catalyzes the phosphorylation of eukaryotic substrates, including phosphatidylinositol and tubulin. Since the phosphorylation of either phosphatidylinositol or tubulin might compromise phagocyte activation and bactericidal functions, this enzyme may well be a virulence factor. Administration of the L. pneumophila exoprotease induces lesions resembling those of Legionella pneumonia and kills guinea pigs, suggesting that this protein plays a role in the pathogenesis of legionellosis. However, recent work with a genetically engineered strain has convincingly shown that the protease is not necessary for intracellular survival or virulence. As might be expected with a complex process like intracellular parasitism, it appears that the capability of Legionella strains to invade and multiply in host phagocytes is multifactorial and that no single moiety which is responsible for the virulence phenotype will be found.
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PMID:Virulence factors of the family Legionellaceae. 157 12

In the process of protein kinase reaction carried out in the mixture consisting of tris-HCl buffer, EDTA, MgCl2, gamma-32P-ATP and the cytoplasmic fraction of rabbit pulmonary cells the phosphorylation of proteins with molecular weights of 150 and 55 kD took place. The addition of L. pneumophila culture fluid to the reaction mixture resulted in the splitting of phosphorylated proteins with the formation of the component having a molecular weight of 45 kD. These disturbances in protein kinase reaction were found to occur due to the involvement of Legionella cytoplasm, a previously characterized protein with a molecular weight of 37 kD, into the process. In this connection, the participation of cytolysin in the pathogenesis of Legionella infection may also be considered from the viewpoint of the effect produced by cytolysin on the regulatory processes affecting the metabolism of target cells.
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PMID:[The splitting of the acceptor proteins of the protein kinase system in eukaryotic cells by Legionella cytolysin]. 195 Feb 77

Endogenous phosphorylation of specific proteins in eukaryotic cells is one of the main mechanisms controlling intracellular metabolic processes. It is proposed that microorganisms multiplying intracellularly possess ways of changing cellular metabolism to benefit their survival. The detection and partial purification of a phosphokinase system in pulmonary cells with acceptor proteins of molecular masses 150 and 55 kDa is reported. It is also shown that the bacterium Legionella pneumophila, a facultative intracellular parasite, secretes a toxic protein, cytolysin, that cleaves the 55 kDa component to produce a 45 kDa protein and probably hydrolyzes the 150 kDa component completely. Thus far, the significance of cytolysin in the pathogenesis of legionellosis has been restricted to its direct necrotic action. This product may, however, also act as a regulator of metabolic processes in the host cells by influencing their protein kinase activity. The findings reported may aid our understanding of mechanisms of intracellular parasitism and the survival strategy of pathogenic bacteria.
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PMID:Action of Legionella cytolysin on components of the phosphokinase system of eukaryotic cells. 213 66

The attachment of bacteria to macrophages is mediated by different ligands and receptors and induces various intracellular molecular responses. In the present study, induction of cytokines and chemokines, especially granulocyte-macrophage colony-stimulating factor (GM-CSF) and macrophage inflammatory protein 2 (MIP-2), was examined, following bacterial attachment, with regard to the ligand-receptor systems involved. Attachment of Legionella pneumophila or Salmonella typhimurium to cultured mouse peritoneal macrophages increased the steady-state levels of cellular mRNAs for the cytokines interleukin 1beta (IL-1beta), IL-6, and GM-CSF as well as the chemokines MIP-1beta, MIP-2, and KC. However, when macrophages were treated with alpha-methyl-D-mannoside (alphaMM), a competitor of glycopeptide ligands, induction of cytokine mRNAs was inhibited, but the levels of chemokine mRNAs were not. Pretreatment of the bacteria with fresh mouse serum enhanced the level of GM-CSF mRNA but not the level of MIP-2 mRNA. In addition, serum treatment reduced the inhibitory effect of alphaMM on GM-CSF mRNA. These results indicate that bacterial attachment increases the steady-state levels of the cytokine and chemokine mRNAs tested by at least two distinct receptor-ligand systems, namely, one linked to cytokine induction and involving mannose or other sugar residues and the other linked to chemokine induction and relatively alphaMM insensitive. Furthermore, opsonization with serum engages other pathways in the cytokine response which are relatively independent of the alphaMM-sensitive system. Regarding bacterial surface ligands involved in cytokine mRNA induction, evidence is presented that the flagellum may be important in stimulating cytokine GM-CSF message but not chemokine MIP-2 message. Analysis of cytokine GM-CSF and chemokine MIP-2 signaling pathways with protein kinase inhibitors revealed the involvement of calmodulin and myosin light-chain kinase in GM-CSF but not MIP-2 mRNA induction, adding further evidence that several distinct receptor systems are engaged during the process of bacterial attachment and induction of cytokines and chemokines, such as GM-CSF and MIP-2, respectively.
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PMID:Induction of cytokine granulocyte-macrophage colony-stimulating factor and chemokine macrophage inflammatory protein 2 mRNAs in macrophages by Legionella pneumophila or Salmonella typhimurium attachment requires different ligand-receptor systems. 875 34

Legionella pneumophila, the causative agent of Legionnaires' disease, infects and replicates within a variety of eukaryotic cells. The purpose of the current study was to examine host cell signaling events immediately following uptake and early in the endocytic process (less than 1 h) following the phagocytosis of L. pneumophila. This examination focused on the protein kinase signal pathways to identify any aberrant signal(s) induced by L. pneumophila within its host, as a means to alter the normal endocytic pathway. The mitogen-activated protein kinase cascades are of interest due to their involvement in cellular regulation. The experiments were carried out with monocyte-derived macrophages (MDMs). All three mitogen-activated protein kinase cascades were activated when MDMs were inoculated with either Legionella strain (wild-type strain AA100 or dotA mutant GL10) or an Escherichia coli control. Whereas the avirulent treatments, GL10 and E. coli, exhibited a leveling off or a return to near basal levels of phosphorylation/activity of c-Jun N-terminal kinase by 60 min, the virulent strain AA100 exhibited a significantly increased level of activity through 60 min that was greater than that seen in GL10 (P = 0.025) and E. coli (P = 0.014). A similar trend was seen with p38 phosphorylation. Phosphorylation of mitogen-activated protein/ERK kinase (MEK) was decreased in strain AA100 compared to E. coli. Inhibition of the activity of either the stress-activated protein kinase/c-Jun N-terminal kinase or p38 pathway significantly decreased the ability of legionellae to replicate intracellularly, suggesting the necessity of these two pathways in its intracellular survival and replication.
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PMID:Increases in c-Jun N-terminal kinase/stress-activated protein kinase and p38 activity in monocyte-derived macrophages following the uptake of Legionella pneumophila. 1497 57

Aminoglycoside phosphotransferases (APHs) constitute a diverse group of enzymes that are often the underlying cause of aminoglycoside resistance in the clinical setting. Several APHs have been extensively characterized, including the elucidation of the three-dimensional structure of two APH(3') isozymes and an APH(2'') enzyme. Although many APHs are plasmid-encoded and are capable of inactivating numerous 2-deoxystreptmaine aminoglycosides with multiple regiospecificity, APH(9)-Ia, isolated from Legionella pneumophila, is an unusual enzyme among the APH family for its chromosomal origin and its specificity for a single non-2-deoxystreptamine aminoglycoside substrate, spectinomycin. We describe here the crystal structures of APH(9)-Ia in its apo form, its binary complex with the nucleotide, AMP, and its ternary complex bound with ADP and spectinomycin. The structures reveal that APH(9)-Ia adopts the bilobal protein kinase-fold, analogous to the APH(3') and APH(2'') enzymes. However, APH(9)-Ia differs significantly from the other two types of APH enzymes in its substrate binding area and that it undergoes a conformation change upon ligand binding. Moreover, kinetic assay experiments indicate that APH(9)-Ia has stringent substrate specificity as it is unable to phosphorylate substrates of choline kinase or methylthioribose kinase despite high structural resemblance. The crystal structures of APH(9)-Ia demonstrate and expand our understanding of the diversity of the APH family, which in turn will facilitate the development of new antibiotics and inhibitors.
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PMID:Structure of the antibiotic resistance factor spectinomycin phosphotransferase from Legionella pneumophila. 2008 63

Legionella pneumophila is the causative agent of human Legionnaires' disease. L. pneumophila has been shown to induce apoptosis of T-cells and this may be important pathologically and clinically. The present study has determined the molecular mechanisms underlying L. pneumophila-induced apoptosis, which were unclear. Wild-type L. pneumophila and flagellin-deficient Legionella, but not L. pneumophila lacking a functional type IV secretion system Dot/Icm, replicated in T-cells. However, apoptosis was efficiently induced in T-cells only by wild-type L. pneumophila, and not flagellin-deficient or Dot/Icm-deficient Legionella. Induction of apoptosis involved activation of the initiator caspase 9 and effector caspase 3. Infection with L. pneumophila inhibited phosphorylation of Akt (also known as protein kinase B) and the Akt substrate GSK3beta (glycogen synthase kinase 3beta), and reduced the levels of beta-catenin, a transcriptional activator regulated by GSK3beta. It also caused the activation of the pro-apoptotic protein Bax and inhibited the expression of the anti-apoptotic protein XIAP (X-linked inhibitor of apoptosis) via inhibition of the Akt pathway. In conclusion, L. pneumophila induces mitochondria-mediated T-cell apoptosis through inhibition of the Akt/GSK3beta signalling pathway.
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PMID:Inhibition of Akt/GSK3beta signalling pathway by Legionella pneumophila is involved in induction of T-cell apoptosis. 2134 58

Mitochondrial diseases are a diverse family of genetic disorders caused by mutations affecting mitochondrial proteins encoded in either the nuclear or the mitochondrial genome. By impairing mitochondrial oxidative phosphorylation, they compromise cellular energy production and the downstream consequences in humans are a bewilderingly complex array of signs and symptoms that can affect any of the major organ systems in unpredictable combinations. This complexity and unpredictability has limited our understanding of the cytopathological consequences of mitochondrial dysfunction. By contrast, in Dictyostelium the mitochondrial disease phenotypes are consistent, measurable "readouts" of dysregulated intracellular signalling pathways. When the underlying genetic defects would produce coordinate, generalized deficiencies in multiple mitochondrial respiratory complexes, the disease phenotypes are mediated by chronic activation of an energy-sensing protein kinase, AMP-activated protein kinase (AMPK). This chronic AMPK hyperactivity maintains mitochondrial mass and cellular ATP concentrations at normal levels, but chronically impairs growth, cell cycle progression, multicellular development, photosensory and thermosensory signal transduction. It also causes the cells to support greater proliferation of the intracellular bacterial pathogen, Legionella pneumophila. Notably however, phagocytic and macropinocytic nutrient uptake are impervious both to AMPK signalling and to these types of mitochondrial dysfunction. Surprisingly, a Complex I-specific deficiency (midA knockout) not only causes the foregoing AMPK-mediated defects, but also produces a dramatic deficit in endocytic nutrient uptake accompanied by an additional secondary defect in growth. More restricted and specific phenotypic outcomes are produced by knocking out genes for nuclear-encoded mitochondrial proteins that are not required for respiration. The Dictyostelium model for mitochondrial disease has thus revealed consistent patterns of sublethal dysregulation of intracellular signalling pathways that are produced by different types of underlying mitochondrial dysfunction.
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PMID:The Dictyostelium model for mitochondrial disease. 2112 94

Legionella pneumophila is the etiological agent of Legionnaires' disease. Crucial to the pathogenesis of this intracellular pathogen is its ability to subvert host cell defenses, permitting intracellular replication in specialized vacuoles within host cells. The Dot/Icm type IV secretion system (T4SS), which translocates a large number of bacterial effectors into host cell, is absolutely required for rerouting the Legionella phagosome. Many Legionella effectors display distinctive eukaryotic domains, among which are protein kinase domains. In silico analysis and in vitro phosphorylation assays identified five functional protein kinases, LegK1 to LegK5, encoded by the epidemic L. pneumophila Lens strain. Except for LegK5, the Legionella protein kinases are all T4SS effectors. LegK2 plays a key role in bacterial virulence, as demonstrated by gene inactivation. The legK2 mutant containing vacuoles displays less-efficient recruitment of endoplasmic reticulum markers, which results in delayed intracellular replication. Considering that a kinase-dead substitution mutant of legK2 exhibits the same virulence defects, we highlight here a new molecular mechanism, namely, protein phosphorylation, developed by L. pneumophila to establish a replicative niche and evade host cell defenses.
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PMID:Protein kinase LegK2 is a type IV secretion system effector involved in endoplasmic reticulum recruitment and intracellular replication of Legionella pneumophila. 2615 87

The bewildering complexity of the relationship between genotype and phenotype in human mitochondrial diseases has delayed an understanding of the related cytopathological mechanisms. To explore the relationship between mitochondrial dysfunction in Dictyostelium discoideum and the related cytopathologies, we determined whether the phenotypic outcomes were similar regardless of which D. discoideum mitochondrial gene was targeted for disruption. The disruption of the mitochondrial genes resulted in a similar pattern of phenotypes to those caused by other mitochondrial defects. These include impairment of phototaxis, multicellular development and growth on plates and in liquid medium. As the reduced growth rates could have been due to defective phagocytic or macropinocytic nutrient uptake, these processes were tested but found to be unaffected. Since mitochondria have been associated with Legionella pathogenesis of human macrophages, it was also determined if mitochondrially diseased Dictyostelium strains were better or worse than healthy cells at supporting the growth of Legionella pneumophila. The results revealed that the mitochondrially diseased strains supported greater L. pneumophila growth than the wild type Dictyostelium strain (AX2). Quantitative Northern blotting showed a significant reduction in the level of expression of the entire mitochondrial genome, regardless of which mitochondrial gene was targeted for disruption, suggesting a generalized deficiency in mitochondrial gene expression and function. The phenotypic outcomes were the same as those shown previously to result from chronic hyperactivity of the energy-sensing protein kinase, AMPK, after knockdown of mitochondrial chaperonin 60.
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PMID:Heteroplasmic mitochondrial disease in Dictyostelium discoideum. 2178 54


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