UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Shigella flexneri, a Gram negative bacillus, causes bacillary dysentery, an ulcerative disease of the human colon, by invading intestinal epithelial cells. Entry into epithelial cells occurs via an induced phagocytic process which involves the actino-myosin complex. The host-cell receptor and the transmembrane signal which initiate reorganization of the cytoskeleton are under study. Binding to integrins has recently been demonstrated in related models such as the entry of Yersinia pseudotuberculosis and Bordetella pertussis into cells. Bacterial genes necessary to achieve entry are located on five contiguous loci covering 30 kb on a 220 kb virulence plasmid in S. flexneri. Locus 2 has been particularly studied. Six genes organized as an operon encode highly immunogenic proteins among which IpaB (62 kD) and IpaC (48 kD) are the invasins of this microorganism which subsequently grows very rapidly within infected cells due to its capacity to lyse the membrane bound phagocytic vacuole. Once free within the cytoplasm, bacteria interact again with the cell cytoskeleton. They first express Olm (organelle like movement), a phenotype reflecting intracellular movement along actin stress cables. They subsequently express lcs (intracellular spread), a phenotype by which intracellular bacteria induce nucleation and polymerization of actin followed by accumulation of this material at one end of the bacillus. This process causes rapid random movement leading to the formation of protrusions which allow passage to adjacent cells. A combination of these two movements achieves bacterial colonization of the epithelium.
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PMID:[Molecular and cellular bases of the virulence of Shigella flexneri]. 155 36

Neutrophils express receptors (CR3) for the complement fragment C3bi. CR3 expression can be increased by exposure of the cells to chemotactic factors such as FMLP or to the calcium ionophore A23187. It has been suggested that CR3 moieties are stored in the membrane bounding either the secondary or the tertiary (gelatinase containing) granules. To help define the mechanisms mediating CR3 up-regulation, the effects of several inhibitors upon CR3 expression and secondary granule exocytosis were investigated. Pertussis toxin inhibited FMLP-induced (but not A23187-induced) CR3 expression and exocytosis, indicating that an early step in FMLP-induced CR3 expression is activation of a pertussis toxin-sensitive G protein. However, CR3 expression and exocytosis appeared to be controlled by separate mechanisms distal to G protein activation because 1) DBcAMP and the protein kinase inhibitor H-7 inhibited or stimulated exocytosis, respectively, without affecting CR3 expression; 2) the calmodulin (chlorpromazine and trifluoperazine) and myosin L chain kinase (ML9) inhibitors had greater effects on exocytosis than on CR3 expression; and 3) the kinetics of CR3 expression and exocytosis differed markedly. Thus, although G protein activation is a common early step in both processes, there is a bifurcation of the two processes distally. The mechanisms mediating CR3 up-regulation and tertiary granule exocytosis were also investigated. Extracellular Ca2+ was essential for tertiary granule exocytosis, but not for CR3 up-regulation. We conclude that because the mechanisms controlling CR3 up-regulation and exocytosis diverge soon after the binding of a chemotactic ligand to its receptor, that at least the bulk of increased CR3 expression is not simply a by-product of secondary and tertiary granule exocytosis but is the result of the mobilization of CR3 moieties from an intracellular pool of uncertain identity.
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PMID:Neutrophil CR3 expression and specific granule exocytosis are controlled by different signal transduction pathways. 165 Mar 89

Shigella flexneri, a Gram negative bacillus, causes bacillary dysentery, an ulcerative disease of the human colon, by invading intestinal epithelial cells. Entry into epithelial cells occurs via an induced phagocytic process which involves the actino-myosin complex. The host-cell receptor and the transmembrane signal which initiate reorganization of the cytoskeleton are under study. Binding to integrins has recently been demonstrated in related models such as the entry of Yersinia pseudotuberculosis and Bordetella pertussis into cells. Bacterial genes necessary to achieve entry are located on five contiguous loci covering 30 kb on a 220 kb virulence plasmid in S. flexneri. Locus 2 has been particularly studied. Six genes organized as an operon encode highly immunogenic proteins among which IpaB (62 kD) and IpaC (48 kD) are the invasins of this microorganism which subsequently grows very rapidly within infected cells due to its capacity to lyse the membrane bound phagocytic vacuole. Once free within the cytoplasm, bacteria interact again with the cell cytoskeleton. They first express Olm (organelle like movement), a phenotype reflecting intracellular movement along actin stress cables. They subsequently express Ics (intracellular spread), a phenotype by which intracellular bacteria induce nucleation and polymerization of actin followed by accumulation of this material at one end of the bacillus. This process causes rapid random movement leading to the formation of protusions which allow passage to adjacent cells. A combination of these two movements achieves bacterial colonization of the epithelium.
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PMID:[Molecular and cellular bases of Shigella flexneri virulence]. 174 20

Recombinant monocyte-chemotactic and activating factor (rMCAF; alternative acronyms MCP-1, TDCF, human JE) induced migration of human monocytes across polycarbonate or nitrocellulose filters. Maximal induction of migration was observed at a concentration of 10 ng/ml (10(-9) M). Checkerboard analysis revealed that rMCAF elicited true gradient-dependent chemotactic migration, although a gradient independent chemokinetic effect was observed at low concentrations (1-5 ng/ml). rMCAF caused a rapid (less than 5 s) and transient (approximately 1.5 min) increase of free cytosolic Ca2+ ions, as assessed by the fura-2 probe. No Ca2+ increase was detected in neutrophils or lymphocytes stimulated by rMCAF. Studies conducted in the absence of extracellular Ca2+ or in the presence of Ni2+ (an inhibitor of Ca2+ influx) suggested that the increase of intracellular Ca2+ induced by rMCAF is dependent on the influx of extracellular Ca2+ through plasma membrane channels. Bordetella pertussis toxin inhibited the intracellular Ca2+ elevation and chemotaxis caused by rMCAF. The possible involvement of Ca(2+)-dependent protein kinases in rMCAF signaling pathway(s) was explored using inhibitors. Inhibitors of GMP-dependent kinase and myosin L chain kinase had no effect on rMCAF-induced monocyte migration. In contrast, protein kinase C/cAMP-dependent kinase inhibitors (such as, C-I, H-7, HA-1004, KT5720, and Staurosporine) markedly decreased rMCAF induced chemotaxis suggesting the involvement of a serine/threonine protein kinase, possibly protein kinase C, in rMCAF signaling pathway.
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PMID:The signal transduction pathway involved in the migration induced by a monocyte chemotactic cytokine. 191 57

In this study we have used several complementary techniques to isolate and characterize a lymphoma membrane-associated 41-kDa protein that shares a number of structural and functional similarities with the alpha i subunit of the guanosine 5'-triphosphate (GTP)-binding protein (e.g., Gi alpha-like protein). In addition, using permeabilized lymphoma cells, we have found that: 1) GTP or GTP-tau-S augments, and pertussis toxin inhibits, phospholipase C (PLC) activity and receptor capping; and 2) the addition of lymphoma 41-kDa Gi alpha-like protein stimulates PLC activity and receptor patching/capping, and reverses the inhibitory effect of pertussis toxin on both activity and receptor patching/capping. Additional cytochemical and biochemical data indicate that the lymphoma 41-kDa protein is closely associated with several cytoskeletal proteins (e.g., actin, myosin, and fodrin) all of which colocalize under receptor cap structures. Furthermore, both the 41-kDa-mediated phospholipase C activity and receptor patching/capping are inhibited by cytochalasin D (a microfilament disrupting drug) and W-7 drug (a calmodulin inhibitor). Together, these data provide strong evidence for a functional association between the lymphoma membrane cytoskeleton and the 41-kDa (Gi alpha-like) protein. Specifically, this association appears to be required for the activation of phospholipase C that results in inositol triphosphate production, subsequent internal Ca2+ release, and finally surface receptor patching and capping.
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PMID:Interactions between a lymphoma membrane-associated guanosine 5'-triphosphate-binding protein and the cytoskeleton during receptor patching and capping. 196 26

Addition of guanosine 5'-(3-O-thio)triphosphate (GTP gamma S) to the membrane fraction isolated from rabbit peritoneal neutrophils results in the solubilization of several proteins from the membrane. The major proteins are of 180 kDa (myosin) and 43 kDa (actin). The effect is observed with a half-maximum GTP gamma S concentration of 70 microM. The potencies of various nucleotides are compared: GTP gamma S greater than GTP greater than ATP greater than GDP, GMP, cGMP, cAMP. The effect does not require calcium and is not inhibited by using membranes prepared from cells that have been pretreated with pertussis toxin.
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PMID:GTP gamma S-induced solubilization of actin and myosin from rabbit peritoneal neutrophil membrane. 242 86

Leukocyte recruitment is a key step in the inflammatory reaction. Several changes in the cell morphology take place during lymphocyte activation and migration: spheric-shaped resting T cells become polarized during activation, developing a well defined cytoplasmic projection designated as cellular uropod. We found that the chemotactic and proinflammatory chemokines RANTES, MCP-1, and, to a lower extent, MIP-1 alpha, MIP-1 beta, and IL-8, were able to induce uropod formation and ICAM-3 redistribution in T lymphoblasts adhered to ICAM-1 or VCAM-1. A similar chemokine-mediated effect was observed during T cells binding to the fibronectin fragments of 38- and 80-kD, that contain the binding sites for the integrins VLA-4 and VLA-5, respectively. The uropod structure concentrated the ICAM-3 adhesion molecule (a ligand for LFA-1), and emerged to the outer milieu from the area of contact between lymphocyte and protein ligands. In addition, we found that other adhesion molecules such as ICAM-1, CD43, and CD44, also redistributed to the lymphocyte uropod upon RANTES stimulation, whereas a wide number of other cell surface receptors did not redistribute. Chemokines displayed a selective effect among different T cell subsets; MIP-1 beta had more potent action on CD8+ T cells and tumor infiltrating lymphocytes (TIL), whereas RANTES and MIP-1 alpha targeted selectively CD4+ T cells. We have also examined the involvement of cAMP signaling pathway in uropod formation. Interestingly, several cAMP agonists were able to induce uropod formation and ICAM-3 redistribution, whereas H-89, a specific inhibitor of the cAMP-dependent protein kinase, abrogated the chemokine-mediated uropod formation, thus pointing out a role for cAMP-dependent signaling in the development of this cytoplasmic projection. Since the lymphocyte uropod induced by chemokines was completely abrogated by Bordetella pertussis toxin, the formation of this membrane projection appears to be dependent on G proteins signaling pathways. In addition, the involvement of myosin-based cytoskeleton in uropod formation and ICAM-3 redistribution in response to chemokines was suggested by the prevention of this phenomenon with the myosin-disrupting agent butanedione monoxime. Interestingly, this agent also inhibited the ICAM-3-mediated cell aggregation, but not the cell adhesion to substrata. Altogether, these results demonstrate that uropod formation and adhesion receptor redistribution is a novel function mediated by chemokines; this phenomenon may represent a mechanism that significantly contributes to the recruitment of circulating leukocytes to inflammatory foci.
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PMID:Chemokines regulate cellular polarization and adhesion receptor redistribution during lymphocyte interaction with endothelium and extracellular matrix. Involvement of cAMP signaling pathway. 759 74

The adenosine analog, N-ethylcarboxamidoadenosine (NECA), causes transient activation of phospholipase C and an enhancement of antigen-induced secretion in a rat mast cell (RBL-2H3) line via adenosine A3-receptors (Ramkumar et al., J. Biol. Chem. 268:16887, 1993) by a mechanism that is inhibited by bacterial toxins and potentiated by dexamethasone (Ali et al., J. Biol. Chem. 265:745-753, 1990). Here we show that NECA synergizes the secretory response to Ca(2+)-ionophore as well as to antigen. The ability of NECA to synergize the secretory responses persisted for 10 to 20 min, long after the early phospholipase C-mediated reactions to NECA had subsided. NECA caused, however, a dose-dependent sustained activation of phospholipase D, as indicated by the formation of [3H]phosphatidic acid, or in the presence of 0.3% ethanol, [3H]phosphatidylethanol. This activation was associated with a sustained increase in diglycerides, in protein kinase C activity and in the phosphorylation of myosin light chains by protein kinase C. The generation of diglycerides was enhanced in dexamethasone-treated cells and suppressed in cells that had been treated with cholera toxin or pertussis toxin. Collectively, the studies suggested that the generation of diglycerides via phospholipase D and the associated activation of protein kinase C were, by themselves, insufficient signals for secretion in RBL-2H3 cells, but that these reactions synergized responses to stimulants such as antigen or A23187 that caused substantial increases in [Ca2+]i.
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PMID:Sustained activation of phospholipase D via adenosine A3 receptors is associated with enhancement of antigen- and Ca(2+)-ionophore-induced secretion in a rat mast cell line. 863 57

Parturition results from the establishment of phasic regular uterine contractions. Contractility in myometrial smooth muscle is stimulated by an increase in intracellular calcium ([Ca2+i]) which activates myosin light chain phosphorylation leading to increased myosin ATPase activity and enhanced rate of acto-myosin cross bridge formation. G proteins play a pivotal role in smooth muscle activation and relaxation by coupling cell membrane receptors to effector enzymes and ion channels. G alpha(s) and G alpha(i) stimulate and inhibit adenylyl cyclase, respectively and control cAMP formation. G alpha(q) stimulates phospholipase C resulting in the formation of two second messengers: inositol 1,4,5-trisphosphate (InsP3) which releases Ca2+ from the sarcoplasmic reticulum, and 1,2-diacylglycerol which activates protein kinase C. The oxytocin receptor stimulates myometrial contractility by increasing [Ca2+i] through both pertussis toxin resistant (G alpha(q)) and pertussis toxin sensitive (?G alpha (i)) pathways. beta-Adrenoceptors and prostaglandin EP2 receptors promote relaxation via G alpha(s)-adenylyl cyclase. The concentration of myometrial oxytocin receptors is five-times higher in pregnant compared to non-pregnant myometrium but decreases in samples obtained during labour. When myometrial slices are challenged with oxytocin there is a rapid increase in InsP3 levels with a time course which is similar to the rise in [Ca2+i] provoked by oxytocin in cultured myometrial cells. The formation of InsP3 in response to oxytocin in myometrial tissue at term is similar in samples obtained before and after the onset of labour. G alpha(q) and G alpha(i) are expressed at similar levels in non-pregnant and in pregnant myometrium obtained before or during labour. By contract, G alpha(s) levels are higher in pregnant compared to non-pregnant myometrium and decrease in samples obtained during labor. These changes in G alpha(s) are paralleled by prostaglandin E2-induced adenylyl cyclase activity in the same tissues. Parturition may be the consequence of downregulation of pathways that favour uterine quiescence by increasing cAMP formation, resulting in a relative dominance of stimulatory receptors that increase InsP3/Ca2+ availability.
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PMID:Parturition: activation of stimulatory pathways or loss of uterine quiescence? 871 97

Thrombin treatment causes a dose-dependent rounding of 1321N1 astrocytoma cells. This cytoskeletal response is rapid, peaking 2 h after thrombin stimulation, and reverses by 50% after 24 h. The thrombin receptor peptide SFLLRNP also induces cell rounding, whereas other G protein-linked receptor agonists such as carbachol, lysophosphatidic acid, or bradykinin fail to do so. Results of studies using pharmacological inhibitors do not support a requirement for phosphatidylinositol 3-kinase, mitogen-activated protein kinase, or Ca2+ mobilization in this response. Inhibition of protein kinase C or tyrosine kinase produces minimal blockade. Pertussis toxin treatment is also without effect. However, thrombin-induced rounding is fully blocked by the C3 toxin from Clostridium botulinum, which specifically ADP-ribosylates and inactivates the small G protein Rho. Thrombin also leads to a rapid, 2.4-fold increase in 32P incorporation into myosin light chain while carbachol does not. Myosin phosphorylation, like cell rounding is inhibited by inactivation of Rho with C3 exoenzyme, suggesting that myosin phosphorylation is necessary for this cytoskeletal response. This is supported by the observation that thrombin-induced rounding is also blocked by the myosin light chain kinase inhibitor KT5926. However, treatment with KT5926 fails to inhibit mitogenesis. Thus, cell rounding is not prerequisite to thrombin-induced DNA synthesis. We conclude that stimulation of the heterotrimeric G protein-coupled thrombin receptor in 1321N1 cells activates Rho-dependent pathways for both DNA synthesis and cell rounding, the cytoskeletal response being mediated in part through increases in myosin phosphorylation.
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PMID:Requirement for Rho-mediated myosin light chain phosphorylation in thrombin-stimulated cell rounding and its dissociation from mitogenesis. 955 56

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