Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Prostaglandins inhibit the proliferation of the murine P815 mastocytoma. The mechanism of this antitumour activity remains undefined. In several cell systems, the action of PGs is inhibited at the cell surface receptor by pertussis toxin likely through regulatory G proteins involved in the inhibition of adenyl cyclase or activation of phospholipase C. We therefore determined the effect of prostaglandins on the biochemical consequences of activation of these pathways; i.e. concentrations of cyclic AMP (cAMP) and cytosolic free Ca+2 concentrations [( Ca/2]i) respectively. PGD2 (6 ug/mL), PGE1 (10 ug/mL) and PGB1 (50 ug/mL) maximally inhibited (3H)-thymidine incorporation to DNA. PGF2 alpha did not affect DNA synthesis. PGE1 (10 ug/mL) induced a three fold increase in cAMP concentrations. In contrast, the other prostaglandins did not alter cAMP concentrations. Maximal growth inhibitory doses of PGD2, PGE1 and PGB1 decrease [Ca+2]i, as measured by the fluorescence of Indo-1, from 320 +/- 5 nM to 172 +/- 20 nM, 161 +/- 12 nM, and 151 +/- 18 nM respectively. PGF2 alpha did not alter [Ca+2]i. Therefore, in contrast to the effects on cAMP, the decrease in [Ca+2]i was concordant with the inhibition of DNA synthesis. This suggests that PGs may inhibit proliferation through decreasing [Ca+2]i in the P815 mastocytoma.
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PMID:Prostaglandins inhibit proliferation of the murine P815 mastocytoma by decreasing cytoplasmic free calcium levels [( Ca+2]i). 314 77

Chinese hamster ovary (CHO) cells cluster in the presence of pertussis toxin, a response that is correlated with the ADP-ribosylation of a Mr = 41,000 membrane protein by the toxin. A ricin-resistant line of CHO cells (CHO-15B) which specifically lacks the terminal NeuAc----Gal beta 4GlcNAc oligosaccharide sequence on glycoproteins did not cluster in response to pertussis toxin. These cells do contain the Mr = 41,000 protein substrate for the enzymatic activity of the toxin which suggests that pertussis toxin, like certain plant lectins, does not bind to or is not internalized by the CHO-15B cells. There was no evidence of pertussis toxin binding to gangliosides or neutral glycolipids isolated from CHO cells but the toxin bound to a Mr = 165,000 component in N-octyglucoside extracts of CHO cells that had been separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electroblotted to nitrocellulose. Plant lectins from Ricinus communis and Erythina cristagalli detected a similar size band in CHO cells and also did not react with CHO-15B cells. Unlike pertussis toxin, these plant lectins recognized two other major bands in CHO cell extracts and reacted best after sialidase treatment of nitrocellulose transfers containing CHO cell extracts. Conversely, sialidase treatment abolished binding a pertussis toxin and wheat germ agglutinin, a plant lectin that reacts with multivalent sialic acid residues on glycoproteins, to the Mr = 165,000 band. Purified B oligomer of pertussis toxin also uniquely detected a Mr = 165,000 component in CHO cell extracts while the A subunit of pertussis toxin was unreactive. These results indicate that pertussis toxin binds to a CHO cell glycoprotein with N-linked oligosaccharides and that sialic acid contributes to the complementary receptor site for the toxin. In addition, they suggest that a glycoprotein may serve as a cell surface receptor for pertussis toxin and that this interaction is mediated by a lectin-like binding site located on the B oligomer.
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PMID:Lectin-like binding of pertussis toxin to a 165-kilodalton Chinese hamster ovary cell glycoprotein. 335 Aug 15

The molecular mechanism of action for the pineal hormone melatonin was explored by testing melatonin interaction with the components of the hormone-sensitive adenylate cyclase complex in a Xenopus dermal melanophore bioassay. Forskolin was employed to stimulate melanosome dispersion. The ability of melatonin to reverse forskolin-stimulated pigment dispersion was assessed, as was the effect of pertussis toxin on the ability of melatonin to aggregate dispersed pigment. Forskolin elicited dispersal of melanosomes in a dose dependent manner (EC50 = 12 nM) in meninges from stage 52-56 tadpoles of Xenopus laevis. Maximal pigment dispersion was obtained with 100 nM forskolin. Melatonin reversed this effect of forskolin (EC50 = 1.5 nM), causing pigment aggregation. Pertussis toxin blocked the melatonin-induced aggregation (EC50 = 358 ng/ml). Prior treatment of the melanophore containing meningeal explants with pertussis toxin results in blockade of melatonin induced pigment aggregation. A 41 kDa pertussis toxin substrate is found in explant homogenates treated with 32P-NAD and pertussis toxin. The availability of this substrate is reduced by prior treatment of intact explants with pertussis toxin and depletion of melatonin responsiveness corresponds to depletion of the 41 kDa substrate. Together, these data suggest that melatonin action upon amphibian dermal melanosomes is mediated by a system requiring a protein similar to the regulatory protein Ni used by mammalian cells to mediate the action of hormones which inhibit adenylate cyclase through a cell surface receptor.
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PMID:Pertussis toxin blocks melatonin-induced pigment aggregation in Xenopus dermal melanophores. 357 70

We have previously shown that a protein-independent growing fibrosarcoma, Gc-4 PF has a high motile response to its cultured medium, which is associated with an increase in expression of gp78, a cell surface receptor for autocrine motility factor (AMF). Here we show that the cultured medium contains two motile activities, acidic and basic AMFs with regard to binding features on ion exchange chromatography. These two AMFs were purified by sequential DEAE anion exchange, CM cation exchange, and gel filtration chromatographies. However, both acidic and basic AMFs have a similar size of 55 kDa and 65 kDa under non-reducing and reducing conditions, respectively, with the same pI of 6.5. The stimulated motility of both AMFs was inhibited by the pertussis toxin (PT), but not by Streptomyces hyaluronidase. These two AMFs significantly stimulated the lung colonizing properties of the self-producing cells by 1.5-fold. These results suggest that both acidic and basic AMFs may correspond to the previously reported AMF and confirm directly that the AMF-gp78 signaling pathway is involved in cell motility associated with metastatic property.
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PMID:Differential purification of autocrine motility factor derived from a murine protein-free fibrosarcoma. 830 29

We investigated the validity of streptolysin O (SLO)-permeabilized Madin-Darbin canine kidney (MDCK) cells which express muscarinic acetylcholine receptors (mAChRs) coupled to pertussis toxin-sensitive guanine nucleotide-binding proteins (G proteins) for the study of the molecular machinery that regulated mAChR internalization and recycling. Exposure of SLO-permeabilized cells to carbachol-reduced cell surface receptor number by up to 40% without changing total receptor number. The kinetics and maximal extent of receptor internalization as well as the potency of carbachol to induce receptor internalization were almost identical in SLO-permeabilized and non-permeabilized cells. Using this semi-intact cell system, we studied the effect of various agents affecting components potentially involved in receptor trafficking. Internalization was prevented by treatment of the SLO-permeabilized MDCK cells with (i) the stable ATP analogues, adenosine 5'-O-(3-thiotriphosphate) and adenylylimidodiphosphate, to block ATP-dependent processes, and (ii) heparin to block G protein-coupled receptor kinases. Inclusion of the stable GTP analogue, guanosine 5'-O-(3-thiotriphosphate), increased the rate but not the extent of receptor internalization. None of the membrane-impermeant agents affected receptor internalization in intact MDCK cells. This model system also allowed recycling of internalized receptors back to the plasma membrane. After removal of the agonist, cell surface receptor number in SLO-permeabilized cells returned to control values within 90 min with the same kinetics as seen in intact cells. Inclusion of guanosine 5'O-(3-thiotriphosphate) shortened the recovery time. These data suggest that both ATP-dependent kinases including G protein-coupled receptor kinases and G proteins participate in receptor internalization and recycling. In summary, the SLO-permeabilized MDCK cell is a feasible model system for the study of mAChR internalization and recycling and allows manipulation of the intracellular milieu with membrane-impermeable macromolecules.
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PMID:Muscarinic acetylcholine receptor trafficking in streptolysin O-permeabilized MDCK cells. 885 89

Previously, we identified peptides that stimulate phosphoinositide hydrolysis in several leukocyte cell lines from mixtures of random hexapeptide sequences. Moreover, the peptides activate phospholipase C via a pertussis toxin-sensitive G protein-coupled receptor. We now investigate the structure-activity relationship of the peptides with the goal of improving the activity of the peptides, as well as the biologic function of the peptides. Substitution of the L-methionine at the C terminus of peptides with D-methionine markedly increased the effectiveness of the peptides. The half-maximal effective concentrations of MKYMPm-NH2 and WKYMVm-NH2 for stimulation of phosphoinositide hydrolysis in U266 cells were 30 and 0.5 nM, respectively. By BIAcore analysis we confirmed the existence of a receptor for WKYMVm-NH2. Furthermore, the intracellular calcium concentration increase induced by WKYMVm-NH2 was not inhibited by several chemoattractants (FMLP, IL-8, platelet-activating factor, C5a, granulocyte-macrophage CSF, and granulocyte CSF) suggests that WKYMVm-NH2 has a unique cell surface receptor on leukocytes. WKYMVm-NH2 stimulated the phosphoinositide hydrolysis in U937, HL60, and U266 cells, as well as in human neutrophils. Moreover, WKYMVm-NH2 is more effective than FMLP in the production of superoxide in human neutrophils. The data suggest that WKYMVm-NH2 may have the ability to activate the microbicidal functions of human neutrophils.
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PMID:A peptide with unique receptor specificity: stimulation of phosphoinositide hydrolysis and induction of superoxide generation in human neutrophils. 902 31

The NG2 chondroitin sulfate proteoglycan inhibits neurite outgrowth from neonatal rat cerebellar granule neurons when presented to the neurons as a component of the substrate. To begin to understand the cellular mechanisms by which this inhibition occurs, we investigated the hypothesis that cerebellar granule neurons express cell surface receptors for NG2 and that these receptors are linked to cellular signaling pathways. Here, we show that the NG2 core protein binds specifically and with high affinity to cerebellar granule neurons. Using protein cross-linking techniques and immunoprecipitation, a 280-kDa membrane cell surface protein of granule neurons was identified as an NG2-binding site. Treatment of the neurons with pertussis toxin reversed the growth inhibition, suggesting a role for pertussis toxin-sensitive G proteins in the inhibitory response. Treatment of the neurons with pharmacological agents that increase either intracellular calcium or intracellular cyclic AMP levels partially reversed the growth inhibition induced by NG2. These results suggest that the growth-inhibitory actions of NG2 proteoglycan are due to an interaction with a specific cell surface receptor that is linked, either directly or indirectly, to intracellular second messenger systems.
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PMID:Identification of a neuronal cell surface receptor for a growth inhibitory chondroitin sulfate proteoglycan (NG2). 904 47

Our previous work showed that sphingosine 1-phosphate (Sph-1-P) inhibits the cell motility of mouse melanoma B16/F10, and other types of cells at 10-100 nM concentrations. In the present paper, we have identified and characterized specific cell surface binding sites for Sph-1-P in F10 cells. Sph-1-P immobilized on controlled pore glass beads inhibited the motility of F10 cells, suggesting that Sph-1-P acts on the cells from the outside. Binding assays with [3H]Sph-1-P revealed the presence of specific cell surface binding sites for Sph-1-P in F10 cells. Scatchard analysis demonstrated a single class of binding sites for Sph-1-P. The binding of [3H]Sph-1-P to F10 cells was inhibited by the addition of excess unlabeled Sph-1-P but not other natural sphingolipids. The specific binding was also sensitive to treatment with a protease. Using Sph-1-P-immobilized affinity chromatography, we, for the first time, identified 41-kDa and 79-kDa Sph-1-P binding proteins on the melanoma cell surface, although the 41-kDa protein was less specific to Sph-1-P. We demonstrated that pertussis toxin (PTX) treatment did not abolish the motility inhibition by Sph-1-P, suggesting that no PTX-sensitive G-protein is involved in the signaling. Furthermore, Sph-1-P was found to be specifically released from mouse BALB/3T3 clone A31 cells and F10 cells. Collectively, these results strongly suggest that Sph-1-P regulates melanoma cell motility through an extracellular action by specific binding to cell surface receptor protein(s), which is independent of PTX-sensitive G-protein.
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PMID:Sphingosine 1-phosphate regulates melanoma cell motility through a receptor-coupled extracellular action and in a pertussis toxin-insensitive manner. 927 6

Secretoneurin (SN) is a 33-amino acid peptide derived from secretogranin II (chromogranin C) which induces chemotaxis of monocytes but not neutrophils. In this study, we found that SN interacted with specific cell surface binding sites on human monocytes. The chemoattractants MCP-1, MCP-2 or fMLP could not compete for SN binding sites suggesting SN may bind to a novel chemotactic receptor. Additional studies showed that neither SN nor MCP-2 induced a rise in cytosolic Ca2+, and chemotaxis to SN was inhibited by cholera toxin (CT) and pertussis toxin (PT). Chemotactic desensitization studies demonstrated that fMLP, MCP-1, SN, and MCP-2 could all desensitize monocytes to subsequent SN stimulation. Our results indicate that SN binds to a cell surface receptor expressed on monocytes and activates signaling pathways which are sensitive to CT and PT.
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PMID:Secretoneurin and chemoattractant receptor interactions. 968 29

Trp-Lys-Tyr-Met-Val-D-Met (WKYMVm) is a synthetic peptide that stimulates phosphoinositide (PI) hydrolysis in human leukocytes. The peptide binds to a unique cell surface receptor(s). Recently we had demonstrated that human neutrophils, monocytes, and B lymphocytes express this peptide-specific receptor and that stimulation of human leukocytes with the peptide leads to activation of the oxidative respiratory system and the bactericidal activity of neutrophils or monocytes. In this study we showed that the peptide induces chemotaxis of phagocytic leukocytes and studied the signaling pathway leading to chemotaxis in human monocytes. The peptide-induced monocyte chemotaxis is pertussis toxin (PTX)-sensitive. This fact correlates with the peptide's stimulation of PI hydrolysis and intracellular Ca2+ ([Ca2+]i) release, which is also PTX-sensitive. We demonstrate that the peptide-specific receptor is different from receptor(s) for monocyte chemoattractant protein-1 (MCP-1). We also show that intracellular signaling of WKYMVm leading to monocyte chemotaxis is different from that of MCP-1. The peptide-mediated monocyte chemotaxis is insensitive to protein kinase C (PKC) inhibitor (GF109203X) and butan-1-ol, ruling out PKC and phospholipase D participation in this process. On the other hand, a tyrosine kinase inhibitor (genistein) and RhoA inhibitor (C3 transferase) curtailed the peptide-induced chemotaxis in a concentration-dependent manner, implying the involvement of tyrosine kinase and RhoA, respectively. Treatment of human monocytes with the peptide stimulates tyrosine phosphorylation of several cellular proteins, including p125FAK and Pyk2 and translocation of RhoA from the cytosol to the membrane. We conclude that WKYMVm induces chemotaxis of human phagocytic leukocytes via unique receptors and signaling.
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PMID:Trp-Lys-Tyr-Met-Val-D-Met is a chemoattractant for human phagocytic cells. 1061 72


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