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:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transport of the vesicular stomatitis virus (VSV)-encoded glycoprotein (G protein) between successive compartments of the Golgi in a cell-free system is measured by the coupled incorporation of N-[3H]acetylglucosamine (GlcNAc). This glycosylation occurs when G protein is transported from a "donor" compartment in Golgi membranes that lack GlcNAc transferase I (from VSV-infected CHO clone 15B cells) to the next "acceptor" compartment in a Golgi population from wild-type CHO cells (containing the GlcNAc transferase but not G protein). Here we present a detailed characterization of the conditions required to achieve transport in vitro. We find that donor and acceptor activities differ markedly in certain of their properties. The donor activity is inhibited by N-ethylmaleimide but the acceptor activity is resistant. Donor activity is unstable in the absence of ATP or the cytosol fraction; acceptor activity is much more stable. This asymmetry may reflect the vectorial nature of the underlying biochemistry of protein transport. Both donor and acceptor are trypsin-sensitive, implying a need for cytoplasmically oriented membrane proteins. Transport occurs only in a restricted range of close to physiological conditions. ATP is absolutely required, although as little as 1 microM is sufficient. Transport is inhibited by ATP-gamma-sulfate and vanadate, suggesting that ATP hydrolysis is needed. By contrast, ionophores that dissipate membrane potentials and proton gradients do not inhibit transport. Monensin was also without effect in the cell-free system.
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PMID:Characterization of protein transport between successive compartments of the Golgi apparatus: asymmetric properties of donor and acceptor activities in a cell-free system. 299 Mar 47

We compared the effects of the cationic ionophore, monensin, on the synthesis, maturation and release of vesicular stomatitis virus (VSV) in cultures of Chinese hamster ovary (CHO) cells and the monensin-resistant clone, MonR-31. Our results depended on the dose and time of the addition of monensin to the infected cells, from 1 h prior to VSV infection to 1 h after infection. VSV production was more resistant in MonR-31 than in CHO cells when the ionophore was added 1 h prior to VSV infection. Monensin added 1 h after VSV infection showed the opposite phenomenon; release of virus particles into the medium was 10- to 10(5)-fold less in MonR-31 cells than in CHO cells, and the intracellular virus number in the resistant cells was one-third to one-fourth of that in the parental CHO cells. Syntheses of all virus-associated G, N and M proteins were inhibited in both cell lines by monensin, but especially so in the MonR-31 cells. There were no marked qualitative changes in the biochemical properties of viral glycoprotein G in virus-infected CHO and MonR-31 cells treated with monensin after virus infection. An endoglycosidase H-resistant G with a molecular weight smaller than that of normal G and attachments of palmitate or fucose on the truncated G protein appeared. Alteration of the secretion of as well as the synthesis of the enveloped virus is discussed in relation to the monensin susceptibility of the resistant MonR-31 clone.
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PMID:Effect of monensin on the synthesis, maturation and secretion of vesicular stomatitis virus proteins in a monensin-resistant Chinese hamster ovary cell line. 299 91

Receptor-bound alpha 2-macroglobulin (alpha 2M) undergoes a two-step process in its internalization by cultured fibroblasts. First, the receptor- alpha 2M complexes concentrate in coated pits on the cell surface. Second, the alpha 2M is internalized into endocytic vesicles we have termed receptosomes. Using a variety of monovalent ionophores and inhibitors of ATP synthesis, the present report provides data that discriminates between these two steps. Appearance of alpha 2M-receptor complexes in coated pits occurs at 4 degrees C and is inhibited by primary amines as well as some other drugs and chemical reagents [1, 2]. Internalization of alpha 2M-receptor complexes into receptosomes is inhibited by monovalent ionophores that disrupt proton gradients (monensin, nigericin, carbonyl cyanide p-trifluoromethoxyphenyl hydrazone, and 3,3',4',5-tetrachlorosalicyanilide), but not the Na+ specific ionophore antamanide or the K+ specific ionophore valinomycin. Using electron microscopy, the proton ionophores appear to interfere with the transfer of alpha 2M from coated pits to receptosomes. Prolonged incubation with monensin in the presence of alpha 2M also decreases the number of alpha 2M receptors on the cell surface, but this did not appear sufficient to account for the extensive inhibition of internalization. Monensin also inhibited the internalization of vesicular stomatitis virus and epidermal growth factor (EGF). Our data suggest that a proton gradient may be necessary for receptor-mediated endocytosis of alpha 2M and some other ligands.
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PMID:Binding and internalization of alpha 2-microglobulin by cultured fibroblasts. Effects of monovalent ionophores. 618 34

We have observed a striking differential effect of the ionophore, monensin, on replication of influenza virus and vesicular stomatitis virus (VSV) in Madin-Darby canine kidney (MDCK) and baby hamster kidney (BHK21) cells. In MDCK cells, influenza virus is assembled at the apical surfaces, whereas VSV particles bud from the basolateral membranes; no such polarity of maturation is exhibited in BHK21 cells. A 10(-6) M concentration of monensin reduces VSV yields in MDCK cells by greater than 90% as compared with controls, whereas influenza virus yields are unaffected. In BHK21 cells, monensin also inhibits VSV production, but influenza virus is also sensitive to the ionophore. Immunofluorescent staining of fixed and unfixed MDCK monolayers indicates that VSV glycoproteins are synthesized in the presence of monensin, but their appearance on the plasma membrane is blocked. Electron micrographs of VSV-infected MDCK cells treated with monensin show VSV particles aggregated within dilated cytoplasmic vesicles. Monensin-treated influenza virus-infected MDCK cells also contain dilated cytoplasmic vesicles, but virus particles were not found in these structures, and numerous influenza virions were observed budding at the cell surface. These results indicate that influenza virus glycoprotein transport is not blocked by monensin treatment, whereas there is a block in transport of VSV G protein. Thus it appears that at least two distinct pathways of transport of glycoproteins to the plasma membrane exist in MDCK cells, and only one of them is blocked by monensin.
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PMID:Differential effect of monensin on enveloped viruses that form at distinct plasma membrane domains. 626 71

We compared the trafficking of the glycosylphosphatidylinositol (GPI)-anchored placental alkaline phosphatase (PLAP) and two chimeric transmembrane proteins containing the PLAP ectodomain in stably transfected Madin-Darby canine kidney epithelial cells to determine whether different mechanisms might be used in apical sorting of GPI-anchored and transmembrane proteins. PLAP-G, which contained the transmembrane and cytoplasmic domains of the vesicular stomatitis virus glycoprotein, was delivered directly to the basolateral surface. PLAP-HA contained the transmembrane and cytoplasmic domains of influenza hemagglutinin. Both PLAP and PLAP-HA were delivered directly to the apical membrane. PLAP becomes insoluble in Triton X-100 during biosynthetic transport, as it associates with detergent-resistant membranes. Neither hybrid protein was detergent insoluble, though the small amount of PLAP that was missorted to the basolateral surface was insoluble. We examined the effects of three drugs known to interfere with membrane trafficking on sorting and delivery of PLAP and the hybrid proteins. Monensin had no effect on sorting or surface expression of any of the proteins. Nocodazole affected the sorting of both PLAP and PLAP-HA but not of PLAP-G. Brefeldin A appeared to disrupt the sorting of PLAP and PLAP-HA but not of PLAP-G. This conclusion was tempered by the observation that this drug affected the distribution of proteins at the cell surface. Thus, sorting and transport of GPI-anchored and apical transmembrane proteins are similar in a number of respects.
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PMID:Sorting and intracellular trafficking of a glycosylphosphatidylinositol-anchored protein and two hybrid transmembrane proteins with the same ectodomain in Madin-Darby canine kidney epithelial cells. 755 31

Monensin is a ionophore compound with different biological activities. It raises the intralysosomal pH, it binds the plasma membranes particularly at the level of the cisternal system of the Golgi apparatus. It causes imbalance in the intramembrane ion traffic and inhibits export of secretory proteins at membrane level. Monensin blocks endocytosis and therefore impedes entry of toxic molecules. The drug also inhibits viral proliferation of RNA and DNA viruses such as vesicular stomatitis, influenza and human polyomaviruses. In this report we show that monensin effectively abolishes viral DNA replication of mouse polyomavirus. Results show that the half life of viral early mRNAs is significantly reduced in the presence of the drug. Therefore we suggest that the reduction of viral DNA synthesis is a consequence of the reduced intranuclear pool of viral early antigens.
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PMID:The ionophore monensin inhibits mouse polyomavirus DNA replication and destabilizes viral early mRNAs. 1071 85

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