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)

Brefeldin A is a macrolide antibiotic that interferes with membrane traffic and blocks the growth of several animal viruses including vesicular stomatitis virus (VSV). The inhibition of VSV by brefeldin A takes place at least at two different steps during the growth cycle: the glycosylation of VSV G protein and the replication of viral genomes. Our results indicate that interference with membrane traffic leads not only to inhibition of viral protein glycosylation, but also to the blockade of virus genome replication in several cytoplasmic RNA-containing viruses.
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PMID:Brefeldin A blocks protein glycosylation and RNA replication of vesicular stomatitis virus. 828 18

Syntaxin 1A is a nervous system-specific protein thought to function during the late steps of the regulated secretory pathway by mediating the docking of secretory vesicles with the plasma membrane. We have examined the effects of transiently overexpressing syntaxin 1A on protein secretion in constitutively secreting cell lines that do not normally express the protein. Syntaxin 1A showed the constitutive release of marker proteins human growth hormone (hGH) and vesicular stomatitis virus glycoprotein from COS-1 cells, increasing the intracellular half-life of human growth hormone from 90 min to 18 h. A similar effect was observed in HEK 293 cells. Immunofluorescence microscopy revealed that these secretory proteins were concentrated in the periphery of the cell. The effect was specific for the full-length neuronal protein. Neither a syntaxin 1A variant which lacks a membrane attachment domain nor syntaxin 2 caused the cells to retain human growth hormone. The effect of syntaxin 1A was partially reversed by incubating the cells with botulinum type C1 neurotoxin, which specifically cleaves syntaxin 1A. Release of human growth hormone from syntaxin 1A-expressing cells was maintained during a blockade of protein synthesis, suggesting that the hormone was being released from a pool of stored vesicles which accumulated before the addition of cycloheximide. The existence of a post-Golgi storage compartment in syntaxin 1A-expressing cells was confirmed using brefeldin A to collapse the Golgi stacks in both HEK 293 and COS-1 cells. Brefeldin A rapidly blocked growth hormone release in control cultures while having no effect on release in cells expressing syntaxin 1A. Reducing the temperature to 19 degrees C, which inhibits transport from the trans-Golgi network, also inhibited hGH secretion from cells without syntaxin 1A but had little effect on hGH secretion from cells with syntaxin 1A. The present experiments indicate that syntaxin 1A enables the storage of vesicles which would otherwise be immediately released.
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PMID:Evidence that syntaxin 1A is involved in storage in the secretory pathway. 862 70

The strain BAFC 2336 of Curvularia pallescens is a hyphomycete isolated from internal fungi present in leaves and stems of Baccharis coridifolia. Three compounds designated B, D1 and D2 which inhibited the replication of vesicular stomatitis virus (VSV) and herpes simplex virus type 1 (HSV-1) in tissue cultures were isolated from fluid cultures of Curvularia pallescens. The purification procedure of the compounds consisted first in an organic solvent extraction followed by chromatography through a silica gel column. Fractions eluted from the column with antiviral activity were pooled and then subjected to thin layer chromatography (TLC) in silica gel plates. Three isolated bands were recognized with Rf of 0.63, 0.36 y 0.33 for B, D1 and D2, respectively. The chromatographic characteristics of the isolated metabolites were determined by TLC and HPLC and their chemical structure by means of spectroscopic methods. Analysis of the data obtained indicated that compound D2 (MW: 280 Da) is identical with Brefeldin A a macrolide with antiviral activity isolated from other fungi but not reported to be present in Curvularia pallescens. Compound D1 is similar in structure to compound D2; however, the low amount obtained after purification unabled us to obtain complete structural characterization. Compound B (MW: 332 Da) has an aromatic ring and a chemical structure related to curvularins, a generic name for certain metabolites from Curvularia. This compound appears to be a novel compound with antiviral potency similar to Brefeldin A, but less toxic.
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PMID:[Antiviral activity metabolites isolated from Curvularia pallescens]. 1061 82

We have analysed protein trafficking during the differentiation of rat L6 myoblasts into myotubes. Different proteins were found to lose different amounts of their processing by the Golgi apparatus during the myogenic differentiation, indicating that they were transported to this organelle with differing efficiencies. In order to investigate the destination of the nonprocessed glycoproteins we analysed the behaviour of vesicular stomatitis virus (VSV) and Semliki Forest virus glycoproteins in the presence of Brefeldin A, which returns the enzymes of the Golgi apparatus to the ER. Such experiments indicated that during myogenesis a fraction of both glycoproteins was shunted into a compartment that did not participate recycling with the Golgi apparatus. Immunofluorescence studies with the mutant VSV tsO45 G protein suggested that this compartment was diffusively distributed. We investigated whether the cytoplasmic tail had a role in the myogenic transport modulation by analysing the behaviour of recombinant VSV G proteins. Exchanging the cytoplasmic tail or the tail plus the membrane anchor had no effect, suggesting that the luminal portion was responsible for the diverted transport. Taken together, the results suggest that during the myogenesis of L6 myoblasts, varying fractions of different viral glycoproteins were sorted from the ER into a specific compartment that did not recycle with the Golgi apparatus.
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PMID:Retargeting of viral glycoproteins into a non-exporting compartment during the myogenic differentiation of rat L6 cells. 1210 31

The role of dynamin and so-called accessory proteins in endocytosis is well established. However, molecular details of the function(s) of dynamin II at the Golgi are largely unclear. We demonstrate that the ubiquitously expressed syndapin II isoform interacts with the proline-rich domain (PRD) of dynamin II through its Src-homology 3 (SH3) domain. Co-immunoprecipitation of endogenous syndapin II and dynamin II, and successful reconstitutions of such complexes at membranes in COS-7 cells, show the in vivo relevance of the interaction. Syndapin II can associate with Golgi membranes and this association increases upon Golgi exit block. Brefeldin A treatment clearly shows that the observed perinuclear localization of syndapin II co-localizing with syntaxin 6 reflects the Golgi complex and that it requires functional integrity of the Golgi. Syndapins are crucial for Golgi vesicle formation because anti-syndapin antibodies, used either in in vitro reconstitutions or in living cells, inhibited this process. Both types of assays additionally revealed the essential role of syndapin II SH3 interactions with the dynamin II PRD in vesicle formation. An excess of the syndapin SH3 domain strongly inhibited budding from Golgi membranes in vitro. Likewise, overexpression of the syndapin SH3 domain or of a dynamin II variant incapable of associating with syndapin II (dynamin IIDeltaPRD) impaired trafficking of vesicular stomatitis virus glycoprotein (VSVG)-GFP in vivo. By contrast, full-length syndapin II-l had no negative effect, and instead promoted VSVG-GFP export from the Golgi. Importantly, a cytosolic fraction containing endogenous syndapin-dynamin complexes was sufficient to promote vesicle formation from Golgi membranes in a syndapin-dependent manner. Thus, syndapin-dynamin complexes are crucial and sufficient to promote vesicle formation from the trans-Golgi network.
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PMID:Complexes of syndapin II with dynamin II promote vesicle formation at the trans-Golgi network. 1655 95

Glutamate transporter associated protein 3-18 (GTRAP3-18) is an endoplasmic reticulum (ER)-localized protein belonging to the prenylated rab-acceptor-family interacting with small Rab GTPases, which regulate intracellular trafficking events. Its impact on secretory trafficking has not been investigated. We report here that GTRAP3-18 has an inhibitory effect on Rab1, which is involved in ER-to-Golg trafficking. The effects on the early secretory pathway in HEK293 cells were: reduction of the rate of ER-to-Golgi transport of the vesicular stomatitis virus glycoprotein (VSVG), slowed accumulation of a Golgi marker plasmid in pre-Golgi structures after Brefeldin A treatment and inhibition of cargo concentration of the neuronal glutamate transporter excitatory amino-acid carrier 1 (EAAC1) into transpor complexes in HEK293 cells, an effect that could be completely reversed in the presence of an excess of Rab1. In accordance with the known role of Rab1 in neurite formation, overexpression of GTRAP3-18 significantly inhibited the length of outgrowing neurites in differentiated CAD cells. The inhibitory effect of GTRAP3-18 on neurite growth was rescued by co-expression with Rab1, supporting the conclusion that GTRAP 3-18 acted by inhibiting Rab1 action. Finally, we hypothesized that expression of GTRAP3-18 in the brain shoul be lower at stages of active synaptogenesis compared to early developmental stages. This was the case as expression of GTRAP3-18 declined from E17 to P0 and adult rat brains. Thus, we propose a model where protein trafficking and neuronal differentiation are directly linked by the interaction of Rab1 and its regulator GTRAP3-18.
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PMID:GTRAP3-18 serves as a negative regulator of Rab1 in protein transport and neuronal differentiation. 1836 36

Signal-transducing adaptor molecules (STAMs) are involved in growth factor and cytokine signaling as well as receptor degradation, and they form complexes with a number of endocytic proteins, including Hrs and Eps15. In this study, we demonstrate that STAM proteins also localize prominently to early exocytic compartments and profoundly regulate Golgi morphology. Upon STAM overexpression in cells, the Golgi apparatus becomes extensively fragmented and dispersed, but when STAMs are depleted, the Golgi becomes highly condensed. Under both scenarios, vesicular stomatitis virus G protein-green fluorescent protein trafficking to the plasma membrane is markedly inhibited, and recovery of Golgi morphology after Brefeldin A treatment is substantially impaired in STAM-depleted cells. Furthermore, STAM proteins interact with coat protein II (COPII) proteins, probably at endoplasmic reticulum (ER) exit sites, and Sar1 activity is required to maintain the localization of STAMs at discrete sites. Thus, in addition to their roles in signaling and endocytosis, STAMs function prominently in ER-to-Golgi trafficking, most likely through direct interactions with the COPII complex.
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PMID:STAM adaptor proteins interact with COPII complexes and function in ER-to-Golgi trafficking. 1905 91

Cortactin is a branched actin regulator and tumor-overexpressed protein that promotes vesicular trafficking at a variety of cellular sites, including endosomes and the trans-Golgi network. To better understand its role in secretory trafficking, we investigated its function in Golgi homeostasis. Here, we report that knockdown (KD) of cortactin leads to a dramatic change in Golgi morphology by light microscopy, dependent on binding the Arp2/3 actin-nucleating complex. Surprisingly, there was little effect of cortactin-KD on anterograde trafficking of the constitutive cargo vesicular stomatitis virus glycoprotein (VSVG), Golgi assembly from endoplasmic reticulum membranes upon Brefeldin A washout, or Golgi ultrastructure. Instead, electron microscopy studies revealed that cortactin-KD cells contained a large number of immature-appearing late endosomal/lysosomal (LE/Lys) hybrid organelles, similar to those found in lysosomal storage diseases. Consistent with a defect in LE/Lys trafficking, cortactin-KD cells also exhibited accumulation of free cholesterol and retention of the retrograde Golgi cargo mannose-6-phosphate receptor in LE. Inhibition of LE maturation by treatment of control cells with Rab7 siRNA or chloroquine led to a compact Golgi morphology similar to that observed in cortactin-KD cells. Furthermore, the Golgi morphology defects of cortactin-KD cells could be rescued by removal of cholesterol-containing lipids from the media, suggesting that buildup of cholesterol-rich membranes in immature LE/Lys induced disturbances in retrograde trafficking. Taken together, these data reveal that LE/Lys maturation and trafficking are highly sensitive to cortactin-regulated branched actin assembly and suggests that cytoskeletal-induced Golgi morphology changes can be a consequence of altered trafficking at late endosomes.
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PMID:Regulation of late endosomal/lysosomal maturation and trafficking by cortactin affects Golgi morphology. 2299 Dec


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