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)

The temperature and ATP dependence of transport of the vesicular stomatitis virus strain ts045 G protein from the endoplasmic reticulum (ER) to an early Golgi compartment containing mannosidase I was studied in the mutant Chinese hamster ovary cell clone 15B. Appearance of G protein containing the Man5GlcNAc2 oligosaccharide species occurred after a shift to the permissive temperature with a lag period of 5 min and without detectable formation of the intermediate Man7GlcNAc2 and Man6GlcNAc2 species. Two biochemically distinct transport steps were detected during transport from the ER to the Golgi. An initial step is temperature sensitive, thermoreversible, and requires a high threshold of cellular ATP for maximal rate of transport (80% of the normal cellular ATP pool). Export from the ER is inhibited at 65% of the normal cellular ATP pool. Prolonged incubation at reduced levels of cellular ATP or at the restrictive temperature resulted in the accumulation of G protein in either the Man8GlcNAc2 species or the Man7GlcNAc2 and Man6GlcNAc2 species, respectively. Reversal of the temperature-sensitive block is ATP coupled. A second step is insensitive to incubation at the restrictive temperature and proceeds efficiently when the cellular ATP pool is reduced to 20% of the control. G protein accumulates at this intermediate step during prolonged incubation at 15 degrees C. The data suggest a functional division of processes required for transport of protein between the ER and Golgi compartments. The two steps may reflect the export (budding) and delivery (fusion) of proteins through vesicular trafficking between the ER and Golgi.
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PMID:ATP-coupled transport of vesicular stomatitis virus G protein between the endoplasmic reticulum and the Golgi. 302 50

The oligosaccharide processing intermediates of the vesicular stomatitis virus strain ts045 G protein were used to identify ATP- and temperature-sensitive steps in the constitutive pathway of protein transfer to the cell surface. In addition to the initial ATP-sensitive step required for export from the endoplasmic reticulum (Balch, W. E., Elliott, M. M., and Keller, D. S. (1986) J. Biol. Chem. 261, 14681-14689), two distinct ATP-sensitive steps functionally dissect the Golgi into at least 3 compartments: a cis compartment containing the trimming enzyme mannosidase I, a medial compartment conferring resistance to endoglycosidase H, and a trans compartment containing terminal glycosyl transferases. A fourth ATP-sensitive step is required for export of G protein from the trans Golgi to the cell surface. A high threshold of cellular ATP (70% of the control) was required for maximal rates of transport between Golgi compartments. Transport between compartments is inhibited at 40% of the normal cellular ATP pool. Only a single temperature-sensitive step localized to the endoplasmic reticulum inhibited transport of ts045 G protein to the cell surface. The data suggest that ATP-sensitive steps punctuate transport of protein between compartmental boundaries of the secretory pathway.
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PMID:ATP-coupled transport of vesicular stomatitis virus G protein. Functional boundaries of secretory compartments. 302 51

We have used defined subcellular fractions to reconstitute in a cell-free system vesicle fusions occurring in the endocytic pathway. The endosomal fractions were prepared by immuno-isolation using as antigen an epitope located on a foreign protein, the transmembrane glycoprotein G (G-protein) of vesicular stomatitis virus. The G-protein was first implanted in the cell plasma membrane and subsequently endocytosed for 15 to 30 min at 37 degrees C. The endosomal fractions were immuno-isolated on a solid support using as antigen the cytoplasmic domain of the G-protein in combination with a specific monoclonal antibody. For comparative studies the plasma membrane was immuno-isolated from cells in the absence of G internalization with a monoclonal antibody against the exoplasmic domain of the G-protein. The immuno-isolated endosomal vesicles contained 70% of horseradish peroxidase internalized in the endosome fluid phase, exhibited an acidic luminal pH as shown by acridine orange fluorescence and differed in their protein composition from the immuno-isolated plasma membrane fraction. The fusion of endocytic vesicles originating from different stages of the pathway was studied in a cell-free assay using both a bio-chemical and a morphological detection system. These well defined endosomal vesicles were immuno-isolated with the G-protein on the solid support and provided the recipient compartment of the fusion (acceptor). They were mixed with a post-nuclear supernatant containing endosomes loaded with exogenous lactoperoxidase (donor) at 37 degrees C. Fusion delivered the donor peroxidase to the lumen of acceptor vesicles permitting fusion-specific iodination of the G-protein itself. The fusion of vesicles required ATP and was detected only with an endosomal fraction prepared after internalization of the G-protein for 15 min at 37 degrees C but not with a plasma membrane or with an endosomal fraction prepared after 30 min G-protein internalization.
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PMID:Reconstitution of vesicle fusions occurring in endocytosis with a cell-free system. 302 71

Transport of the vesicular stomatitis virus-encoded glycoprotein (G protein) between the endoplasmic reticulum (ER) and the cis Golgi compartment has been reconstituted in a cell-free system. Transfer is measured by the processing of the high mannose (man GlcNAc2) ER form of G protein to the man5GlcNAc5 form by the cis Golgi enzyme alpha-mannosidase I. G protein is rapidly and efficiently transported to the Golgi complex by a process resembling that observed in vivo. G protein is trimmed from the high mannose form to the man5GlcNAc2 form without the appearance of the intermediate man GlcNAc2 oligosaccharide species, as is observed in vivo. G protein is found in a sealed membrane-bound compartment before and after incubation. Processing in vitro is sensitive to detergent, and the Golgi alpha-mannosidase I inhibitor 1-deoxymannorjirimycin. Transport between the ER and Golgi complex in vitro requires the addition of a high speed supernatant (cytosol) of cell homogenates, and requires energy in the form of ATP. Efficient reconstitution of export of protein from the ER requires the preparation of homogenates from mitotic cell populations in which the nuclear envelope, ER, and Golgi compartments have been physiologically disassembled before cell homogenization. These results suggest that the high efficiency of transport observed here may require reassembly of functional organelles in vitro.
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PMID:Reconstitution of transport of vesicular stomatitis virus G protein from the endoplasmic reticulum to the Golgi complex using a cell-free system. 302 44

An enzymatic activity associated with intracellular membrane fractions of Merwin plasma cell tumor II, baby hamster kidney, and chicken embryo fibroblast cells and bovine kidney has been characterized which covalently links fatty acids onto the G protein of vesicular stomatitis virus. Exogenous G protein extracted from native vesicular stomatitis virus particles can be acylated in vitro only after it has been previously deacylated. The fatty acids transferred in vitro are sensitive to treatment with hydroxylamine, indicating an ester linkage. Cell-free acyl transfer was also observed with endogenous G protein present in membrane fractions prepared from vesicular stomatitis virus-infected cells. In this case, the fatty acids become linked to a G protein species (G1) which is not terminally glycosylated and therefore has not entered the trans-Golgi compartment. The same G protein species also becomes acylated in infected cells during short pulses with radioactive palmitic acid. Acylation of the G protein in vitro with free palmitic or myristic acid is energy-dependent, and the addition of ATP is specifically required. Other nucleoside triphosphates cannot substitute for ATP in the activation of free acyl chains. Alternatively, activated fatty acids linked in a high energy thioester bond to coenzyme A, e.g. [14C] palmitoyl-CoA, are suitable lipid donors in the in vitro acylation reactions. Palmitic acid transfer onto G protein shows the typical characteristics of an enzyme-catalyzed reaction.
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PMID:Cell-free fatty acylation of microsomal integrated and detergent-solubilized glycoprotein of vesicular stomatitis virus. 303 Oct 69

The purified RNA polymerase complex of vesicular stomatitis virus required added thiols for maximal activity, whereas polymerase activity from whole disrupted virions did not. Maximal activity of the purified polymerase complex required greater than or equal to 1 mM added dithiothreitol. The polymerase was inactivated by N-ethylmaleimide (NEM) at 0 degree C, with k2 = 528 +/- 26 M-1 min-1. Activity was recovered by addition of L protein, but not N or NS, to the NEM-inactivated complex, indicating that the NEM-sensitive group was present on the L protein. Nucleoside triphosphates protected the enzyme against inactivation by N-ethylmaleimide. ATP was most effective, with KD = 0.58 +/- 0.07 mM, a value close to the Km of ATP reported previously for initiation of RNA synthesis. dATP was nearly as effective, and GTP was slightly less effective than ATP. Non-hydrolyzable analogs of ATP protected weakly, whereas ADP and pyrimidine triphosphates gave very poor, but still measurable, protection. The ATP binding site thus identified differs from the protein kinase-associated ATP binding site identified on L protein by Sanchez et al. (Sanchez, A., De, B.P., and Banerjee, A. K. (1985) J. Gen. Virol. 66, 1025-1036) in having a substantially lower affinity for ATP. Two putative ATP binding sites were identified in the L protein amino acid sequence, but none were found in the N or NS sequences.
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PMID:Inactivation of the RNA polymerase of vesicular stomatitis virus by N-ethylmaleimide and protection by nucleoside triphosphates. Evidence for a second ATP binding site on L protein. 303 24

We introduce a new method that removes portions of the plasma membrane of eukaryotic cells to form semi-intact cells. During preparation, these cells lose their soluble cytoplasmic contents, but retain secretory organelles such as the ER and Golgi complex in an intact form. Transport of protein between the ER and Golgi can be functionally reconstituted in vitro using these semi-intact cells by incubation in the presence of cytosol and ATP. Export of the vesicular stomatitis virus strain tsO45 G protein from the ER in vitro is temperature-sensitive, similar to the result observed in vivo. These cells allow direct access of chemicals and antibodies to the cytoplasmic domain of the cell and may be a widely applicable model system for study of a broad range of problems in cell biology.
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PMID:Semi-intact cells permeable to macromolecules: use in reconstitution of protein transport from the endoplasmic reticulum to the Golgi complex. 303 35

Terminal steps in the transport of the vesicular stomatitis virus glycoprotein (G protein) in the Golgi stack have been reconstituted in a cell-free system. Incorporation of sialic acid into the oligosaccharide chains of G protein was used to monitor transport into the trans Golgi compartment. Transport-coupled sialylation required cytosol, ATP, an N-ethylmaleimide-sensitive factor extractable from Golgi membranes, and long chain acyl coenzyme A. The G protein receiving sialic acid in the cell-free system begins its in vitro transport bearing galactose residues acquired in vivo. Earlier reports (Balch, W. E., Dunphy, W. G., Braell, W. A., and Rothman, J. E. (1984a) Cell 39, 405-416) documented that transport of G protein into the medial (GlcNAc Transferase-containing) compartment is reconstituted under the same conditions. On the basis of the results reported here, it now appears that a more complete set of transport operations of the Golgi stack may be simultaneously reconstituted.
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PMID:Transport of the vesicular stomatitis glycoprotein to trans Golgi membranes in a cell-free system. 304 Jul 52

Mechanically perforated MDCK cells were used to study membrane transport between the trans-Golgi network and the apical and basolateral plasma membrane domains in vitro. Three membrane transport markers--an apical protein (fowl plague virus haemagglutinin), a basolateral protein (vesicular stomatitis virus G protein), and a lipid marker destined for both domains (C6-NBD-sphingomyelin)--were each accumulated in the trans-Golgi by a 20 degrees C block of transport and their behaviour monitored following cell perforation and incubation at 37 degrees C. In the presence of ATP and in the absence of calcium ions a considerable fraction of the transport markers were released from the perforated cells in sealed membrane vesicles. Control experiments showed that the vesicles were not generated by non-specific vesiculation of the Golgi complex or the plasma membrane. The vesicles had well defined sedimentation properties and the orientation expected of transport vesicles derived from the trans-Golgi network.
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PMID:Release of putative exocytic transport vesicles from perforated MDCK cells. 324 73

The influence of low extracellular pH on endocytosis was studied in baby hamster kidney cells. When the extracellular medium was adjusted to pH 5.7, the intracellular pH decreased within 2 min to pH 6.2 and the endocytosis of horseradish peroxidase (HRP) in the fluid phase dropped to an undetectable level. With an external pH of 6.3, the internal pH dropped to pH 6.8 and HRP was internalized at a normal rate for 5 min but accumulation during longer incubation times did not occur. Morphologically, HRP was visualized in the lumen of a subpopulation of tubular and vesicular endosomes. These observations were confirmed by subcellular fractionation studies using free flow electrophoresis. Low extracellular pH also had an effect on the endocytosis of the membrane-spanning glycoprotein G of vesicular stomatitis virus which was implanted into the plasma membrane. The internalization of G-protein was quantitated by a surface fluoroimmunoassay. The endocytosis of G-protein was not affected when the external pH was dropped to 6.3, but was reduced at an external pH of 5.7. The intracellular ATP was not depleted and the reduction of endocytosis was reversible upon return to physiological pH. Clathrin coated pits were detected by electron microscopy at the plasma membrane of the low-pH-treated cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two threshold values of low pH block endocytosis at different stages. 342 67


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