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Query: UMLS:C0344329 (
collapse
)
28,634
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Brefeldin A
(BFA) has been shown in in vitro studies to either
collapse
the Golgi into the endoplasmic reticulum (ER) or the peripheral organelles into the trans-Golgi network. Our goal was to determine the effect of BFA on intestinal lipid transport, since the Golgi is thought to play an important role in this process and simultaneously establish the effectiveness of BFA in an in vivo system. We infused rats intraduodenally with glyceryl tri-[3H]oleate at 135 mumol/h for 15 h and included BFA, 750 micrograms/h, during hours 4-7 of infusion. Mass and lipid disintegrations per minute output into the lymph fell to 9% of input rates at 8 h of infusion and returned to steady-state values at 12 h of infusion. Both chylomicron and very low-density lipoprotein output were severely affected by the BFA. Electron microscopy showed that the Golgi was collapsed into the ER. Mucosal triacylglycerol (TG) mass and disintegrations per minute were increased at 7 h of infusion in BFA infused rats vs. controls in the proximal half of the intestine. Lipid absorption, lipase activity, and mucosal TG synthesis were normal in the BFA-treated rats. We conclude that BFA works in vivo and in the intestine collapses the Golgi into the ER. As a consequence, lymphatic TG transport was severely affected.
...
PMID:Effect of brefeldin A on lymphatic triacylglycerol transport in the rat. 814 3
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.
...
PMID:Evidence that syntaxin 1A is involved in storage in the secretory pathway. 862 70
Prosomatostatin, the precursor of the hormone somatostatin, harbors an N-glycosylation site in its prodomain that has never been shown to be modified by the N-oligosaccharyl transferase (OST) of the endoplasmic reticulum (ER). The addition of
Brefeldin A
(BFA) to prosomatostatin transfected AtT20 cells leads to a quantitative glycosylation of the prohormone. Upon removal of the BFA the glycosylated hormone precursor is not deglycosylated, and is secreted after maturation of its oligosaccharide chain in the late secretory pathway. In addition, a significant proportion of the glycosylated hormone precursor remains in the cell. Since BFA is known to induce an effective
collapse
of the Golgi complex into the ER, the hypothesis that a prolonged exposure to the ER glycosylation machinery is responsible for the glycosylation was tested. No N-glycosylation was detected using a coupled in vitro transcription-translation system in the presence of canine pancreatic microsomes, indicating that rapid transit through the ER does not explain the lack of glycosylation observed in vivo in the absence of BFA. These observations show that co-translational glycosylation by OST becomes possible due to a still unidentified modification in the luminal environment brought about by the coalescence of the Golgi into the ER caused by BFA.
...
PMID:Brefeldin A-induced prosomatostatin N-glycosylation in AtT20 cells. 1217 26
A phenotypic screen was used to search for drug-like molecules that can interfere with specific steps in membrane traffic. 2-(4-Fluorobenzoylamino)-benzoic acid methyl ester (Exo1), identified in this screen, induces a rapid
collapse
of the Golgi to the endoplasmic reticulum, thus acutely inhibiting the traffic emanating from the endoplasmic reticulum. Like
Brefeldin A
(BFA), Exo1 induces the rapid release of ADP-ribosylation factor (ARF) 1 from Golgi membranes but has less effect on the organization of the trans-Golgi network. Our data indicate that Exo1 acts by a different mechanism from BFA. Unlike BFA, Exo1 does not induce the ADP-ribosylation of CtBP/Bars50 and does not interfere with the activity of guanine nucleotide exchange factors specific for Golgi-based ARFs. Thus, Exo1 allows the fatty acid exchange activity of Bars50 to be distinguished from ARF1 activity in the control of Golgi tubulation.
...
PMID:Exo1: a new chemical inhibitor of the exocytic pathway. 1273 86
The organization and sorting of proteins within the Golgi stack to establish and maintain its cis to trans polarization remains an enigma. The function of Golgi compartments involves coat assemblages that facilitate vesicle traffic, Rab-tether-SNAP receptor (SNARE) machineries that dictate membrane identity, as well as matrix components that maintain structure. We have investigated how the Golgi complex achieves compartmentalization in response to a key component of the coat complex I (COPI) coat assembly pathway, the ARF1 GTPase, in relationship to GTPases-regulating endoplasmic reticulum (ER) exit (Sar1) and targeting fusion (Rab1). Following
collapse
of the Golgi into the ER in response to inhibition of activation of ARF1 by
Brefeldin A
, we found that Sar1- and Rab1-dependent Golgi reformation took place at multiple peripheral and perinuclear ER exit sites. These rapidly converged into immature Golgi that appeared as onion-like structures composed of multiple concentrically arrayed cisternae of mixed enzyme composition. During clustering to the perinuclear region, Golgi enzymes were sorted to achieve the degree of polarization within the stack found in mature Golgi. Surprisingly, we found that sorting of Golgi enzymes into their subcompartments was insensitive to the dominant negative GTP-restricted ARF1 mutant, a potent inhibitor of COPI coat disassembly and vesicular traffic. We suggest that a COPI-independent, Rab-dependent mechanism is involved in the rapid reorganization of resident enzymes within the Golgi stack following synchronized release from the ER, suggesting an important role for Rab hubs in directing Golgi polarization.
...
PMID:The role of ARF1 and rab GTPases in polarization of the Golgi stack. 1610 83
Genetic lesions in glioblastoma (GB) include constitutive activation of PI3K and EGFR pathways to drive cellular proliferation and tumor malignancy. An RNAi genetic screen, performed in Drosophila melanogaster to discover new modulators of GB development, identified a member of the secretory pathway: kish/TMEM167A. Downregulation of kish/TMEM167A impaired fly and human glioma formation and growth, with no effect on normal glia. Glioma cells increased the number of recycling endosomes, and reduced the number of lysosomes. In addition, EGFR vesicular localization was primed toward recycling in glioma cells. kish/TMEM167A downregulation in gliomas restored endosomal system to a physiological state and altered lysosomal function, fueling EGFR toward degradation by the proteasome. These endosomal effects mirrored the endo/lysosomal response of glioma cells to
Brefeldin A
(BFA), but not the Golgi disruption and the ER
collapse
, which are associated with the undesirable toxicity of BFA in other cancers. Our results suggest that glioma growth depends on modifications of the vesicle transport system, reliant on kish/TMEM167A. Noncanonical genes in GB could be a key for future therapeutic strategies targeting EGFR-dependent gliomas.
...
PMID:Oncogenic dependence of glioma cells on kish/TMEM167A regulation of vesicular trafficking. 3050 43
