Your search keyword '"Golgi apparatus -- Physiological aspects"' showing total 150 results

1. New Findings Reported from Slovak Academy of Sciences Describe Advances in Glycoside Hydrolases (1,4-dideoxy-1,4-imino-d- and L-lyxitol-based Inhibitors Bind To Golgi Alpha-mannosidase Ii In Different Protonation Forms)

Subjects

Physiological aspects, Golgi apparatus -- Physiological aspects

Abstract

2022 DEC 6 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators discuss new findings in Enzymes and Coenzymes - Glycoside Hydrolases. According to news [...]

Published

2022

2. Vps1, a recycling factor for the traffic from early endosome to the late Golgi

Author

Lukehart, Joshua, Highfill, Chad, and Kim, Kyoungtae

Subjects

Physiological aspects, Cell membranes -- Physiological aspects, Golgi apparatus -- Physiological aspects, Cytological research, Muscle proteins -- Physiological aspects, Cell research

Abstract

Introduction Mammalian dynamin is a large GTPase involved in receptor-mediated endocytosis and intracellular trafficking from endosomes to the late Golgi (Damke et al. 1994; Herskovits et al. 1993; Llorente et [...], Recycling of cellular membranes and their constituents plays a role for cell survival and growth. In the budding yeast, there are recycling traffics from early and late endosomal compartments to the late Golgi. Here, we examined a possible role for Vps1, a large GTPase, in the recycling traffic of GFP-Snc1 from early endosomes to the late Golgi. In the absence of Vps1 we observed an aberrant accumulation of GFP-Snc1 puncta in the cytoplasm that we identified as early endosomes. The N-terminal GTPase and the C-terminal GED domains of Vps1 are essential for Vps1's function in Snc1 recycling. Our finding of genetic interactions of VPS1 with genes involved in early endosome-to-Golgi traffic further suggests Vps1 functions as a recycling factor in the membrane traffic. Finally, we provide evidence that the severe accumulation of GFP-Snc1 cytoplasmic puncta in Vps1Δ cells is attributed to a mild defect in the retention of the GARP component Vps51 at the late Golgi, as well as a severe disruption of actin cables. Key words: Vps1, Snc1, recycling, early-endosome, GARP. Le recyclage des membranes cellulaires et de leurs constituantes joue un role dans la survie et la croissance des cellules. Chez la levure a bourgeonnement, il existe un trafic de recyclage a partir des endosomes precoces et tardifs vers le Golgi tardif. Nous avons examine ici le role possible de Vps1, une grande GTPase, dans le trafic de recyclage de GFP-Snc1 des endosomes precoces vers le Golgi tardif. En absence de Vps1, nous avons observe une accumulation anormale d'amas de GFP-Snc1 dans le cytoplasme, que nous avons identifies comme endosomes precoces. Le domaine GTPase situe en N-terminal et le domaine effecteur (GED) situe en C-terminal de Vps1 sont essentiels a la fonction de Vps1 dans le recyclage de Snc1. Les resultats des interactions genetiques de VPS1 avec des genes impliques dans le trafic de l'endosome precoce vers le Golgi suggerent en outre que Vps1 agit comme facteur de recyclage dans le trafic membranaire. Finalement, nous apportons une preuve que l'accumulation importante de GFP-Snc1 dans les petits amas cytoplasmiques chez les cellules vps1Δ est attribuable a un leger defaut de retention de la composante GARP de Pvs51 dans le Golgi tardif, de meme qu'a une dissociation importante des fibres d'actine. [Traduit par la Redaction] Mots-cles: Vps1, Snc1, recyclage, endosome precoce, GARP.

Published

2013

3. Unique characteristics of [Ca.sup.2+] homeostasis of the trans-Golgi compartment

Author

Lissandron, Valentina, Podini, Paola, Pizzo, Paola, and Pozzan, Tullio

Subjects

Calcium ions -- Physiological aspects, Calcium ions -- Research, Golgi apparatus -- Physiological aspects, Golgi apparatus -- Properties, Golgi apparatus -- Research, Homeostasis -- Research, Science and technology

Abstract

Taking advantage of a fluorescent [Ca.sup.2+] indicator selectively targeted to the trans-Golgi lumen, we here demonstrate that its [Ca.sup.2+] homeostatic mechanisms are distinct from those of the other Golgi subcompartments- (i) [Ca.sup.2+] uptake depends exclusively on the activity of the secretory pathway [Ca.sup.2+] ATPase1 (SPCA1), whereas the sarco-endoplasmic reticulum [Ca.sup.2+] ATPase (SERCA) is excluded; (ii) [IP.sub.3] generated by receptor stimulation causes [Ca.sup.2+] uptake rather than release; (iii) [Ca.sup.2+] release can be triggered by activation of ryanodine receptors in cells endowed with robust expression of the latter channels (e.g., in neonatal cardiac myocyte). Finally, we show that, knocking down the SPCA1, and thus altering the trans-Golgi [Ca.sup.2+] content, specific functions associated with this subcompartment, such as sorting of proteins to the plasma membrane through the secretory pathway, and the structure of the entire Golgi apparatus are dramatically altered. GFP | fluorescence resonance energy transfer | secretory pathway [Ca.sup.2+] ATPasel doi/ 10.1073/pnas.1004702107

Published

2010

4. Golgi-modifying properties of macfarlandin E and the synthesis and evaluation of its 2,7-dioxabicyclo[3.2.1]octan-3-one core

Author

Schnermann, Martin J., Beaudry, Christopher M., Egorova, Anastasia V., Polishchuk, Roman S., Sutterlin, Christine, and Overman, Larry E.

Subjects

Golgi apparatus -- Physiological aspects, Golgi apparatus -- Structure, Golgi apparatus -- Research, Natural products -- Properties, Natural products -- Research, Science and technology

Abstract

Golgi-modifying properties of the spongian diterpene macfarlandin E (MacE) and a synthetic analog, t-Bu-MacE, containing its 2,7-dioxabicyclo[3.2.1]octan-3-one moiety are reported. Natural product screening efforts identified MacE as inducing a novel morphological change in Golgi structure defined by ribbon fragmentation with maintenance of the resulting Golgi fragments in the pericentriolar region, t-Bu-MacE, which possesses the substituted 2,7-dioxabicyclo[3.2.1]octan-3-one but contains a tert-butyl group in place of the hydroazulene subunit of MacE, was prepared by chemical synthesis. Examination of the Golgi-modifying properties of MacE, t-Bu-MacE, and several related structures revealed that the entire oxygen-rich bridged-bicyclic fragment is required for induction of this unique Golgi organization phenotype. Further characterization of MacE-induced Golgi modification showed that protein secretion is inhibited, with no effect on the actin or microtubule cytoskeleton being observed. The conversion of t-Bu-MacE and a structurally related des-acetoxy congener to substituted pyrroles in the presence of primary amines in protic solvent at ambient temperatures suggests that covalent modification might be involved in the Golgi-altering activity of MacE. organelle organization | chemical biology | natural product | reactivity doi/10.1073/pnas.1001421107

Published

2010

5. Actin remodeling by ADF/cofilin is required for cargo sorting at the trans-Golgi network

Author

von Blume, Julia, Duran, Juan M., Forlanelli, Elena, Alleaume, Anne-Marie, Egorov, Mikhail, Polishchuk, Roman, Molina, Henrik, and Malhotra, Vivek

Subjects

Golgi apparatus -- Physiological aspects, Golgi apparatus -- Research, Membrane proteins -- Physiological aspects, Membrane proteins -- Research, Muscle proteins -- Physiological aspects, Muscle proteins -- Genetic aspects, Muscle proteins -- Research, Biological sciences

Abstract

Knockdown of the actin-severing protein actin-depolymerizing factor (ADF)/cofilin inhibited export of an exogenously expressed soluble secretory protein from Golgi membranes in Drosophila melanogaster and mammalian tissue culture cells. A stable isotope labeling by amino acids in cell culture mass spectrometry--based protein profiling revealed that a large number of endogenous secretory proteins in mammalian cells were not secreted upon ADF/cofilin knockdown. Although many secretory proteins were retained, a Golgi-resident protein and a lysosomal hydrolase were aberrantly secreted upon ADF/cofilin knockdown. Overall, our findings indicate that inactivation of ADF/cofilin perturbed the sorting of a subset of both soluble and integral membrane proteins at the trans-Golgi network (TGN). We suggest that ADF/ cofilin-dependent actin trimming generates a sorting domain at the TGN, which filters secretory cargo for export, and that uncontrolled growth of this domain causes missorting of proteins. This type of actin-dependent compartmentalization and filtering of secretory cargo at the TGN by ADF/cofilin could explain sorting of proteins that are destined to the cell surface. doi/10.1083/jcb.200908040

Published

2009

6. PtdIns4P recognition by Vps74/GOLPH3 links PtdIns 4-kinase signaling to retrograde Golgi trafficking

Author

Wood, Christopher S., Schmitz, Karl R., Bessman, Nicholas J., Setty, Thanuja Gangi, Ferguson, Kathryn M., and Burd, Christopher G.

Subjects

Golgi apparatus -- Physiological aspects, Golgi apparatus -- Structure, Golgi apparatus -- Research, Phosphatidylinositol -- Physiological aspects, Phosphatidylinositol -- Research, Protein kinases -- Physiological aspects, Protein kinases -- Genetic aspects, Protein kinases -- Research, Mitochondrial DNA -- Physiological aspects, Mitochondrial DNA -- Research, Biological sciences

Abstract

Targeting and retention of resident integral membrane proteins of the Golgi apparatus underly the function of the Golgi in glycoprotein and glycolipid processing and sorting. In yeast, steady-state Golgi localization of multiple mannosyltransferases requires recognition of their cytosolic domains by the peripheral Golgi membrane protein Vps74, an orthologue of human GOLPH3/GPP34/GMx33/MIDAS (mitochondrial DNA absence sensitive factor). We show that targeting of Vps74 and GOLPH3 to the Golgi apparatus requires ongoing synthesis of phosphatidylinositol (PtdIns) 4-phosphate (PtdIns4P) by the Pik1 PtdIns 4-kinase and that modulation of the levels and cellular location of Ptdlns4P leads to mislocalization of these proteins. Vps74 and GOLPH3 bind specifically to PtdIns4P, and a sulfate ion in a crystal structure of GOLPH3 indicates a possible phosphoinositide-binding site that is conserved in Vps74. Alterations in this site abolish phosphoinositide binding in vitro and Vps74 function in vivo. These results implicate Pikl signaling in retention of Golgi-resident proteins via Vps74 and show that GOLPH3 family proteins are effectors of Golgi PtdIns 4-kinases. doi/10.1083/jcb.200909063

Published

2009

7. FAPP2 is required for aquaporin-2 apical sorting at trans-Golgi network in polarized MDCK cells

Author

Yui, Naofumi, Okutsu, Rie, Sohara, Eisei, Rai, Tatemitsu, Ohta, Akihito, Noda, Yumi, Sasaki, Sei, and Uchida, Shinichi

Subjects

Aquaporins -- Physiological aspects, Aquaporins -- Genetic aspects, Aquaporins -- Research, Golgi apparatus -- Physiological aspects, Golgi apparatus -- Research, Phosphatidylinositol -- Physiological aspects, Phosphatidylinositol -- Research, Phosphorylation -- Physiological aspects, Phosphorylation -- Research, Biological sciences

Abstract

Yui N, Okutsu R, Sohara E, Rai T, Ohta A, Noda Y, Sasaki S, Uchida S. FAPP2 is required for aquaporin-2 apical sorting at Trans-Golgi network in polarized MDCK cells. Am J Physiol Cell Physiol 297: C1389-C1396, 2009. First published September 30, 2009; doi: 10.1152/ajpcell.00098.2009.--FAPP2 is an adaptor protein of phosphatidylinositol-4-phosphate and is involved in the transport of some apical cargos from the trans-Golgi network (TGN). To investigate whether the regulated apical transport of aquaporin-2 (AQP2) is involved in the FAPP2-dependent apical protein-sorting machinery, we measured apical sorting of AQP2 in Madin-Darby canine kidney (MDCK) cells with or without FAPP2 knockdown. We established MDCK cell lines that stably express rat AQP2 without any tag sequence. Then, FAPP2-deficient stable cell lines were established from the AQP2-expressing cell lines by a retrovirus-mediated RNA interference system. In the established cell lines, AQP2 was detected in both apical and basolateral membranes. Forskolin increased only the apical localization of AQP2, which was not affected by basolateral treatment with 0.5% tannic acid, indicating that the forskolin-induced apical transport of AQP2 did not include the transcytotic pathway from basolateral to apical membranes but is a direct transport from TGN to the apical membranes. Using these cell lines, we tested the effect of FAPP2 knockdown on the polarized AQP2 transport to plasma membranes and found that the forskolin-induced apical transport of AQP2 was completely abolished by FAPP2 knockdown. By contrast, the basolateral localization of AQP2 was not affected by FAPP2 knockdown. AQP2 phosphorylation by forskolin was also impaired in FAPP2 knockdown MDCK cells. These results suggest that FAPP2 is necessary to generate AQP2-bearing vesicles at trans-Golgi that will undergo phosphorylation by PKA in subapical regions. phosphatidylinositol; forskolin; short hairpin RNA; biotinylation assay doi: 10.1152/ajpcell.00098.2009

Published

2009

8. Golgi dysfunction is a common feature in idiopathic human pulmonary hypertension and vascular lesions in SHIV-nef-infected macaques

Author

Sehgal, Pravin B., Mukhopadhyay, Somshuvra, Patel, Kirit, Xu, Fang, Almodovar, Sharilyn, Tuder, Rubin M., and Flores, Sonia C.

Subjects

Pulmonary hypertension -- Development and progression, Pulmonary hypertension -- Research, Pulmonary hypertension -- Models, Macaques -- Research, Cellular signal transduction -- Physiological aspects, Cellular signal transduction -- Research, Simian immunodeficiency virus -- Research, Golgi apparatus -- Physiological aspects, Golgi apparatus -- Research, Biological sciences

Abstract

Golgi dysfunction has been previously investigated as a mechanism involved in monocrotaline-induced pulmonary hypertension (PAH). In the present study, we addressed whether Golgi dysfunction might occur in pulmonary vascular cells in idiopathic PAH (IPAH) and whether there might be a causal relationship between trafficking dysfunction and vasculopathies of PAH. Quantitative immunostaining for the Golgi tethers giantin and p115 on human lung tissue from patients with IPAH (n = 6) compared with controls demonstrated a marked cytoplasmic dispersal of giantin- and p115-bearing vesicular elements in vascular cells in the proliferative, obliterative, and plexiform lesions in IPAH and an increase in the amounts of these Golgi tethers/matrix proteins per cell. The causality question was approached by genetic means using human immunodeficiency virus (HIV)-Nef, a protein that disrupts endocytic and trans-Golgi trafficking. Macaques infected with a chimeric simian immunodeficiency virus (SIV) containing the HIV-nefgene (SHIV-nef, but not the nonchimeric SIV virus containing the endogenous SIV-nef gene, displayed pulmonary arterial vasculopathies similar to those in human IPAH. Giantin and p115 levels and their subcellular distribution in pulmonary vascular cells in lungs of SHIV-nef infected macaques (n = 4) were compared with SIV-infected (n = 3) and an uninfected macaque control. Only macaques infected with chimeric SHIV-nef showed pulmonary vascular lesions containing cells with dramatic cytoplasmic dispersal and an increase in giantin and p115. Specifically, the HIV-Nef-positive cells showed increased giantin, p115, and the activated transcription factor PY-STAT3. These data represent the first test of the Golgi dysfunction hypothesis in IPAH and place trafficking and Golgi disruption in the chain of causality of pulmonary vasculopathies in the macaque model. pulmonary arterial hypertension; endothelial cells; smooth muscle cells; intra-Golgi tethers; human immuodeficiency virus; giantin; p115; signal transducer and activator of transcription 3 doi: 10.1152/ajplung.00087.2009

Published

2009

9. Structural basis for a human glycosylation disorder caused by mutation of the COG4 gene

Author

Richardson, Brian C., Smith, Richard D., Ungar, Daniel, Nakamura, Ayumi, Jeffrey, Philip D., Lupashin, Vladimir V., and Hughson, Frederick M.

Subjects

Golgi apparatus -- Physiological aspects, Golgi apparatus -- Research, Metabolic diseases -- Risk factors, Metabolic diseases -- Physiological aspects, Metabolic diseases -- Research, X-ray crystallography -- Usage, Gene mutations -- Health aspects, Glycosylation -- Abnormalities, Glycosylation -- Research, Science and technology

Abstract

The proper glycosylation of proteins trafficking through the Golgi apparatus depends upon the conserved oligomeric Golgi (COG) complex. Defects in COG can cause fatal congenital disorders of glycosylation (CDGs) in humans. The recent discovery of a form of CDG, caused in part by a COG4 missense mutation changing Arg 729 to Trp, prompted us to determine the 1.9 [Angstrom] crystal structure of a Cog4 C-terminal fragment. Arg 729 is found to occupy a key position at the center of a salt bridge network, thereby stabilizing Cog4's small C-terminal domain. Studies in HeLa cells reveal that this C-terminal domain, while not needed for the incorporation of Cog4 into COG complexes, is essential for the proper glycosylation of cell surface proteins. We also find that Cog4 bears a strong structural resemblance to exocyst and Dsl1p complex subunits. These complexes and others have been proposed to function by mediating the initial tethering between transport vesicles and their membrane targets; the emerging structural similarities provide strong evidence of a common evolutionary origin and may reflect shared mechanisms of action. congenital disorder of glycosylation | Golgi apparatus multi-subunit tethering complex | vesicle trafficking | X-ray crystallography

Published

2009

10. Membrane proteins follow multiple pathways to the basolateral cell surface in polarized epithelial cells

Author

Farr, Glen A., Hull, Michael, Mellman, Ira, and Caplan, Michael J.

Subjects

Membrane proteins -- Physiological aspects, Epithelial cells -- Properties, Biological transport -- Evaluation, Golgi apparatus -- Properties, Golgi apparatus -- Physiological aspects, Biological sciences

Abstract

Newly synthesized apical and basolateral membrane proteins are sorted from one another in polarized epithelial cells. The trans-Golgi network participates in this sorting process, but some basolateral proteins travel from the Golgi to recycling endosomes (REs) before their surface delivery. Using a novel system for pulse-chase microscopy, we have visualized the postsynthetic route pursued by a newly synthesized cohort of Na, K-ATPase. We find that the basolateral delivery of newly synthesized Na,K-ATPase occurs via a pathway distinct from that pursued by the vesicular stomatitis virus G protein (VSV-G). Na,KATPase surface delivery occurs at a faster rate than that observed for VSV-G. The Na, K-ATPase does not pass through the RE compartment en route to the plasma membrane, and Na, K-ATPase trafficking is not regulated by the same small GTPases as other basolateral proteins. Finally, Na, K-ATPase and VSV-G travel in separate post-Golgi transport intermediates, demonstrating directly that multiple routes exist for transport from the Golgi to the basolateral membrane in polarized epithelial cells.

Published

2009

11. Lysophosphatidic acid acyltransferase 3 regulates Golgi complex structure and function

Author

Schmidt, John A. and Brown, William J.

Subjects

Golgi apparatus -- Properties, Golgi apparatus -- Physiological aspects, Membrane lipids -- Chemical properties, Biological transport -- Evaluation, Phospholipids -- Physiological aspects, Biological sciences

Abstract

Recent studies have suggested that the functional organization of the Golgi complex is dependent on phospholipid remodeling enzymes. Here, we report the identification of an integral membrane lysophosphatidic acid-specific acyltransferase, LPAAT3, which regulates Golgi membrane tubule formation, trafficking, and structure by altering phospholipids and lysophospholipids. Overexpression of LPAAT3 significantly inhibited the formation of Golgi membrane tubules in vivo and in vitro. Anterograde and retrograde protein trafficking was slower in cells overexpressing LPAAT3 and accelerated in cells with reduced expression (by siRNA). Golgi morphology was also dependent on LPAAT3 because its knockdown caused the Golgi to become fragmented. These data are the first to show a direct role for a specific phospholipid acyltransferase in regulating membrane trafficking and organelle structure.

Published

2009

12. Segregation of sphingolipids and sterols during formation of secretory vesicles at the trans-Golgi network

Author

Klemm, Robin W., Ejsing, Christer S., Surma, Michal A., Kaiser, Hermann-Josef, Gerl, Mathias J., Sampaio, Julio L., de Robillard, Quentin, Ferguson, Charles, Proszynski, Tomasz J., Shevchenko, Andrej, and Simons, Kai

Subjects

Golgi apparatus -- Physiological aspects, Golgi apparatus -- Research, Membrane proteins -- Physiological aspects, Membrane proteins -- Research, Sphingolipids -- Physiological aspects, Sphingolipids -- Research, Biological sciences

Abstract

The trans-Golgi network (TGN) is the major sorting station in the secretory pathway of all eukaryotic cells. How the TGN sorts proteins and lipids to generate the enrichment of sphingolipids and sterols at the plasma membrane is poorly understood. To address this fundamental question in membrane trafficking, we devised an immunoisolation procedure for specific recovery of post-Golgi secretory vesicles transporting a transmembrane raft protein from the TGN to the cell surface in the yeast Saccharomyces cerevisiae. Using a novel quantitative shotgun lipidomics approach, we could demonstrate that TGN sorting selectively enriched ergosterol and sphingolipid species in the immunoisolated secretory vesicles. This finding, for the first time, indicates that the TGN exhibits the capacity to sort membrane lipids. Furthermore, the observation that the immunoisolated vesicles exhibited a higher membrane order than the late Golgi membrane, as measured by C-Laurdan spectrophotometry, strongly suggests that lipid rafts play a role in the TGN-sorting machinery.

Published

2009

13. Golgi targeting of Drosophila melanogaster [beta]4GalNAcTB requires a DHHC protein family-related protein as a pilot

Author

Johswich, Anita, Kraft, Benjamin, Wuhrer, Manfred, Berger, Monika, Deelder, Andre M., Hokke, Cornelis H., Gerardy-Schahn, Rita, and Bakker, Hans

Subjects

Drosophila -- Genetic aspects, Drosophila -- Physiological aspects, Golgi apparatus -- Genetic aspects, Golgi apparatus -- Physiological aspects, Biological sciences

Abstract

Drosophila melanogaster [beta]4GalNAcTB mutant flies revealed that this particular N-acetylgalactosaminyltransferase is predominant in the formation of lacdiNAc (GalNAc[beta]1,4GlcNAc)-modified glycolipids, but enzymatic activity could not be confirmed for the cloned enzyme. Using a heterologous expression cloning approach, we isolated [beta]4GalNAcTB together with [beta]4GalNAcTB pilot (GABPI), a multimembrane-spanning protein related to Asp-His-His-Cys (DHHC) proteins but lacking the DHHC consensus sequence. In the absence of GABPI, inactive [beta]4GalNAcTB is trapped in the endoplasmic reticulum (ER). Coexpression of [beta]4GalNAcTB and GABPI generates the active enzyme that is localized together with GABPI in the Golgi. GABPI associates with [beta]4GalNAcTB and, when expressed with an ER retention signal, holds active [beta]4GalNAcTB in the ER. Importantly, treatment of isolated membrane vesicles with Triton X-100 disturbs [beta]4GalNAcTB activity. This phenomenon occurs with multimembrane-spanning glycosyltransferases but is normally not a property of glycosyltransferases with one membrane anchor. In summary, our data provide evidence that GABPI is required for ER export and activity of [beta]4GalNAcTB.

Published

2009

14. Structural basis of nucleotide sugar transport across the Golgi membrane

Author

Parker, Joanne L. and Newstead, Simon

Subjects

Physiological aspects, Golgi apparatus -- Physiological aspects, Nucleotides -- Physiological aspects, Monosaccharides -- Physiological aspects, Sugars -- Physiological aspects

Abstract

Author(s): Joanne L. Parker (corresponding author) [1]; Simon Newstead (corresponding author) [1] Glycosylation is a fundamental cellular process that, in eukaryotes, occurs in the lumen of both the Golgi apparatus [...]

Published

2017

15. Unsolved mysteries in membrane traffic

Author

Pfeffer, Suzanne R.

Subjects

Golgi apparatus -- Physiological aspects, Golgi apparatus -- Research, Biological transport -- Research, Guanosine triphosphatase -- Research, Biological sciences

Abstract

The studies related to membrane traffic and the newly emerging fundamentals of mammalian cell biology and human physiology is explained through the mechanisms of protein transport through the Golgi complex and between membrane-bound compartments.

Published

2006

16. New Molecular Biology Findings Reported from Emory University (The Arf Gaps Elmod1 and Elmod3 Act At the Golgi and Cilia To Regulate Ciliogenesis and Ciliary Protein Traffic)

Subjects

Physiological aspects, Golgi apparatus -- Physiological aspects, Cellular proteins -- Physiological aspects, Cilia -- Physiological aspects, GTPases -- Physiological aspects, Cilia and ciliary motion -- Physiological aspects, Guanosine triphosphatase -- Physiological aspects

Abstract

2022 MAR 8 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Investigators publish new report on Biology - Molecular Biology. According to news reporting originating [...]

Published

2022

17. Reports from University of Montana Provide New Insights into Biochemistry (Alg-2 and Peflin Regulate Copii Targeting and Secretion In Response To Calcium Signaling)

Subjects

Physiological aspects, Research, Calcium (Nutrient) -- Physiological aspects, Golgi apparatus -- Physiological aspects, Physiological research, Cellular proteins -- Physiological aspects, Cellular signal transduction -- Research, Endoplasmic reticulum -- Physiological aspects, Calcium, Dietary -- Physiological aspects

Abstract

2022 MAR 1 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Research findings on Life Science Research - Biochemistry are discussed in a new report. [...]

Published

2022

18. Mammalian GGAs act together to sort mannose 6-phosphate receptors

Author

Ghosh, Pradipta, Griffith, Janice, Geuze, Hans J., and Kornfeld, Stuart

Subjects

Adenosine diphosphate -- Physiological aspects, Binding proteins -- Genetic aspects, Binding proteins -- Physiological aspects, Cell research -- Analysis, Electron microscopy -- Usage, Golgi apparatus -- Genetic aspects, Golgi apparatus -- Physiological aspects, Phosphates -- Physiological aspects, Biological sciences

Abstract

The GGAs (Golgi-localized, [gamma] ear-containing, ADP ribosylation factor-binding proteins) are multidomain proteins implicated in protein trafficking between the Golgi and endosomes. We examined whether the three mammalian GGAs act independently or together to mediate their functions. Using cryo-immunogold electron microscopy, the three GGAs were shown to colocalize within coated buds and vesicles at the trans-Golgi network (TGN) of HeLa cells. In vitro binding experiments revealed multidomain interactions between the GGAs, and chemical cross-linking experiments demonstrated that GGAs 1 and 2 form a complex on Golgi membranes. RNA interference of each GGA resulted in decreased levels of the other GGAs and their redistribution from the TGN to cytosol. This was associated with impaired incorporation of the cation-independent mannose 6-phosphate receptor into clathrin-coated vesicles at the TGN, partial redistribution of the receptor to endosomes, and missorting of cathepsin D. The morphology of the TGN was also altered. These findings indicate that the three mammalian GGAs cooperate to sort cargo and are required for maintenance of TGN structure.

Published

2003

19. In situ localization of manganese peroxidase production in mycelial pellets of Phanerochaete chrysosporium

Author

Jimenez-Tobon, G., Kurzatkowski, W., Rozbicka, B., Solecka, J., Pocsi, I., and Penninckx, M.J.

Subjects

Bacteria -- Genetic aspects, Bacteria -- Physiological aspects, Bacteria -- Structure, Cells -- Genetic aspects, Cells -- Physiological aspects, Golgi apparatus -- Genetic aspects, Golgi apparatus -- Physiological aspects, Manganese -- Physiological aspects, Microbiology -- Research, Peroxidase -- Physiological aspects, Biological sciences

Abstract

The ultrastructure of Phanerochaete chrysosporium hyphae from pellets in submerged liquid cultures was investigated in order to learn more about the interrelation between fungal architecture and manganese peroxidase (MnP) production. At day 2 of cultivation, some subapical regions of hyphae in the outer and middle zones of the pellet initiated differentiation into intercalary thick-walled chlamydospore-like cells of about 10 [micro]m diameter. At the periphery of the cytoplasm of these cells, a large number of mitochondria and Golgi-like vesicles were observed. The sites of MnP production were Iocalized at different stages of cultivation by an immunolabelling procedure. The immunomarker of MnP was mainly concentrated in the chlamydospore-like cells and principally distributed in Golgi-like vesicles Iocated at the periphery of the cytoplasm. The apices of hyphae in the outer layer of the pellets were apparently minor sites of MnP production. Maximal MnP release into the culture supernatant coincided with apparent autolysis of the chlamydospore-like cells. Production of extracellular autolytic chitinase and protease coincided with the disappearance of these structures from the pellets. The chlamydospore-like cells observed in the mycelial pellets of P. chrysosporium could be metabolically active entities operating as an enzyme reservoir, delivering their content into the surrounding medium possibly by an enzyme-mediated autolytic process.

Published

2003

20. A novel role for dp115 in the organization of tER sites in Drosophila

Author

Kondylis, Vangelis and Rabouille, Catherine

Subjects

Proteins -- Physiological aspects, Proteins -- Genetic aspects, Cytoplasm -- Genetic aspects, Cytoplasm -- Physiological aspects, Immunofluorescence -- Usage, Fluorescent antibody technique -- Usage, Golgi apparatus -- Genetic aspects, Golgi apparatus -- Physiological aspects, RNA -- Genetic aspects, Drosophila -- Physiological aspects, Drosophila -- Genetic aspects, Cytology -- Research, Biological sciences

Abstract

Here, we describe that depletion of the Drosophila homologue of p115 (dp115) by RNA interference in Drosophila S2 cells led to important morphological changes in the Golgi stack morphology and the transitional ER (tER) organization. Using conventional and immunoelectron microscopy and confocal immunofluorescence microscopy, we show that Golgi stacks were converted into clusters of vesicles and tubules, and that the tERs (marked by Sec23p) lost their focused organization and were now dispersed throughout the cytoplasm. However, we found that this morphologically altered exocytic pathway was nevertheless largely competent in anterograde protein transport using two different assays. The effects were specific for dp115. Depletion of the Drosophila homologues of GM130 and syntaxin 5 (dSed5p) did not lead to an effect on the tER organization, though the Golgi stacks were greatly vesiculated in the cells depleted of dSed5p. Taken together, these studies suggest that dp115 could be implicated in the architecture of both the Golgi stacks and the tER sites.

Published

2003

21. The localization and phosphorylation of p47 are important for Golgi disassembly-assembly during the cell cycle

Author

Uchiyama, Keiji, Jokitalo, Eija, Lindman, Mervi, Jackman, Mark, Kano, Fumi, Murata, Masayuki, Zhang, Xiaodong, and Kondo, Hisao

Subjects

Golgi apparatus -- Research, Golgi apparatus -- Physiological aspects, Biological sciences

Abstract

In mammalian cells, the Golgi apparatus is disassembled at the onset of mitosis and reassembled at the end of mitosis. This disassembly-reassembly is generally believed to be essential for the equal partitioning of Golgi into two daughter cells. For Golgi disassembly, membrane fusion, which is mediated by NSF and p97, needs to be blocked. For the NSF pathway, the tethering of p115-GM130 is disrupted by the mitotic phosphorylation of GM130, resulting in the inhibition of NSF-mediated fusion. In contrast, the p97/p47 pathway does not require p115-GM130 tethering, and its mitotic inhibitory mechanism has been unclear. Now, we have found that p47, which mainly localizes to the nucleus during interphase, is phosphorylated on Serine-140 by Cdc2 at mitosis. The phosphorylated p47 does not bind to Golgi membranes. An in vitro assay shows that this phosphorylation is required for Golgi disassembly. Microinjection of p47(S140A), which is unable to be phosphorylated, allows the cell to keep Golgi stacks during mitosis and has no effect on the equal partitioning of Golgi into two daughter cells, suggesting that Golgi fragmentation-dispersion may not be obligatory for equal partitioning even in mammalian cells.

Published

2003

22. Structure of the GAT domain of human GGA1: a syntaxin amino-terminal domain fold in an endosomal trafficking adaptor

Author

Suer, Silke, Misra, Saurav, Saidi, Layla F., and Hurley, James H.

Subjects

Golgi apparatus -- Physiological aspects, Protein research -- Reports, Science and technology

Abstract

The Golgi-associated, [gamma]-adaptin homologous, ADP-ribosylation factor (ARF)-interacting proteins (GGAs) are adaptors that sort receptors from the trans-Golgi network into the endosomal/lysosomal pathway. The GGAs and TOM1 (GAT) domains of the GGAs are responsible for their ARF-dependent localization. The 2.4-[Angstrom] crystal structure of the GAT domain of human GGA1 reveals a three-helix bundle, with a long N-terminal helical extension that is not conserved in GAT domains that do not bind ARF. The ARF binding site is located in the N-terminal extension and is separate from the core three-helix bundle. An unanticipated structural similarity to the N-terminal domain of syntaxin 1a was discovered, comprising the entire three-helix bundle. A conserved binding site on helices 2 and 3 of the GAT domain three-helix bundle is predicted to interact with coiled-coil-containing proteins. We propose that the GAT domain is descended from the same ancestor as the syntaxin 1a N-terminal domain, and that both protein families share a common function in binding coiled-coil domain proteins.

Published

2003

23. Determinants of [[Cl.sup.-]] in recycling and late endosomes and Golgi complex measured using fluorescent ligands

Author

Sonawane, N.D. and Verkman, A.S.

Subjects

Golgi apparatus -- Physiological aspects, Chlorides -- Physiological aspects, Chlorides -- Measurement, Dichloropropane, Biological sciences

Abstract

Chloride concentration ([[Cl.sup.-]]) was measured in defined organellar compartments using fluorescently labeled transferrin, [[alpha].sub.2]-macroglobulin, and cholera toxin B-subunit conjugated with [Cl.sup.-]-sensitive and -insensitive dyes. In pulse-chase experiments, [[Cl.sup.-]] in Tf-labeled early/ recycling endosomes in J774 cells was 20 mM just after internalization, increasing to 41 mM over ~10 min in parallel to a drop in pH from 6.91 to 6.05. The low [[Cl.sup.-]] just after internalization (compared with 137 mM solution [[Cl.sup.-]]) was prevented by reducing the interior-negative Donnan potential. [[Cl.sup.-]] in [[alpha].sub.2]-macroglobulin-labeled endosomes, which enter a late compartment, increased from 28 to 58 mM at 1-45 min after internalization, whereas pH decreased from 6.85 to 5.20. [Cl.sup.-] accumulation was prevented by bafilomycin but restored by valinomycin. A [Cl.sup.-] channel inhibitor slowed endosomal acidification and [Cl.sup.-] accumulation by ~2.5-fold. [[Cl.sup.-]] was 49 mM and pH was 6.42 in cholera toxin B subunit-labeled Golgi complex in Vero cells; Golgi compartment [Cl.sup.-] accumulation and acidification were reversed by bafilomycin. Our experiments provide evidence that [[Cl.sup.-] is the principal counter ion accompanying endosomal and Golgi compartment acidification, and that an interior-negative Donnan potential is responsible for low endosomal [[Cl.sup.-]] early after internalization. We propose that reduced [[Cl.sup.-]] and volume in early endosomes permits endosomal acidification and [[Cl.sup.-]] accumulation without lysis.

Published

2003

24. Oncogenic targeting of an activated tyrosine kinase to the Golgi apparatus in a glioblastoma

Author

Charest, Alan, Kheifets, Vicky, Park, Julie, Lane, Keara, McMahon, Kevin, Nutt, Cathy L., and Housman, David

Subjects

Golgi apparatus -- Physiological aspects, Cytochemistry -- Research, Carcinogenesis -- Genetic aspects, Protein kinases -- Physiological aspects, Glioblastoma multiforme -- Physiological aspects, Oncogenes -- Physiological aspects, Science and technology

Abstract

Activating oncogenic mutations of receptor tyrosine kinases (RTKs) have been reported in several types of cancers. In many cases, genomic rearrangements lead to the fusion of unrelated genes to the DNA coding for the kinase domain of RTKs. All RTK-derived fusion proteins reported so far display oligomerization sequences within the 5' fusion partners that are responsible for oncogenic activation. Here, we report a mechanism by which an altered RTK gains oncogenic potential in a glioblastoma cell line. A microdeletion on 6q21 results in the fusion of FIG, a gene coding for a Golgi apparatus-associated protein, to the kinase domain of the protooncogene c-ROS. The fused protein product FIG-ROS is a potent oncogene, and its transforming potential resides in its ability to interact with and become localized to the Golgi apparatus. Thus we have found a RTK fusion protein whose subcellular location leads to constitutive kinase activation and results in oncogenic transformation.

Published

2003

25. The coiled-coil membrane protein golgin-84 is a novel rab effector required for Golgi ribbon formation

Author

Diao, Aipo, Rahman, Dinah, Pappin, Darryl J.C., Lucocq, John, and Lowe, Martin

Subjects

Cytology -- Research, Membrane proteins -- Physiological aspects, Membrane proteins -- Genetic aspects, Mitosis -- Physiological aspects, Phosphorylation -- Physiological aspects, Golgi apparatus -- Physiological aspects, Golgi apparatus -- Genetic aspects, Gene expression -- Physiological aspects, Biological sciences

Abstract

Fragmentation of the mammalian Golgi apparatus during mitosis requires the phosphorylation of a specific subset of Golgi-associated proteins. We have used a biochemical approach to characterize these proteins and report here the identification of golgin-84 as a novel mitotic target. Using cryoelectron microscopy we could localize golgin-84 to the cis-Golgi network and found that it is enriched on tubules emanating from the lateral edges of, and often connecting, Golgi stacks. Golgin-84 binds to active rab1 but not cis-Golgi matrix proteins. Overexpression or depletion of golgin-84 results in fragmentation of the Golgi ribbon. Strikingly, the Golgi ribbon is converted into mini-stacks constituting only ~25% of the volume of a normal Golgi apparatus upon golgin-84 depletion. These mini-stacks are able to carry out protein transport, though with reduced efficiency compared with a normal Golgi apparatus. Our results suggest that golgin-84 plays a key role in the assembly and maintenance of the Golgi ribbon in mammalian cells.

Published

2003

26. VCIP135, a novel essential factor for p97/p47-mediated membrane fusion, is required for Golgi and ER assembly in vivo

Author

Uchiyama, Keiji, Jokitalo, Eija, Kano, Fumi, Murata, Masayuki, Zhang, Xiaodong, Canas, Benito, Newman, Richard, Rabouille, Catherine, Pappin, Darryl, Freemont, Paul, and Kondo, Hisao

Subjects

Golgi apparatus -- Physiological aspects, Membrane fusion -- Physiological aspects, Adenosine triphosphatase -- Physiological aspects, Biological sciences

Abstract

NSF and p97 are ATPases required for the heterotypic fusion of transport vesicles with their target membranes and the homotypic fusion of organelles. NSF uses ATP hydrolysis to dissociate NSF/SNAPs/SNAREs complexes, separating the v- and t-SNAREs, which are then primed for subsequent rounds of fusion. In contrast, p97 does not dissociate the p97/p47/SNARE complex even in the presence of ATP. Now we have identified a novel essential factor for p97/p47-mediated membrane fusion, named VCIP135 (valosin-containing protein [VCP][p97]/p47 complex-interacting protein, p135), and show that it binds to the p97/p47/syntaxin5 complex and dissociates it via p97 catalyzed ATP hydrolysis. In living cells, VCIP135 and p47 are shown to function in Golgi and ER assembly.

Published

2002

27. A caspase cleavage fragment of p115 induces fragmentation of the Golgi apparatus and apoptosis

Author

Chiu, Raymond, Novikov, Leonid, Mukherjee, Shaeri, and Shields, Dennis

Subjects

Golgi apparatus -- Physiological aspects, Proteins -- Physiological aspects, Biological sciences

Abstract

In mammalian cells, the Golgi apparatus undergoes extensive fragmentation during apoptosis, p115 is a key vesicle tethering protein required for maintaining the structural organization of the Golgi apparatus. Here, we demonstrate that p115 was cleaved during apoptosis by caspases 3 and 8. Compared with control cells expressing native p115, those expressing a cleavage-resistant form of p115 delayed Golgi fragmentation during apoptosis. Expression of cDNAs encoding full-length or an N[H.sub.2]-terminal caspase cleavage fragment of p115 had no effect on Golgi morphology. In contrast, expression of the COOH-terminal caspase cleavage product of p115 itself caused Golgi fragmentation. Furthermore, this fragment translocated to the nucleus and its expression was sufficient to induce apoptosis. Most significantly, in vivo expression of the COOH-terminal fragment in the presence of caspase inhibitors, or upon coexpression with a cleavage-resistant mutant of p115, showed that p115 degradation plays a key role in amplifying the apoptotic response independently of Golgi fragmentation.

Published

2002

28. The SQV-1 UDP-glucuronic acid decarboxylase and the SQV-7 nucleotide-sugar transporter may act in the Golgi apparatus to affect Caenorhabditis elegans vulval morphogenesis and embryonic development

Author

Hwang, Ho-Yon and Horvitz, H. Robert

Subjects

Decarboxylases -- Genetic aspects, Decarboxylases -- Physiological aspects, Golgi apparatus -- Genetic aspects, Golgi apparatus -- Physiological aspects, Nucleotides -- Genetic aspects, Nucleotides -- Physiological aspects, Caenorhabditis elegans -- Genetic aspects, Caenorhabditis elegans -- Physiological aspects, Glycosaminoglycans -- Genetic aspects, Glycosaminoglycans -- Physiological aspects, Science and technology

Abstract

Recent findings indicate that glycosaminoglycans can play important roles in animal development. The genes sqv-3, -7, and -8, which are necessary for vulval morphogenesis in Caenorhabditis elegans, affect the biosynthesis of chondroitin and heparan sulfate glycosaminoglycans. We cloned sqv-1 and showed that the SQV-1 protein is a type II transmembrane protein that functions as a UDP-glucuronic acid decarboxylase. SQV-1 localizes to punctate cytoplasmic compartments and colocalizes with the SQV-7 nucleotide-sugar transporter, which probably acts in the Golgi apparatus. SQV-1 and SQV-7 are both expressed in the vulva and in oocytes, where they likely act in vulval morphogenesis and embryonic development, respectively. Progeny of sqv-7 and sqv-1 null mutants fail to initiate cytokinesis, possibly because they are unable to separate the plasma membrane from the eggshell, a defect analogous to that of incomplete vulval invagination.

Published

2002

29. A resident Golgi protein is excluded from peri-Golgi vesicles in NRK cells

Author

Cosson, Pierre, Amherdt, Mylene, Rothman, James E., and Orci, Lelio

Subjects

Golgi apparatus -- Physiological aspects, Cell research -- Physiological aspects, Proteins -- Physiological aspects, Science and technology

Abstract

To understand the structure and the function of the Golgi apparatus, it is essential to establish how resident Golgi enzymes are localized in only a few Golgi cisternae. In particular it is crucial to establish whether Golgi enzymes are retained specifically in cisternae, or if they are continuously transported from cisterna to cisterna. Here we report that a resident Golgi enzyme is largely excluded from peri-Golgi transport vesicles in normal rat kidney cells, a cell type in which conflicting results have been reported. Analysis of the lateral distribution of two markers within Golgi cisternae led to the same conclusion: a protein incorporated in vesicles (KDEL receptor) is concentrated at the rims of cisternae where vesicles form, while mannosidase II is not. These results suggest that localization of resident Golgi enzymes is achieved primarily by selective retention within cisternae and exclusion from transport vesicles. These observations cannot easily be reconciled with the vision of rapidly maturing Golgi cisternae as the principal means of intra-Golgi transport. Golgi apparatus | cisternal maturation | coatomer | glycosyltransferase | secretion

Published

2002

30. Sterols block binding of COPII proteins to SCAP, thereby controlling SCAP sorting in ER

Author

Espenshade, Peter J., Li, Wei-Ping, and Yabe, Daisuke

Subjects

Sterols -- Research, Cell research -- Evaluation, Mammals -- Genetic aspects, Genetic research -- Evaluation, Golgi apparatus -- Physiological aspects, Proteins -- Transportation, Science and technology

Abstract

Sterols inhibit their own synthesis in mammalian cells by blocking the vesicular endoplasmic reticulum-to-Golgi transport of sterol regulatory element-binding protein (SREBP) cleavage-activating protein (SCAP), a sterol-sensing protein that escorts SREBPs. Unable to reach the Golgi, SREBPs are not processed by Golgi-resident proteases, and they fail to activate genes required for cholesterol synthesis. The current studies were designed to reveal whether sterols block SCAP movement by inhibiting synthesis of special vesicles dedicated to SCAP, or whether sterols block SCAP incorporation into common coat protein (COP)II-coated vesicles. Through immunoisolation, we show that SCAP-containing vesicles, formed in vitro, also contain vesicular stomatitis virus glycoprotein (VSVG) protein, a classic marker of COPII-coated vesicles. Sterols selectively block incorporation of SCAP into these vesicles without blocking incorporation of VSVG protein. We show that the mammalian vesicular budding reaction can be reconstituted by recombinant yeast COPII proteins that support incorporation of SCAP as well as VSVG into vesicles. Sterols block SCAP incorporation into vesicles by blocking Sar1-dependent binding of the COPII proteins Sec 23/24 to SCAP. These studies demonstrate feedback control of a biosynthetic pathway by the regulated binding of COPII proteins to an endoplasmic reticulum-to-Golgi transport protein.

Published

2002

31. Phospholipid species act as modulators in p97/p47-mediated fusion of Golgi membranes

Author

Pecheur, Eve-Isabelle, Martin, Isabelle, Maier, Olaf, Bakowsky, Udo, Ruysschaert, Jean-Marie, and Hoekstra, Dick

Subjects

Golgi apparatus -- Physiological aspects, Membrane fusion -- Physiological aspects, Cephalin -- Physiological aspects, Proteins -- Conformation, Biological sciences, Chemistry

Abstract

Research demonstrates fusion between mitotic Golgi membranes mediated by cytosol or p97/p47 complex is modulated by phosphatidyl ethanolamine but not by phosphatidyl choline. Data show that the complex is recruited to the membrane by the phospholipid causing conformational rearrangements, which lead to protein-lipid interactions.

Published

2002

32. Inheriting a structural scaffold for Golgi biosynthesis

Author

Jesch, Stephen A.

Subjects

Biosynthesis -- Research, Golgi apparatus -- Physiological aspects, Mitosis -- Physiological aspects, Cytochemistry -- Research, Biological sciences

Published

2002

33. The epithelial cell cytoskeleton and intracellular trafficking I. Shiga toxin B-subunit system: retrograde transport, intracellular vectorization, and more

Author

Johannes, Ludger

Subjects

Epithelial cells -- Physiological aspects, Biological transport -- Physiological aspects, Cytoskeleton -- Analysis, Endocytosis -- Physiological aspects, Golgi apparatus -- Physiological aspects, Vaccination -- Research, Shigella -- Physiological aspects, Biological sciences

Abstract

The Epithelial Cell Cytoskeleton and Intracellular Trafficking. I. Shiga toxin B-subunit system: retrograde transport, intracellular vectorization, and more. Am J Physiol Gastrointest Liver Physiol 283: G1-G7, 2002; 10.1152/ajpgi.00088.2002.--Many intracellular transport routes are still little explored. This is particularly true for retrograde transport between the plasma membrane and the endoplasmic reticulum. Shiga toxin B subunit has become a powerful tool to study this pathway, and recent advances on the molecular mechanisms of transport in the retrograde route and on its physiological function(s) are summarized. Furthermore, it is discussed how the study of retrograde transport of Shiga toxin B subunit allows one to design new methods for the intracellular delivery of therapeutic compounds. Shigella dysenteriae; endocytosis; endosomes; Golgi apparatus; signaling; vaccination

Published

2002

34. Fragmentation and dispersal of the pericentriolar Golgi complex is required for entry into mitosis in mammalian cells

Author

Sutterlin, Christine, Hsu, Pattie, Mallabiabarrena, Arrate, and Malhotra, Vivek

Subjects

Golgi apparatus -- Physiological aspects, Mitosis -- Physiological aspects, Antibodies -- Usage, Cell physiology -- Research, Biological sciences

Abstract

Research shows that inhibition of the fragmentation of the pericentriolar Golgi apparatus, mediated by mitotic cytosol using anti-GRASP65 antibody, prevents entry into mitosis in mammalian cells. Data suggest that the Golgi organization controls the entry process.

Published

2002

35. Ecdysone triggers the expression of Golgi genes in Drosophila imaginal discs via broad-complex

Author

Dunne, Jonathan C., Kondylis, Vangelis, and Rabouille, Catherine

Subjects

Golgi apparatus -- Physiological aspects, Gene expression -- Analysis, Protein biosynthesis -- Physiological aspects, In situ hybridization -- Methods, Biological sciences

Abstract

One of the most significant morphogenic events in the development of Drosophila melanogaster is the elongation of imaginal discs during puparium formation. We have shown that this macroscopic event is accompanied by the formation of Golgi stacks from small Golgi larval clusters of vesicles and tubules that are present prior to the onset of disc elongation. We have shown that the fly steroid hormone 20-hydroxyecdysone triggers both the elongation itself and the formation of Golgi stacks (V. Kondylis, S. E. Goulding, J. C. Dunne, and C. Rabouille, 2001, Mol. Biol. Cell, 12, 2308). Using mRNA in situ hybridisation, we show here that ecdysone triggers the upregulation of a subset of genes encoding Golgi-related proteins (such as dnsf1, dsec23, dsed5, and drab1) and downregulates the expression of others (such as dergic53, d[beta]COP, and drab6). We show that the transcription factor Broad-complex, itself an 'early' ecdysone target, mediates this regulation. And we show that the ecdysone-independent upregulation of dnsf1 and dsnap prior to the ecdysone peak leads to a precocious formation of large Golgi stacks. The ecdysone-triggered biogenesis of Golgi stacks at the onset of imaginal disc elongation offers the exciting possibility of advancing our understanding of the relationship between gene expression and organelle biogenesis. Key Words: Golgi stacks; Golgi proteins; ecdysone; Broad-complex; gene expression; in situ hybridisation; FISH; immunofiuorescence.

Published

2002

36. Characterization of a mammalian Golgi-localized protein complex, COG, that is required for normal Golgi morphology and function

Author

Ungar, Daniel, Oka, Toshihiko, Brittle, Elizabeth E., Vasile, Eliza, Lupashin, Vladimir V., Chatterton, Jon E., Heuser, John E., Krieger, Monty, and Waters, M. Gerard

Subjects

Cell research -- Analysis, Golgi apparatus -- Physiological aspects, Biological transport -- Analysis, Glycoproteins -- Analysis, Biological sciences

Abstract

Multiprotein complexes are key determinants of Golgi apparatus structure and its capacity for intracellular transport and glycoprotein modification. Three complexes that have previously been partially characterized include (a) the Golgi transport complex (GTC), identified in an in vitro membrane transport assay, (b) the IdICp complex, identified in analyses of CHO cell mutants with defects in Golgi-associated glycosylation reactions, and (c) the mammalian Sec34 complex, identified by homology to yeast Sec34p, implicated in vesicular transport. We show that these three complexes are identical and rename them the conserved oligomeric Golgi (COG) complex. The COG complex comprises four previously characterized proteins (Cog1/IdIBp, Cog2/IdICp, Cog3/Sec34, and Cog5/GTC-90), three homologues of yeast Sec34/35 complex subunits (Cog4, -6, and -8), and a previously unidentified Golgi-associated protein (Cog7). EM of Id1B and Id1C mutants established that COG is required for normal Golgi morphology. 'Deep etch' EM of purified COG revealed an ~37-nm-long structure comprised of two similarly sized globular domains connected by smaller extensions. Consideration of biochemical and genetic data for mammalian COG and its yeast homologue suggests a model for the subunit distribution within this complex, which plays critical roles in Golgi structure and function.

Published

2002

37. CLIPR-59, a new trans-Golgi/TGN cytoplasmic linker protein belonging to the CLIP-170 family. (Article)

Author

Perez, Franck, Pernet-Gallay, Karin, Nizak, Clement, Goodson, Holly V., Kreis, Thomas E., and Goud, Bruno

Subjects

Golgi apparatus -- Physiological aspects, Microtubules -- Physiological aspects, Tubulins -- Physiological aspects, Protein binding -- Analysis, Biological sciences

Abstract

The microtubule cytoskeleton plays a fundamental role in cell organization and membrane traffic in higher eukaryotes. It is well established that molecular motors are involved in membrane--microtubule interactions, but it has also been proposed that nonmotor microtubule-binding (MTB) proteins known as CLIPs (cytoplasmic linker proteins) have basic roles in these processes. We report here the characterization of CLIPR-59, a CLIP-170--related protein localized to the trans-most part of the Golgi apparatus. CLIPR-59 contains an acidic region followed by three ankyrin-like repeats and two CLIP-170--related MTB motifs. We show that the 60--amino acid-long carboxy-terminal domain of CLIPR-59 is necessary and sufficient to achieve Golgi targeting, which represents the first identification of a membrane targeting domain in a CLIP-170--related protein. The MTB domain of CLIPR-59 is functional because it localizes to microtubules when expressed as a fragment in HeLa cells. However, our results suggest that this domain is normally inhibited by the presence of adjacent domains, because neither full-length CLIPR-59 nor a CLIPR-59 mutant missing its membrane-targeting region localize to microtubules. Consistent with this observation, over-expression of CLIPR-59 does not affect the microtubule network. However, CLIPR-59 overexpression strongly perturbs early/recycling endosome--TGN dynamics, implicating CLIPR-59 in the regulation of this pathway.

Published

2002

38. Structural requirements for localization and activation of protein kinase C [mu] (PKC[mu]) at the Golgi compartment. (Article)

Author

Hausser, Angelika, Link, Gisela, Bamberg, Linda, Burzlaff, Annett, Lutz, Sylke, Pfizenmaier, Klaus, and Johannes, Franz-Josef

Subjects

Golgi apparatus -- Physiological aspects, Protein kinases -- Physiological aspects, Biological sciences

Abstract

We here describe the structural requirements for Golgi localization and a sequential, localization-dependent activation process of protein kinase C (PKC)[micro] involving auto- and transphosphorylation. The structural basis for Golgi compartment localization was analyzed by confocal microscopy of HeLa cells expressing various PKC[micro]--green fluorescent protein fusion proteins costained with the Golgi compartment-specific markers p24 and p230. Deletions of either the N[H.sub.2]-terminal hydrophobic or the cysteine region, but not of the pleckstrin homology or the acidic domain, of PKC[micro] completely abrogated Golgi localization of PKC[micro]. As an N[H.sub.2]-terminal PKC[micro] fragment was colocalized with p24, this region of PKC[micro] is essential and sufficient to mediate association with Golgi membranes. Fluorescence recovery after photobleaching studies confirmed the constitutive, rapid recruitment of cytosolic PKC[micro] to, and stable association with, the Golgi compartment independent of activation loop phosphorylation. Kinase activity is not required for Golgi complex targeting, as evident from microscopical and cell fractionation studies with kinasedead PKC[micro] found to be exclusively located at intracellular membranes. We propose a sequential activation process of PKC[micro], in which Golgi compartment recruitment precedes and is essential for activation loop phoshorylation (serines 738/742) by a transacting kinase, followed by auto- and transphosphorylation of N[H.sub.2]-terminal serine(s) in the regulatory domain. PKC[micro] activation loop phosphorylation is indispensable for substrate phosphorylation and thus PKC[micro] function at the Golgi compartment.

Published

2002

39. National Institute of Infectious Diseases Researchers Update Current Study Findings on Liver Abscess (ArfX2 GTPase Regulates Trafficking From the Trans-Golgi to Lysosomes and Is Necessary for Liver Abscess Formation in the Protozoan Parasite ...)

Subjects

Physiological aspects, Development and progression, Causes of, Health aspects, Golgi apparatus -- Physiological aspects, Physiological regulation -- Health aspects, Liver diseases -- Development and progression -- Causes of, Entamoeba histolytica -- Health aspects, GTPases -- Physiological aspects, Lysosomes -- Physiological aspects, Biological control systems -- Health aspects, Guanosine triphosphatase -- Physiological aspects

Abstract

2022 JAN 4 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in liver abscess. According to news originating from Tokyo, Japan, [...]

Published

2022

40. Small cargo proteins and large aggregates can traverse the Golgi by a common mechanism without leaving the lumen of cisternae. (Article)

Author

Mironov, Alexander A., Beznoussenko, Galina V., Nicoziani, Paolo, Martella, Oliviano, Trucco, Alvar, Kweon, Hee-Seok, Di Giandomenico, Daniele, Polishchuk, Roman S., Fusella, Aurora, Lupetti, Pietro, Berger, Eric G., Geerts, Willie J.C., Koster, Abraham J., Burger, Koert N.J., and Luini, Alberto

Subjects

Golgi apparatus -- Physiological aspects, Secretion -- Regulation, G proteins -- Physiological aspects, Biological transport -- Physiological aspects, Biological sciences

Abstract

Procollagen (PC)-I aggregates transit through the Golgi complex without leaving the lumen of Golgi cisternae. Based on this evidence, we have proposed that PC-I is transported across the Golgi stacks by the cisternal maturation process. However, most secretory cargoes are small, freely diffusing proteins, thus raising the issue whether they move by a transport mechanism different than that used by PC-I. To address this question we have developed procedures to compare the transport of a small protein, the G protein of the vesicular stomatitis virus (VSVG), with that of the much larger PC-I aggregates in the same cell. Transport was followed using a combination of video and EM, providing high resolution in time and space. Our results reveal that PC-I aggregates and VSVG move synchronously through the Golgi at indistinguishable rapid rates. Additionally, not only PC-I aggregates (as confirmed by ultrarapid cryofixation), but also VSVG, can traverse the stack without leaving the cisternal lumen and without entering Golgi vesicles in functionally relevant amounts. Our findings indicate that a common mechanism independent of anterograde dissociative carriers is responsible for the traffic of small and large secretory cargo across the Golgi stack.

Published

2001

41. Peri-Golgi vesicles contain retrograde but not anterograde proteins consistent with the cisternal progression model of intra-Golgi transport. (Article)

Author

Martinez-Menarguez, Jose A., Prekeris, Rytis, Oorschot, Viola M.J., Scheller, Richard, Slot, Jan W., Geuze, Hans J., and Klumperman, Judith

Subjects

Golgi apparatus -- Physiological aspects, Biological transport -- Physiological aspects, Protein biosynthesis -- Physiological aspects, Biological sciences

Abstract

A cisternal progression mode of intra-Golgi transport requires that Golgi resident proteins recycle by peri-Golgi vesicles, whereas the alternative model of vesicular transport predicts anterograde cargo proteins to be present in such vesicles. We have used quantitative immuno-EM on NRK cells to distinguish peri-Golgi vesicles from other vesicles in the Golgi region. We found significant levels of the Golgi resident enzyme mannosidase II and the transport machinery proteins giantin, KDEL-receptor, and rBet1 in coatomer protein I-coated cisternal rims and peri-Golgi vesicles. By contrast, when cells expressed vesicular stomatitis virus protein G this anterograde marker was largely absent from the peri-Golgi vesicles. These data suggest a role of peri-Golgi vesicles in recycling of Golgi residents, rather than an important role in anterograde transport.

Published

2001

42. Sorting of Golgi resident proteins into different subpopulations of COPI vesicles: a role for ArfGAP1. (Article)

Author

Lanoix, Joel, Ouwendijk, Joke, Stark, Annika, Szafer, Edith, Cassel, Dan, Dejgaard, Kurt, Weiss, Matthias, and Nilsson, Tommy

Subjects

Golgi apparatus -- Physiological aspects, Protein metabolism -- Physiological aspects, Protein binding -- Physiological aspects, Biological sciences

Abstract

We present evidence for two subpopulations of coatomer protein I vesicles, both containing high amounts of Golgi resident proteins but only minor amounts of anterograde cargo. Early Golgi proteins p24 [[alpha].sub.2], [[beta].sub.1] [[delta].sub.1], and [[gamma].sub.3] are shown to be sorted together into vesicles that are distinct from those containing mannosidase II, a glycosidase of the medial Golgi stack, and GS28, a SNARE protein of the Golgi stack. Sorting into each vesicle population is Arf-1 and GTP hydrolysis dependent and is inhibited by aluminum and beryllium fluoride. Using synthetic peptides, we find that the cytoplasmic domain of p24 [[beta].sub.1] can bind Arf GTPase-activating protein (GAP)1 and cause direct inhibition of ArfGAP1-mediated GTP hydrolysis on Arf-1 bound to liposomes and Golgi membranes. We propose a two-stage reaction to explain how GTP hydrolysis constitutes a prerequisite for sorting of resident proteins, yet becomes inhibited in their presence.

Published

2001

43. G[alpha]i3 binding to calnuc on Golgi membranes in living cells monitored by fluorescence resonance energy transfer of green fluorescent protein fusion proteins

Author

Weiss, Thomas S., Chamberlain, Chester E., Takeda, Tetsuro, Lin, Ping, Hahn, Klaus M., and Farquhar, Marilyn Gist

Subjects

Golgi apparatus -- Physiological aspects, Cell research -- Analysis, Plasma membranes -- Physiological aspects, Science and technology

Abstract

G[alpha]i3 is found both on the plasma membrane and on Golgi membranes. Calnuc, an EF hand protein, binds both G[alpha]i3 and [Ca.sup.2+] and is found both in the Golgi lumen and in the cytoplasm. To investigate whether G[alpha]i3 binds calnuc in living cells and where this interaction takes place we performed fluorescence resonance energy transfer (FRET) analysis between G[alpha]i3 and calnuc in COS-7 cells expressing G[alpha]i3-yellow fluorescent protein (YFP) and calnuccyan fluorescent protein (CFP). The tagged proteins have the same localization as the endogenous, nontagged proteins. When G[alpha]i3YFP and calnuc-CFP are coexpressed, a FRET signal is detected in the Golgi region, but no FRET signal is detected on the plasma membrane. FRET is also seen within the Golgi region when G[alpha]i3 is coexpressed with cytosolic calnuc([DELTA]N2-25)-CFP lacking its signal sequence. No FRET signal is detected when G[alpha]i3([DELTA]C12)-YFP lacking the calnuc-binding region is coexpressed with calnuc-CFP or when G[alpha]i3-YFP and calnuc([DELTA]EF-1,2)-CFP, which is unable to bind G[alpha]i3, are coexpressed. G[alpha]i3(G2AC3A)-YFP lacking its lipid anchors is localized in the cytoplasm, and no FRET signal is detected when it is coexpressed with wild-type calnuc-CFP. These results indicate that cytosolic calnuc binds to G[alpha]i3 on Golgi membranes in living cells and that G[alpha]i3 must be anchored to the cytosolic surface of Golgi membranes via lipid anchors for the interaction to occur. Calnuc has the properties of a [Ca.sup.2+] sensor protein capable of binding to and potentially regulating interactions of G[alpha]i3 on Golgi membranes.

Published

2001

44. Oligomeric structure of virion-associated and soluble forms of the simian immunodeficiency virus envelope protein in the prefusion activated conformation

Author

Center, Rob J., Schuck, Peter, Leapman, Richard D., Arthur, Larry O., Earl, Patricia L., Moss, Bernard, and Lebowitz, Jacob

Subjects

Simian immunodeficiency virus -- Physiological aspects, HIV (Viruses) -- Physiological aspects, Golgi apparatus -- Physiological aspects, Cell research -- Analysis, Science and technology

Abstract

The envelope proteins (env) of simian immunodeficiency virus (SIV) and HIV type 1 assemble to form noncovalently associated oligomers in the endoplasmic reticulum. After cleavage in a Golgi compartment, oligomeric env complexes are transported to the surface of infected cells, where incorporation into budding virions can occur. Difficulties in obtaining adequate quantities of virions retaining env, as well as the unstable nature and hydrophobicity of the oligomer, may account for the absence of previous biophysical studies to determine the oligomeric valency of membrane-associated env. The aim of this study was to evaluate the oligomeric state of SIV env before membrane-fusion activation. Virion-associated env, obtained by crosslinking and detergent extraction, and non-crosslinked secreted env ectodomain (recombinant gp140) were purified by lentil-lectin chromatography and gel filtration as single predominant species. Sedimentation equilibrium-derived mass values for both forms of SIV env were close to those predicted for trimeric assemblies. Determination of the mass of individual molecules by scanning transmission electron microscopy confirmed that SIV virion-associated env and gp140 formed largely homogeneous populations of trimers. Furthermore, a triangular or tri-lobed morphology was clearly visualized in a subset of the trimers.

Published

2001

45. Inhibition of CMP-sialic acid transport into golgi vesicles by nucleoside monophosphates

Author

Chiaramonte, Molly, Koviach, Jennifer L., Moore, Chad, Iyer, Vidhya V., Wagner, Carston R., Halcomb, Randall L., Miller, Wayne, Melancon, Paul, and Kuchta, Robert D.

Subjects

Golgi apparatus -- Physiological aspects, Sialic acids -- Physiological aspects, Biological transport -- Physiological aspects, Structure-activity relationships (Biochemistry) -- Analysis, Biological sciences, Chemistry

Abstract

Results reveal that the CMP-sialic acid transporter mediates transport of a variety of nucleotide monophosphates. For sugar transport, the protein requires a complete ribose ring for binding. Addition of a methyl group to N3 markedly reduces binding, suggesting that the binding inhibition is due to stearic hindrance.

Published

2001

46. Alzheimer's [beta]-secretase, [beta]-site amyloid precursor protein-cleaving enzyme, is responsible for cleavage secretion of a Golgi-resident sialyltransferase

Author

Kitazume, Shinobu, Tachida, Yuriko, Oka, Ritsuko, Shirotani, Keiro, Saido, Takaomi C., and Hashimoto, Yasuhiro

Subjects

Alzheimer's disease -- Development and progression, Amyloid beta-protein -- Physiological aspects, Golgi apparatus -- Physiological aspects, Science and technology

Abstract

The deposition of amyloid [beta]-peptide (A[beta]) in the brain is closely associated with the development of Alzheimer's disease. A[beta] is generated from the amyloid precursor protein (APP) by sequential action of [beta]-secretase (BACE1) and [gamma]-secretase. Although BACE1 is distributed among various other tissues, its physiological substrates other than APP have yet to be identified. ST6Gal I is a sialyltransferase that produces a sialyl[alpha]2,6galactose residue, and the enzyme is secreted out of the cell after proteolytic cleavage. We report here that BACE1 is involved in the proteolytic cleavage of ST6Gal I, on the basis of the following observations. ST6Gal I was colocalized with BACE1 in the Golgi apparatus by immunofluorescence microscopy, suggesting that BACE1 acts on ST6Gal I within the same intracellular compartment. When BACE1 was overexpressed with ST6Gal I in COS cells, the secretion of ST6Gal I markedly increased. When APPsw (Swedish familial Alzheimer's disease mutation), a preferable substrate for BACE1, was coexpressed with ST6Gal I in COS cells, the secretion of ST6Gal I significantly decreased, suggesting that that the [beta]-cleavage of overexpressed APPsw competes with ST6Gal I processing. In addition, BACE1-Fc (Fc, the hinge and constant region of IgG) chimera cleaved protein A-ST6Gal I fusion protein in vitro. Thus, we conclude that BACE1 is responsible for the cleavage and secretion of ST6Gal I.

Published

2001

47. Maintenance of Golgi structure and function depends on the integrity of ER export. (Article)

Author

Ward, Theresa H., Polishchuk, Roman S., Caplan, Steve, Hirschberg, Koret, and Lippincott-Schwartz, Jennifer

Subjects

Cytochemistry -- Reports, Golgi apparatus -- Physiological aspects, Endoplasmic reticulum -- Physiological aspects, Biological sciences

Abstract

The Golgi apparatus comprises an enormous array of components that generate its unique architecture and function within cells. Here, we use quantitative fluorescence imaging techniques and ultrastructural analysis to address whether the Golgi apparatus is a steady-state or a stable organelle. We found that all classes of Golgi components are dynamically associated with this organelle, contrary to the prediction of the stable organelle model. Enzymes and recycling components are continuously exiting and reentering the Golgi apparatus by membrane trafficking pathways to and from the ER, whereas Golgi matrix proteins and coatomer undergo constant, rapid exchange between membrane and cytoplasm. When ER to Golgi transport is inhibited without disrupting COPII-dependent ER export machinery (by brefeldin A treatment or expression of Arf1 [T31N]), the Golgi structure disassembles, leaving no residual Golgi membranes. Rather, all Golgi components redistribute into the ER, the cytoplasm, or to ER exit sites still active for recruitment of selective membrane-bound and peripherally associated cargos. A similar phenomenon is induced by the constitutively active Sar1 [H79G] mutant, which has the additional effect of causing COPII-associated membranes to cluster to a juxtanuclear region. In cells expressing Sar1 [T39N], a constitutively inactive form of Sar1 that completely disrupts ER exit sites, Golgi glycosylation enzymes, matrix, and itinerant proteins all redistribute to the ER. These results argue against the hypothesis that the Golgi apparatus contains stable components that can serve as a template for its biogenesis. Instead, they suggest that the Golgi complex is a dynamic, steady-state system, whose membranes can be nucleated and are maintained by the activities of the Sar1--COPII and Arf1--coatomer systems.

Published

2001

48. Glycosphingolipids are required for sorting melanosomal proteins in the Golgi complex. (Article)

Author

Sprong, Hein, Degroote, Sophie, Claessens, Tijs, van Drunen, Judith, Oorschot, Viola, Westerink, Ben H.C., Hirabayashi, Yoshio, Klumperman, Judith, van der Sluijs, Peter, and van Meer, Gerrit

Subjects

Cytochemistry -- Research, Golgi apparatus -- Physiological aspects, Biological transport -- Physiological aspects, Melanin -- Physiological aspects, Cells -- Permeability, Sphingolipids -- Physiological aspects, Biological sciences

Abstract

Although glycosphingolipids are ubiquitously expressed and essential for multicellular organisms, surprisingly little is known about their intracellular functions. To explore the role of glycosphingolipids in membrane transport, we used the glycosphingolipid-deficient GM95 mouse melanoma cell line. We found that GM95 cells do not make melanin pigment because tyrosinase, the first and rate-limiting enzyme in melanin synthesis, was not targeted to melanosomes but accumulated in the Golgi complex. However, tyrosinase-related protein 1 still reached melanosomal structures via the plasma membrane instead of the direct pathway from the Golgi. Delivery of lysosomal enzymes from the Golgi complex to endosomes was normal, suggesting that this pathway is not affected by the absence of glycosphingolipids. Loss of pigmentation was due to tyrosinase mislocalization, since transfection of tyrosinase with an extended transmembrane domain, which bypassed the transport block, restored pigmentation. Transfection of ceramide glucosyltransferase or addition of glucosylsphingosine restored tyrosinase transport and pigmentation. We conclude that protein transport from Golgi to melanosomes via the direct pathway requires glycosphingolipids.

Published

2001

49. Distinct retrieval and retention mechanisms are required for the quality control of endoplasmic reticulum protein folding. (Article)

Author

Vashist, Shilpa, Kim, Woong, Belden, William J., Spear, Eric D., Barlowe, Charles, and Ng, Davis T.W.

Subjects

Cell research -- Reports, Endoplasmic reticulum -- Physiological aspects, Protein folding -- Genetic aspects, Golgi apparatus -- Physiological aspects, Biological sciences

Abstract

Proteins destined for the secretory pathway must first fold and assemble in the lumen of endoplasmic reticulum (ER). The pathway maintains a quality control mechanism to assure that aberrantly processed proteins are not delivered to their sites of function. As part of this mechanism, misfolded proteins are returned to the cytosol via the ER protein translocation pore where they are ubiquitinated and degraded by the 26S proteasome. Previously, little was known regarding the recognition and targeting of proteins before degradation. By tracking the fate of several mutant proteins subject to quality control, we demonstrate the existence of two distinct sorting mechanisms. In the ER, substrates are either sorted for retention in the ER or are transported to the Golgi apparatus via COPII--coated vesicles. Proteins transported to the Golgi are retrieved to the ER via the retrograde transport system. Ultimately, both retained and retrieved proteins converge at a common machinery at the ER for degradation. Furthermore, we report the identification of a gene playing a novel role specific to the retrieval pathway. The gene, BST1, is required for the transport of misfolded proteins to the Golgi, although dispensable for the transport of many normal cargo proteins.

Published

2001

50. Intracellular cycling of lysosomal enzyme receptors: cytoplasmic tails' tales

Author

Dell'Angelica, Esteban C. and Payne, Gregory S.

Subjects

Biological transport -- Physiological aspects, Lysosomes -- Physiological aspects, Enzymes -- Regulation, Golgi apparatus -- Physiological aspects, Biological sciences

Abstract

This review elucidates the function of the transmembrane receptor cytoplasmic domain (tail)-binding proteins such as Adaptor Protein, Golgi localized gama-adaptin, and other tail binding proteins in sorting lysosomal enzyme receptors in mammalian and yeast cells.

Published

2001