Jaakko Saraste scite author profile

Abstract. The glycoside digitonin was used to selectively permeabilize the plasma membrane exposing functionally and morphologically intact ER and Golgi compartments. Permeabilized cells efficiently transported vesicular stomatitis virus glycoprotein (VSV-G) through sealed, membrane-bound compartments in an ATP and cytosol dependent fashion. Transport was vectorial. VSV-G protein was first transported to punctate structures which colocalized with p58 (a putative marker for peripheral punctate pre-Golgi intermediates and the cis-Golgi network) before delivery to the medial Golgi compartments containing tx-l,2-mannosidase II and processing of VSV-G to endoglycosidase H resistant forms. Exit from the ER was inhibited by an antibody recognizing the carboxyl-terminus of VSV-G. In contrast, VSV-G protein colocalized with p58 in the absence of Ca 2+ or the presence of an antibody which inhibits the transport component NSF (SEC18). These studies demonstrate that digitonin permeabilized cells can be used to efficiently reconstitute the early secretory pathway in vitro, allowing a direct comparison of the morphological and biochemical events involved in vesicular tafficking, and identifying a key role for the p58 containing compartment in ER to Golgi transport.

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Small GTP-binding protein associated with Golgi cisternae

Goud

Zahraoui

Tavitian

et al. 1990

Nature

346

227

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Eukaryotic cells seem to use GTP hydrolysis to regulate vesicular traffic in exocytosis and endocytosis. The best evidence for this comes from studies on the yeast Saccharomyces cerevisiae that have identified two small Ras-related GTP-binding proteins, Sec4p and Ypt1p, which control distinct stages of the secretory pathway. In mammalian cells the effects of a non-hydrolysable GTP analogue, GTP-gamma S, on different transport events have suggested that they also have proteins functionally related to yeast Sec4p and Ypt1p. The rab genes have recently been cloned and sequenced for rat and human and their proteins have highly conserved domains in common with Sec4p and Ypt1p (including a putative effector binding site). They are therefore good candidates for GTP-binding proteins involved in intracellular transport in mammalian cells. One of the Rab proteins (Rab1p) is the mammalian counterpart of Ypt1p (ref. 13). Here we report the localization of the protein Rab6p to the Golgi apparatus in several cell types. By immunolabelling and electron microscopy, Rab6p appears to be concentrated predominantly on the medial and trans cisternae and distributed over their entire surface.

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Rab1 Defines a Novel Pathway Connecting the Pre-Golgi Intermediate Compartment with the Cell Periphery

Sannerud

Marie

Nizak

et al. 2006

MBoC

111

175

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The function of the pre-Golgi intermediate compartment (IC) and its relationship with the endoplasmic reticulum (ER) and Golgi remain only partially understood. Here, we report striking segregation of IC domains in polarized PC12 cells that develop neurite-like processes. Differentiation involves expansion of the IC and movement of Rab1-containing tubules to the growth cones of the neurites, whereas p58- and COPI-positive IC elements, like rough ER and Golgi, remain in the cell body. Exclusion of Rab1 effectors p115 and GM130 from the neurites further indicated that the centrifugal, Rab1-mediated pathway has functions that are not directly related to ER-to-Golgi trafficking. Disassembly of COPI coats did not affect this pathway but resulted in missorting of p58 to the neurites. Live cell imaging showed that green fluorescent protein (GFP)-Rab1A-containing IC elements move bidirectionally both within the neurites and cell bodies, interconnecting different ER exit sites and the cis-Golgi region. Moreover, in nonpolarized cells GFP-Rab1A-positive tubules moved centrifugally towards the cell cortex. Hydroxymethylglutaryl-CoA reductase, the key enzyme of cholesterol biosynthesis, colocalized with slowly sedimenting, Rab1-enriched membranes when the IC subdomains were separated by velocity sedimentation. These results reveal a novel pathway directly connecting the IC with the cell periphery and suggest that this Rab1-mediated pathway is linked to the dynamics of smooth ER.

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Antibodies to rat pancreas Golgi subfractions: identification of a 58-kD cis-Golgi protein.

1987

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Abstract.A 58-kD cis-Golgi protein has been identiffed by generating polyclonal antibodies against heavy (cis) Golgi subfractions. Total microsomes isolated from rat pancreatic homogenates were subfractionated to yield a rough microsomal fraction (B1) and three smooth membrane subfractions (B2-B4) enriched in cis-, middle, and trans-Golgi elements, respectively. The heavy (cis) subfraction, B2 (d --1.17 g/rrd), was fractionated by Triton Xo114 phase separation, and the proteins recovered in the detergent phase were used to immunize rabbits. One of the anti-B2 antibodies obtained gave a "Golgi'-'staining pattern when screened by immunofluorescence on normal rat kidney cells and mouse RPC 5.4 myeloma cells. In rat pancreatic exocrine cells the antibody reacted with the plasmalemma as well as elements in the Golgi region. By immunoelectron microscopy, the antigen recognized by anti-B2 IgG was found to be restricted to cis- T HERE is now widespread agreement that the Golgi complex consists of a series of distinct subcompartments arranged in polarized series (reviewed in reference ll). According to the prevailing stationary cisternae model, each Golgi cisterna or set of cisternae is assumed to represent a separate subcompartment with a distinctive membrane composition. Protein and lipid substrates are assumed to move sequentially across the Golgi stack and to be progressively modified in transit by resident Golgi enzymes. The exact number of Golgi subcompartments is still unknown.Three subcompartments have been defined, cis, middle, and trans, based on the location in Golgi subfractions of early, intermediate, and late-acting Golgi enzyme activities (1, 7, 8, 10, 16), but morphologic and cytochemical findings suggest that there may be many more than three (11, 12). Although many enzyme activities have been ascribed to the Golgi complex, the number of resident Golgi proteins that have been purified and localized in situ is limited to two trans-Golgi markers, galactosyl-(28) and sialyltransferase Here we report that with this strategy we have identified a 58-kD protein that appears to represent a specific marker for the cis-Golgi cisternae. Materials and Methods Materials

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Jaakko Saraste

Pre- and post-golgi vacuoles operate in the transport of semliki forest virus membrane glycoproteins to the cell surface

Morphological analysis of protein transport from the ER to Golgi membranes in digitonin-permeabilized cells: role of the P58 containing compartment.

Small GTP-binding protein associated with Golgi cisternae

Rab1 Defines a Novel Pathway Connecting the Pre-Golgi Intermediate Compartment with the Cell Periphery

Antibodies to rat pancreas Golgi subfractions: identification of a 58-kD cis-Golgi protein.

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