Transitional endoplasmic reticulum membranes and vesicles isolated from animals and plants

Summary The process of formation from endoplasmic reticulum and transfer to Golgi apparatus of small 50–70 nm transition vesicles has been reconstituted in a cell-free system. Fractions enriched in transition elements derived from part-rough, part-smooth transitional regions of the endoplasmic reticulum were prepared from elongation zones of hypocotyls of etiolated seedlings of soybean and coleoptiles of maize and were compared with those from rat liver. When activated with nucleoside triphosphate, cytosol and an ATP regenerating system, time- and temperature-dependent transfer of membranes to Golgi apparatus acceptor was demonstrated. The fractions enriched in transition elements were radioiodinated with¹²⁵I by the Bolton-Hunter procedure. Acceptor Golgi apparatus stacks were immobilized to nitrocellulose strips to facilitate analysis. In heterologous transfer experiments, the plant and animal acceptors and donors could be interchanged. The transfer was limited primarily by the donor (rat liver > soybean hypocotyl > maize coleoptiles) and determined secondarily by the source of the acceptor. The acceptor fractions were most efficacious when prepared from the same source as the donor. Thus, 50–70 nm vesicles bud from transitional endoplasmic reticulum elements of plants function in a manner similar to those of animal cells to transfer membrane materials to the Golgi apparatus. The recognition signals that determine vesicle fusion appear to be conserved both among species and between the plant and animal kingdoms to the extent that donor and acceptor sources may be interchanged with only small reductions in overall efficiency of transfer.Abbrevations HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - EDTA ethylenediaminetetraacetic acid     

Golgi apparatus isolation and use in cell-free systems

Summary Recent advances in understanding the molecular mechanisms of membrane traffic to and through the Golgi apparatus have been predicated in large measure on the use of permeabilized animal cells, and on completely cell-free systems. These systems have included those addressing inter-Golgi apparatus membrane traffic, endoplasmic reticulum to Golgi apparatus traffic, and endocytotic events. Development of cell-free systems depends on the use of isolated fractions. Specificity is often achieved by using a compartment-specific assay so that the fractions employed can be very crude. More recently cell-free systems also have evolved which employ highly purified and well-characterized cell fractions. The latter may be utilized in the absence of a compartment-specific assay but may require employment of compartment-specific assays for validation. Central to development of cell-free systems for membrane analysis has been the availability of isolated Golgi apparatus, first from plants and later from animal tissues and cells. A major advantage of cell-free systems is that they are most clearly amenable to the investigation of molecular mechanisms of membrane trafficking.Dedicated to Hilton H. Mollenhauer on the occasion of his retirement     

Soluble and membrane-associated heat shock proteins in soybean root

Summary Localization of heat shock proteins (Hsp) in endomembranes and determination of whether they are integral or peripheral membrane proteins will aid in understanding the physiological function of the heat shock response. Radiolabeled endomembranes (endoplasmic reticulum, Golgi, and plasma membrane), obtained by sucrose gradient centrifugation of heat-shocked soybean (Glycine max L.) root tissue were solubilized and the polypeptides separated by two-dimensional IEF-SDS-PAGE. Autoradiography revealed three groups of Hsp. A diverse group fo 25 low mol wt Hsp (18 to 24 kDa) with isoelectric point (pI) between 5 and 7; an intermediate mol wt group (30 to 47 kDa) with pI of 5.5 to 6.0; and a group of two high mol wt Hsp (75 to 80 kDa) with pI 4.8 to 5.2. The plasma membrane fraction lacked the Hsp pair of 47 kDa detected in the endoplasmic reticulum and Golgi fractions but possessed a unique Hsp of 30 kDa, pI 5.5.Comparison of soluble and microsome fractions revealed a difference in the pattern of the low mol wt Hsp class. The soluble fraction contained Hsp of 16–20 kDa with pI between 5 and 7.8 while the microsome fraction was characterized by Hsp of 18–24 kDa with pI between 5.8 and 6.5.The microsomal Hsp were not released by 1 M KCl. Treatment of the microsome fraction with Triton X-100 selectively released several Hsp, and Na₂CO₃ treatment removed additional Hsp from the membrane fraction.Abbreviations Hsp heat-shock protein(s) - GA Golgi apparatus - PM plasma membrane - 2 D two-dimensional     

Lipid rafts,microdomain heterogeneity and inter‐organelle contacts: Impacts on membrane preparation for proteomic studies

In recent years, there has been considerable interest in mapping the protein content of isolated organelles using mass spectrometry. However, many subcellular compartments are highly dynamic with diverse and intricate architectures that are not always preserved during membrane isolation procedures. Furthermore, lateral heterogeneities in intra‐membrane lipid and protein concentrations underlie the formation of membrane microdomains, trafficking vesicles and inter‐membrane contacts. These complexities in membrane organisation have important consequences for the design of membrane preparation strategies and test the very concept of organelle purity. We illustrate how some of these biological considerations are relevant to membrane preparation and assess the numerous potential pitfalls in attempting to purify organelles from mammalian cells.     

Fractionation of suspension cultures of wild carrot and kinetics of membrane labeling

Summary Wild carrot (Daucus carota L.) cells, grown in suspension culture, were labeled with radioactive precursors and fractionated into constituent membranes to be analyzed for specific radioactivity. Results show rapid incorporation of [³H] leucine into endoplasmic reticulum (ER)-, Golgi apparatus-, and plasma membrane/tonoplast-enriched fractions. The time lag between incorporation into ER and its appearance in Golgi apparatus or plasma membrane/tonoplast were less than 5 minutes. With an average time of 3–4 minutes for cisternal formation estimated from studies with monensin, and an average of 5 cisternae per dictyosome (total transit time of 15–20 minutes), it was not possible to account for early incorporation of radioactivity into plasma membranes by passage of proteins from ER to plasma membrane via the Golgi apparatus. To account for the findings, it would appear that at least some proteins were delivered to the plasma membrane via the first membranes that exited (i.e., mature face vesicles) from the Golgi apparatus post-pulse and that some of these proteins had been translated and inserted into membranes at or near the mature face of the Golgi apparatus.     

Aspects of morphogenesis and function of diatom cell walls with implications for taxonomy

Summary Aspects of morphogenesis and morphology of diatom cell walls are reviewed to highlight functional correlations between wall structures and three-dimensional cytoplasmic activities during the cell cycle. Morphogenesis of the siliceous valve within the silica deposition vesicle is discussed in the light of the dependency on a precisely orchestrated moulding machinery, involving the cytoskeleton, mitochondria, endoplasmic reticulum, spacer vesicles produced by the Golgi apparatus, and the plasmalemma, in combination with adhesion of the cells to parts of the parental wall and localized plasmolyses. Sensitivity of morphogenetic events to fluctuations of external factors has implications for taxonomy.Abbreviations CF cleavage furrows - cPL cleavage plasmalemma - GB girdle bands - LP labiate process - LPA labiate process apparatus - MC microtubule center - mLP macro labiate process - MT microtubule - MTOC microtubules organizing center - PL plasmalemma - SDV silica deposition vesicle - SL SDV membrane - SpV spacer vesicles Dedicated to Professor Peter Sitte on the occasion of his 65th birthday     

Cell-free transfer of sterols from dictyosome-like structures to plasma membrane vesicles of guinea pig testes

Summary Transfer of radiolabeled lipids from dictyosome-like structures (DLS) from testis tubules of the guinea pig as donor to unlabeled plasma membrane from testis tubules immobilized on nitrocellulose as acceptor was studied in a completely cell-free system. As a general label for lipids of the donor DLS, isolated testis tubules were incubated with [¹⁴C]acetate. Time- and temperature-dependent transfer of [¹⁴C]acetate labeled constituents was observed in the cellfree system. However, despite the fact that phospholipids and other constituents were highly labeled in the donor fraction, primarily radioactive sterols were transferred to the plasma membrane acceptor vesicles. Transfer at 37°C represented 0.4 to 0.7% of the total radiolabeled cholesterol at 37°C but little or no transfer occurred at 4°C. The sterols transferred exhibited Chromatographic mobilities corresponding to those of cholesterol and lanosterol. Similar results were obtained with [¹⁴C]mevalonic acid. In subsequent experiments, cholesterol transfer from DLS to plasma membrane was demonstrated by incubation of DLS with [³H]squalene which was converted into sterol or with [¹⁴C]cholesterol. Transfer of sterols required ATP, but not cytosol, and was both time- and temperature-dependent. DLS were more effective than either endoplasmic reticulum or plasma membrane as the donor fraction. The results from the cell-free analysis suggest a possible functional role of the DLS in sterol biogenesis and transfer to the plasma membrane during spermatid development.Abbreviations DLS dictyosome-like structure(s) - PBS phosphatebuffered saline - HEPES 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid - BSA bovine serum albumin     

Localization of ATPase in the endoplasmic reticulum and golgi apparatus of barley aleurone

Summary The cytochemical localization of adenosine triphosphatase (ATPase) was studied in the aleurone layer of barley (Hordeum vulgare L. cv. Himalaya). Isolated barley aleurone layers secrete numerous enzymes having acid phosphatase activity, including ATPase. The secretion of these enzymes was stimulated by incubation of the aleurone layer in gibberellic acid (GA₃). ATPase was localized using the metal-salt method in tissue incubated in CaCl₂ with and without GA₃. In sections of tissue incubated without GA₃, cytochemical staining was confined to a narrow band of cytoplasm adjacent to the starchy endosperm and to the cell wall of the innermost tier of aleurone cells. Cytochemical staining was absent from the organelles of tissues not treated with GA₃. In tissue incubated in the presence of GA₃, cytochemical staining was evident throughout the cytoplasm and cell walls of the tissue. In the cell wall, electron-dense deposits were found only in digested channels. The cell-wall matrix of GA₃-treated aleurone did not stain, indicating that it does not permit diffusion of enzyme. In the cytoplasm of GA₃-treated aleurone, all organelles except microbodies, plastids, and spherosomes stained for ATPase activity; endoplasmic reticulum (ER), Golgi apparatus, and mitochondria showed intense deposits of stain. The ER of the aleurone is a complex system made up of flattened sheets of membrane, which may be associated with both the Golgi apparatus and the plasma membrane. The dictyosome did not stain uniformly for ATPase activity; rather there was a gradation in staining of the cisternae from thecis (lightly stained) to thetrans (heavily stained) face. Vesicles associated with dictyosome cisternae also stained intensely as did the protein bodies of GA₃-treated aleurone cells.     

Isopycnic-zonal centrifugation of plasma membrane,sarcoplasmic reticular fragments,lysosomes, and cytoplasmic proteins from phasic skeletal muscle

Homogenates of the posterior latissimus dorsi muscle, a phasic muscle, were fractionated by a one-step zonal centrifugation technique into four major organelle populations and cytoplasmic constituents. These were: (1) Plasma membrane fragments with a modal equilibrium density of 1.10 and containing 5′-nucleotidase, alkaline phosphodiesterase, $\text{p-}\text{nitrophenylphosphatase}$ and acid phosphatase (β-glycerophosphate was used as the substrate). (2) Sarcoplasmic reticular fragments which could be further subdivided into calcium transport vesicles, with a modal equilibrium density of 1.16, that exhibited calcium uptake; K⁺-ATPase; leucyl-β-naphthylamidase; acid phosphodiesterase; acid phosphatase (using cytidine monophosphate as the substrate); and sarcoplasmic reticular lysosomes, with a modal equilibrium density of 1.18, possessing dipeptidyl-aminopeptidase II, cathepsin D, α-glucosidase, $\text{N-}\text{acetyl}\text{-β-}\text{glucosaminidase}$, and NADH oxidase activity. (3) Mitochondria with a modal equilibrium density of 1.21. (4) Catalase-containing vesicles with a modal equilibrium density of 1.22; and cytoplasmic constituents (modal density of 1.25) with phosphorylase, pyruvate kinase, myosin-ATPase, aldolase, and protein and RNA content. The purity of these organelles was equal to or better than previous efforts, with a 30-fold purification achieved for 5′-nucleotidase and alkaline phosphodiesterase. These results lend support to the hypothesis that the sarcoplasmic reticulum of phasic muscle, in addition to its specialized role in excitation-contraction coupling, represents a multifunctional membrane system, and that, similar to the smooth endoplasmic reticulum of other cells, it includes some membrane-bound lysosomal enzymes and NADH oxidase.     

Reticulon 3 is involved in membrane trafficking between the endoplasmic reticulum and Golgi

Reticulons (RTNs) constitute a family of endoplasmic reticulum (ER)-associated proteins with a reticular distribution. Despite the implication of their neuronal isoforms in axonal regeneration, the function of their widely expressed isoforms is largely unknown. In this study, we examined the role of the ubiquitously expressed RTN3 in membrane trafficking. Ectopically expressed RTN3 exhibited heterogeneous patterns; filamentous, reticular, and granular distributions. The ER morphology changed accordingly. In cells where RTN3 displayed a filamentous/reticular distribution, protein transport between the ER and Golgi was blocked, and Golgi proteins were dispersed. In contrast, ERGIC-53, a marker for the ER-Golgi intermediate compartment, accumulated at the perinuclear region, and remained there even after cells were treated with agents that induce redistribution of Golgi proteins to the ER, indicating an inhibition of Golgi-to-ER transport of ERGIC-53. These results suggest that RTN3 plays a role in membrane trafficking in the early secretory pathway.     

Plant Sar1 isoforms with near-identical protein sequences exhibit different localisations and effects on secretion

In plants, differentiation of subdomains of the endoplasmic reticulum (ER) dedicated to protein export, the ER export sites (ERES), is influenced by the type of export-competent membrane cargo to be delivered to the Golgi. This raises a fundamental biological question: is the formation of transport intermediates at the ER for trafficking to the Golgi always regulated in the same manner? To test this, we followed the distribution and activity of two plant Sar1 isoforms. Sar1 is the small GTPase that regulates assembly of COPII (coat protein complex II) on carriers that transport secretory cargo from ER to Golgi. We show that, in contrast to a tobacco Sar1 isoform, the two Arabidopsis Sar1 GTPases were localised at ERES, independently of co-expression of Golgi-destined membrane cargo in tobacco cells. Although both isoforms labelled ERES, one was found to partition with the membrane fraction to a greater extent. The different distribution of fluorescent fusions of the two isoforms was influenced by the nature of an amino acid residue at the C-terminus of the protein, suggesting that the requirements for membrane association of the two GTPases are not equal. Furthermore, functional analyses based on the secretion of the bulk flow marker α-amylase indicated that over-expression of GTP-restricted mutants of the two isoforms caused different levels of ER export inhibition. These novel results indicate a functional heterogeneity among plant Sar1 isoforms.     

Effects of nocodazole and brefeldin A on microtubule cytoskeleton and membrane organization in the homobasidiomyceteSchizophyllum commune

Summary The effects of nocodazole and brefeldin A (BFA) on the growth of dikaryotic hyphae inSchizophyllum commune corresponded with the development of abnormal structures in the apical region of treated hyphae. Microtubules (MTs) were totally depolymerized after 1 h nocodazole treatment, which correlated with strong branch formation in the apical cells. One reason for branching could be the shift in the position of apical vesicles from the center to the side of the tip, observed in some nocodazole-treated hyphae. After 2 h growth in the presence of nocodazole the apical cells had malformed or swollen tips, or tips of normal shape but containing only a few apical vesicles. After 0.5 h treatment with BFA, almost all the leading hyphae had swollen apical parts in which the endoplasmic reticulum (ER) formed an interconnected network and perturbed Golgi particles were found. The orientation of MTs in the BFA-treated hyphae often followed that of the interconnected ER network, which suggested an association between MTs and ER. The results of the experiments with nocodazole suggest that, in filamentous homobasidiomycetes the subtle organization of cytoplasm necessary for the polar growth at the apex is maintained only in the presence of an intact MT cytoskeleton. The BFA experiments indicated that the secretion pathway inS. commune is sensitive to BFA. In addition rapid change in apical morphology in the BFA-treated hyphae emphasizes the importance of correct orientation of components of the secretory pathway for normal apical growth to continue.Abbreviations BFA brefeldin A - EM electron microscopy - ER endoplasmic reticulum - IIF indirect immunofluorescence - MBC methylbenzimidazole-2-ylcarbamate - MT microtubule - MVB multivesicular body - RER rough endoplasmic reticulum     

Membrane flow in plants: Fractionation of growing pollen tubes of tobacco by preparative free-flow electrophoresis and kinetics of labeling of endoplasmic reticulum and golgi apparatus with [3H]leucine

Summary Tobacco (Nicotiana tabacum L.) pollen, germinated 4 hours in suspension culture, was labeled with radioactive leucine and fractionated into constituent membranes by the technique of preparative free-flow electrophoresis. Tubes were ruptured by sonication directly into the electrophoresis buffer. Unfortunately, the Golgi apparatus of the rapidly elongating pollen tubes did not survive the sonication step. However, it was possible to obtain useful fractions of endoplasmic reticulum and mitochondria. To obtain Golgi apparatus, glutaraldehyde was added to the homogenization buffer during sonication. Plasma membrane, which accounted for only about 3% of the total membrane of the homogenates as determined by staining with phosphotungstate at low pH, was obtained in insufficient quantity and fraction purity to permit analysis. Results show rapid incorporation of [³H]leucine into endoplasmic reticulum followed by rapid chase out. The half-time for loss of radioactivity from the pollen tube endoplasmic reticulum was about 10 minutes. Concomitant with the loss of radioactivity from endoplasmic reticulum, the Golgi apparatus fraction was labeled reaching a maximum 20 minutes post chase. The findings suggest flow of membranes from endoplasmic reticulum to the Golgi apparatus during pollen tube growth.     

Membrane flow in plants: preparation and kinetics of labelling of plasma membranes from growing pollen tubes of tobacco

Summary Growing pollen tubes of tobacco germinated in suspension culture, were labelled with [³H]leucine and after varying times of chase with unlabelled leucine at 23, 16, or 4°C, were separated into plasma membrane-enriched and plasma membrane-depleted fractions by aqueous two-phase partition. At 23°C, the specific radioactivity of the plasma membrane increased with time to a maximum at 60 min. At 16°C and 4°C, labelling of the plasma membrane was respectively 40% and 10% that at 23°C. However, if labelling was at 23°C and subsequent transfer was at 4°C, plasma membrane labelling was much less affected and labelling of the plasma membrane was 60% that at 23°C. Additionally, quantitation of various morphological parameters revealed no accumulations of 50–70 nm transition vesicles in the space between endoplasmic reticulum and cis Golgi apparatus that might suggest formation of a low temperature compartment similar to those described for mammalian cells and tissues. Similarly, growth of pollen tubes was reduced but not blocked even at temperatures of 12°C. The results suggest that tube elongation is accompanied by a steady state flow of membranes to the cell surface that is relatively insensitive to interruption by low temperatures. Whereas leucine incorporation is reduced by low temperature even at 16°C, the flow pathway to the cell surface, including the endoplasmic reticulum to Golgi apparatus transfer step, as well as elongation growth does not exhibit a pronounced low temperature block in this tip growing system.     

Membrane traffic from the endoplasmic reticulum to the Golgi apparatus is disturbed by an inhibitor of the Ca2+-ATPase in the ER

Summary An electron microscopic study of cress (Lepidium sativum L.) roots treated with cyclopiazonic acid (CPA), an inhibitor of the Ca²⁺-ATPase in the endoplasmic reticulum (ER) has been carried out. Drastic changes in the endomembrane system of the secretory root cap cells were observed. After treatment with CPA dense spherical or elliptoidal aggregates of ER (diameter 2–4 m) were formed in addition to the randomly distributed ER cisternae characteristic for control cells. The formation of ER aggregates indicates that in spite of an inhibition of the Ca²⁺ -ATPase in the ER by CPA, membrane synthesis in the ER continued. The ER aggregates are interpreted as a reservoir of ER membrane material newly synthesized during the 2 h CPA-treatment. Hypertrophied Golgi cisternae and secretory vesicles, which are characteristic for secretory cells under control conditions, were completely absent. Additionally the shape of the Golgi stacks was flat and the diameter of the cisternae was shortened by about one third. These phenomena are indicative of an inactive state of the Golgi apparatus. The cellular organization of both other cell types of the root cap, meristematic cells and statocytes, was not visibly affected by CPA, both having a relatively low secretory activity. The formation of ER aggregates as well as the reduction of Golgi compartments are indications for the existence of a unidirectional transport of membrane material from the ER to the Golgi. It is suggested that the membrane traffic from the ER to the Golgi apparatus is regulated by the cytosolic and/or luminal calcium concentration in secretory cells of the root cap.Abbreviations CPA cyclopiazonic acid - ER endoplasmic reticulum     

Intracellular sorting and transport of proteins

The secretory and endocytic pathways of eukaryotic organelles consist of multiple compartments, each with a unique set of proteins and lipids. Specific transport mechanisms are required to direct molecules to defined locations and to ensure that the identity, and hence function, of individual compartments are maintained. The localisation of proteins to specific membranes is complex and involves multiple interactions. The recent dramatic advances in understanding the molecular mechanisms of membrane transport has been due to the application of a multi-disciplinary approach, integrating membrane biology, genetics, imaging, protein and lipid biochemistry and structural biology. The aim of this review is to summarise the general principles of protein sorting in the secretory and endocytic pathways and to highlight the dynamic nature of these processes. The molecular mechanisms involved in this transport along the secretory and endocytic pathways are discussed along with the signals responsible for targeting proteins to different intracellular locations.     

Correlation of Golgi localization of ZW10 and centrosomal accumulation of dynactin

ZW10 participates in the termination of the spindle checkpoint during mitosis by interacting with dynamitin, a subunit of the dynein accessory complex dynactin. We previously showed that ZW10 is attached to the endoplasmic reticulum through RINT-1 in interphase HeLa cells and involved in membrane transport between the endoplasmic reticulum and Golgi. Although a recent study demonstrated that ZW10 is localized in the Golgi in COS7 cells, the mechanism that regulates ZW10 localization remains unknown. In this study we showed a correlation between the Golgi localization of ZW10 and the centrosomal accumulation of dynactin. The amounts of ZW10 associated with dynactin were larger in cells where ZW10 was present in the Golgi than those where ZW10 was not in the Golgi. The targeting of ZW10 to the perinuclear Golgi region was found to depend on the perinuclear accumulation of dynactin, suggesting that dynactin regulates ZW10 localization.     

Transport of virally expressed green fluorescent protein through the secretory pathway in tobacco leaves is inhibited by cold shock and brefeldin A

Potato virus X (PVX) has been used as an expression vector to target the green fluorescent protein (GFP) from the jellyfish Aequorea victoria to the endoplasmic reticulum (ER) of tobacco (Nicotiana clevelandii L.) leaves. Expression of free GFP resulted in strong cytoplasmic fluorescence with organelles being imaged in negative contrast. Translocation of GFP into the lumen of the ER was mediated by the use of the sporamin signal peptide. Retention of GFP in the ER was facilitated by the splicing of the ER retrieval/retention tetrapeptide, KDEL to the carboxy terminus of GFP. Fluorescence of GFP was restricted to a labile cortical network of ER tubules with occasional small lamellae and to streaming trans-vacuolar strands. Secretion of ER-targeted GFP was inhibited both by cold shock and low concentrations of the secretory inhibitor brefeldin A. However, both prolonged cold and prolonged incubation in brefeldin A resulted in the recovery of secretory capability. In leaves infected with the GFP-KDEL construct, high concentrations of brefeldin A induced the tubular network of cortical ER to transform into large lamellae or sheets which reverted to the tubular network on removal of the drug. Received: 8 October 1998 / Accepted: 16 November 1998