Brefeldin A induces reversible dissociation of the Golgi apparatus in the green algaMicrasterias

Summary The fungal metabolite brefeldin A (BFA) causes inhibition of cell growth inMicrasterias denticulata after 2 h incubation, combined with slight malformation of the cell shape. The BFA effects on cell development are accompanied by a gradual decrease in the number of Golgi cisternae and severe structural and morphological changes of the dictyosomes which are already visible after only 10 min exposure. When the treatment is prolonged the number of dictyosomes is markedly reduced, leading to almost complete loss of Golgi bodies, particularly in the young semicell. Groups of primary wall material-containing vesicles accumulated in areas of former dictyosomes, and previously unknown vesicular bodies are found. Restitution of almost normal dictyosomes occurs within 5 h when the cells are allowed to recover from BFA treatment.Micrasterias cells incubated in BFA at concentrations below 15 M maintain their ability to divide over several generations. Our results indicate that, of the various inhibitors of the secretory pathway tested against growingMicrasterias cells, BFA is the only drug which induces complete and reversible dissociation of dictyosomes in the growing semicell. This allows deductions about the function of the processes targeted by BFA during cell development inMicrasterias.Abbreviations BFA brefeldin A - CPA cyclopiazonic acid - ER endoplasmic reticulum - TM tunicamycin     

Inhibition of Golgi-apparatus function by brefeldin A in maize coleoptiles and its consequences on auxin-mediated growth,cell-wall extensibility and secretion of cell-wall proteins

Brefeldin A (BFA), a fungal metabolite causing dysfunction of the Golgi apparatus in plant and animal cells, was used to investigate the role of secretory processes at the plasma membrane in auxin-mediated elongation growth of maize (Zea mays L.) coleoptiles. In abraded coleoptile segments BFA produced, within less than 30 min, a decrease in the incorporation of [³H]leucine into tightly bound cell-wall proteins, accompanied by an increased incorporation into the intracellular pool of putative cell-wall glycoproteins. Total protein synthesis was not affected. Electron micrographs revealed striking morphological changes in dictyosomes (especially vesiculation of trans-cisternae), accumulation of Golgi vesicles and dilation of the endoplasmic reticulum. These effects are taken as indication that BFA interferes with the secretion of cell-wall components. Elongation growth of coleoptile segments in the presence and absence of auxin was inhibited by 80% in 20 mg·l^–1 BFA. If BFA was applied to segments growing in the presence of auxin, maximum inhibition was reached after about 30 min, indicating that the growth response depends on an uninterrupted supply of a cell-wall or plasma-membrane component (wall-loosening factor) delivered by the secretory pathway. After its secretion, this factor has a rather short growth-effective life time. The inhibition of auxin-mediated growth by BFA was accompanied by an elimination of auxin-induced cell-wall extensibility and by an inhibition of auxin-induced proton excretion. Fusicoccin-induced proton excretion was similarly affected by BFA. It is concluded that both the wall-loosening process underlying elongation growth as well as proton excretion depend on an intact secretory pathway from the Golgi apparatus to the cell wall; however, a causal relationship between these processes is not warranted by the data.Abbreviations BFA brefeldin A - FC fusicoccin - TCA trichloroacetic acid - WLF wall-loosening factor Supported by Deutsche Forschungsgemeinschaft (SFB 206). We thank Ms. B. Huvermann and Mrs. C. Plachy for conducting growth and proton excretion measurements.     

Localized accumulation of cell wall mannoproteins and endomembranes induced by brefeldin A in hyphal cells of the dimorphic yeastCandida albicans

Summary Candida albicans, a dimorphic yeast, has the abililty to switch its growth form between budding growth and hyphal growth. Since fungal growth involves secretory processes, spatial control of secretion should play a crucial role in such a morphogenetic transition. Brefeldin A (BFA), an inhibitor of the membrane trafficking system of eukaryotes, increases the occurrence of Golgi-like cisternae in the yeast. In the present study, BFA was used to obtain further insights into the spatial organization of secretory processes in hyphal growth ofC. albicans. BFA completely inhibited the formation and growth of germ tubes at a concentration of 35 M or higher. Electron microscopy of BFA-untreated germinated cells revealed many vesicles in the apical region and Golgi-like cisternae in the cytoplasm. In cells treated with 35 M BFA, the vesicles disappeared from the apical region, and, instead, stacked membrane cisternae and membrane-enclosed spherical dense bodies accumulated in the subapical region. These accumulated structures were positive for both polysaccharide staining and immunocytochemical staining with antibodies raised against cell surface antigens ofC. albicans, as were Golgi cisternae in BFA-untreated cells. In cells treated with a higher concentration of BFA (140 M), the structures that appeared in cells treated with 35 M BFA were no longer observed and the endoplasmic reticulum was extended and positive for polysaccharide staining. These results suggested that BFA affects different steps of membrane trafficking in a concentration-dependent manner. The accumulated structures induced by 35 M BFA seemed to be the altered forms of Golgi cisternae. Their accumulation in the subapical region of the germ tube might indicate that the step(s) in membrane trafficking that are associated with the Golgi pathway are vectorially organized in hyphal growth ofC. albicans.Abbrevations BFA brefeldin A - BSA bovine serum albumin - CBB Coomassie brilliant blue - Con A concanavalin A - HRP horseradish peroxidase     

Intracellular transport,organelle biogenesis and establishment of golgi identity: Impact of brefeldin a on the activity of lipid synthesizing enzymes

• 1.1. The effect of brefeldin A (BFA) on generation of transport vesicles, synthesis of phospho-glycerides, sphingosine and ceramides, and utilization of the sphingolipid precursors in the formation of sphingomyelin and glycosphingolipids in Golgi was investigated.
• 2.2. In the presence of 5–10 gmg/ml BFA, the incorporation of [³H]palmitate into glycerides, phosphoglycerides and sphingolipids decreased 45–60%, and the production of endoplasmic reticulum transport vesicles was reduced 30–50%.
• 3.3. In Golgi membranes, the presence of 5–10 gmg/ml BFA in the mixture, assembled to generate Golgi vesicles, evoked inhibitory effect on the synthesis of sphingomyelin, glycosphingolipids and phosphatidylcholine. On average, the synthesis of the sphingolipids and phosphatidylcholine and production of Golgi transport vesicles declined to 30–40%.
• 4.4. Addition of 5–10 gmg/ml BFA to the assay mixture prepared to measure the activity of cytidylyltransferase, phosphocholine diacylglyceroltransferase, and serine palmitoyltransferase, caused up to 50% inhibition of the enzymes involved in the synthesis of phosphatidylcholine and up to 70% inhibition of the enzyme generating 3-ketosphinganine.
• 5.5. The results suggest that BFA inhibits the synthesis of phosphoglycerides and sphingolipids. This, at first, is displayed in reduced production of endoplasmic reticulum and Golgi transport vesicles, while the depletion of sphingolipids abrogates the identity of Golgi membranes.

     

Effects of brefeldin A on the development of the Casparian strip in pea epicotyls

Summary The Casparian strip, a structure that is present in roots, is also present in epicotyls of dark-grown pea seedlings. In a dark-grown epicotyl, the cells in each stage of the development of the Casparian strip have been suggested to be lined up basipetally in the region 3 to 37 mm below the bending point of the hook, in order of the developmental stage. Brefeldin A (BFA), a specific inhibitor of secretory transport, was administrated at 200 M. to dark-grown pea epicotyls for 2 h via a thread passed through the epicotyl 40 mm below the bending point. The basipetal sequence of development of the modification of the cell wall at the Casparian strip, as judged by fluorescence microscopy, stopped 5 h after the start of 2 h treatment with BFA and resumed after 30 h. This basipetal sequence of development did not stop in control seedlings. Electron micrographs of endodermal cells in epicotyls treated with BFA showed striking morphological changes in the Golgi stacks and the ER. Histological examination made 20 h after the start of the experiment revealed that the basipetal sequence of development of the cell wall modification stopped at a point which was present at 25.2 ± 1.6 mm (mean with SD, n=5) from the bending point of the hook at the start while the basipetal sequence of development of the tight adhesion of the plasma membrane to the cell wall at the Casparian strip stopped 0.9 ± 0.5 mm (mean with SD, n=5) below this point. These results indicate the involvement of secretory transport not only in the introduction of the modification of the cell wall but also in the completion of the tight adhesion of the plasma membrane.Abbreviations BFA brefeldin A - PBS phosphate-buffered saline - ER endoplasmic reticulum     

The Golgi apparatus in developing endosperm of wheat (Triticum aestivum L.)

The ultrastructure and distribution of the Golgi apparatus in developing wheat endosperm was investigated using a zinc iodide-osmium tetroxide staining complex in conjunction with low and high voltage electron microscopy. Dictyosomes were numerous in starchy endosperm and aleurone at 15 days after anthesis, and during the period of rapid storage protein deposition 25 d after anthesis. Fewer dictyosomes were seen in maturing endosperm. Two types of vesicles were associated with the dictyosomes; small, heavily-stained vesicles were sited at the ends of fine tubules which extend from the cisternae, and larger less-stained vesicles were associated with the periphery of the cisternae. Stereo-pairs of micrographs up to 1 m thick were taken to demonstrate the interconnections between cisternal and tubular endoplasmic reticulum. Elements of tubular ER were closely associated with dictyosomes, but connections were not observed. These results are discussed in relation to the transport of endosperm storage proteins from their site of synthesis on the cisternal ER to their site of storage, the protein bodies.     

Cell survival and protein secretion associated with Golgi integrity in response to Golgi stress‐inducing agents

The Golgi apparatus is part of the secretory pathway and of central importance for modification, transport and sorting of proteins and lipids. ADP‐ribosylation factors, whose activation can be blocked by brefeldin A (BFA), play a major role in functioning of the Golgi network and regulation of membrane traffic and are also involved in proliferation and migration of cancer cells. Due to high cytotoxicity and poor bioavailability, BFA has not passed the preclinical stage of drug development. Recently, AMF‐26 and golgicide A have been described as novel inhibitors of the Golgi system with antitumor or bactericidal properties. We provide here further evidence that AMF‐26 closely mirrors the mode of action of BFA but is less potent. Using several human cancer cell lines, we studied the effects of AMF‐26, BFA and golgicide A on cell homeostasis including Golgi structure, endoplasmic reticulum (ER) stress markers, secretion and viability, and found overall a significant correlation between these parameters. Furthermore, modulation of ADP‐ribosylation factor expression has a profound impact on Golgi organization and survival in response to Golgi stress inducers.      

Stereological study of gonadotropes in the frog,Rana pipiens,after GnRH stimulation in vitro

Summary Previous physiological results have indicated the existence of two releasable pools of gonadotropins in amphibian pituitaries: an acute releasable pool that appears independent of protein synthesis, and a storage pool involved in chronic release that depends on protein synthesis. To elucidate the ultrastructural localization of these pools and the morphological changes induced in gonadotrope cells after treatment with gonadotropin-releasing hormone, we carried out a morphometric study of immuno-identified gonadotrope cells using an in vitro superfusion system. Treatment with gonadotropin-releasing hormone induced a degranulation of small (110–255 nm) and medium (236–360 nm) secretory granules as well as hypertrophy of the endoplasmic reticulum and Golgi complex. Simultaneous incubation with gonadotropin-releasing hormone and cycloheximide inhibited the release of secretory granules although the endoplasmic reticulum and Golgi complex were hypertrophied. These morphological results strongly suggest: (1) that gonadotropin-releasing hormone induces degranulation and hypertrophy of the biosynthetic machinery in gonadotrope cells; and (2) that the activation of the endoplasmic reticulum and Golgi complex by stimulation with gonadotropin-releasing hormone is independent of protein synthesis, while the release of secretory granules is protein synthesis-dependent. In addition, the second or storage pool of gonadotropin is associated mainly with the small and medium secretory granules.     

The electron microscopic and classic Golgi apparatus

The relationship of the membrane structure, designated in electron microscopy as the Golgi apparatus, to the classic Golgi apparatus in the light microscope were studied withFagopyrum. Comparison of these structures in plant cells with the same or similar structures in animal cells led to the following conclusions: there exist two groups of formations, impregnable with osmium or silver, considered as the classic Golgi apparatus. The first group contains the active membrane structures. These are the dictyosomes and the anastomosing form of the electron microscopic Golgi apparatus. To this group belongs also the endoplasmatic reticulum, which in plant cells forms dense vacuoles, having the appearance of the classic Golgi apparatus, and in animal cells occasionally has a similar arrangement as the anastomosing form of the Golgi apparatus. The second group comprises formation containing reserve and secretion material, i.e. predominantly products of the activity of the electron microscopic Golgi apparatus and of the endoplasmic reticulum (matter of the dense vacuoles, lipochondria, secretory granula etc.). In the plant cells, especially ofFygopyrum, the dictyosomes contained in the structures of the first group are separated from the formations of a reserve character in the second group, formed in the lumen of the endoplasmic reticulum (dense vacuoles). The identity of the dictyosomes with the osmiophilic platelets, considered by some authors in the light microscope as the classic Golgi apparatus, has not been proved up to present, because of the one-sidedness of the methods used nowadays. WithFagopyrum no foundation has been observed for the assumed formation of net-form structures by grouping of the dictyosomes. Structures similar to the net-form of the classic Golgi apparatus in the animal cell form only dense vacuoles. On the basis of the differentiation of both types of formations in the plant cell, the foundations were laid for the characterization of the classic Golgi apparatus in the animal cell. The net-form of the classic Golgi apparatus in the animal cell is obviously not artificial, but reflects the ultrastructural arrangement of the electron microscopic Golgi apparatus or of the endoplasmic reticulum. The problem of the suitability and specification of the name Golgi apparatus in the animal and plant cell was also discussed. In contrast to the opinion of some authors, it does not appear useful to remove the name golgi apparatus, designating the dictyosomes and the anastomosing forms of the smooth membranes.     

Die submikroskopische Struktur der Assimilatleitbahnen von Polytrichum commune

Summary In the young part of the stem of Polytrichum commune the protoplasts of the two types of conducting cells, the leptoids and parenchyma cells, are nearly identically equipped with cell organelles and cytoplasmic structures. Both types contain a nucleus, chloroplasts, mitochondria, and dictyosomes. The endoplasmic reticulum builds characteristic cisterns in form of hollow cylinders extending from one end wall to the other. The cisterns are connected with many plasmodesmata, which occur only in the end walls. Leptoids have oblique end walls with 16 to 20 plasmodesmata per m², and parenchyma cells show cross walls perpendicular to the axis with 9 to 12 plasmodesmata per m².Since the leptoids are supposed to be the pathways for the longitudinal transport of assimilates (Eschrich and Steiner, 1967, 1968), it is of interest that early in their development these elements undergo a change in their protoplasmatic structure. Two to 3 cm below the apical cell the protoplasts degenerate and show lysosome-like structures. The endoplasmic reticulum and other structures are deformed or dissolved; the plasmodesmata are constricted by callose deposits. At the same level the parenchyma cells still retain the original structure of their protoplasts.Thus, assimilates moving upward in one row of leptoids may penetrate the whole lumen of the leptoids at lower levels, but they are restricted to the cisterns of the endoplasmic reticulum at higher levels of the stem.     

The endomembrane system of differentiating carposporangia in the red algaChondria tenuissima: Occurrence and participation in secretion of polysaccharidic and proteinaceous substances

Summary The endomembrane system during carposporogenesis inChondria tenuissima was studied using electron microscopy and histochemistry. Profiles of the nucleus are convoluted, resulting in a highly increased surface area. Stacked cisternae are found within the peripheral part of the nucleus. Vesicles, tubules and membrane bound fibrillar bodies occur within the nucleoplasm. The endoplasmic reticulum surrounds the nuclear envelope.The endoplasmic reticulum and the Golgi apparatus, together with small transition vesicles, represent a functional unit. They form two different secretory substances during carposporogenesis. In young stages, carbohydrates are produced by normal dictyosomes within large, normal exocytotic Golgi vesicles. They do not react positively with PAS or Thiéry method and are believed to represent cell wall material. In later stages, the central area of the Golgi cisternae becomes filled with electron dense material. The individual cisternae are transformed into cored vesicles at the trans-face of the dictyosomes. The dense core of the vesicles is proteinaceous and stains with coomassie brilliant blue R. The peripheral fibrillar material is polysaccharidic and reacts positively using the Thiéry method. The contents of the cored vesicles are believed to participate in carpospore attachment. The ER gives rise to cytolysosomes in which starch grains are sequestrated and digested. Mucilaginous sacs seem to be similarly formed.     

Multiple rough endoplasmic cisternae in “C” cells

Summary Multiple rough endoplasmic cisternae were found in C cells of the adult rat, at interphase. They are considered to be normal constituents of C cells. Their morphological relation to rough endoplasmic reticulum and their close proximity to mitochondria, Golgi dictyosomes and secretory granules suggest that they may have a role in the secretory activity of this endocrine cell.     

Effect of brefeldin A on the structure of the Golgi apparatus and on the synthesis and secretion of proteins and polysaccharides in sycamore maple (Acer pseudoplatanus) suspension-cultured cells.

Brefeldin A (BFA), a specific inhibitor of Golgi-mediated secretion in animal cells, has been used to study the organization of the secretory pathway and the function of the Golgi apparatus in plant cells. To this end, we have employed a combination of electron microscopical, immunocytochemical, and biochemical techniques to investigate the effects of this drug on the architecture of the Golgi apparatus as well as on the secretion of proteins and complex cell wall polysaccharides in sycamore maple (Acer pseudoplatanus) suspension-cultured cells. We have used 2.5 and 7.5 micrograms/mL of BFA, which is comparable to the 1 to 10 micrograms/mL used in experiments with animal cells. Electron micrographs of high-pressure frozen and freeze-substituted cells show that although BFA causes swelling of the endoplasmic reticulum cisternae, unlike in animal cells, it does not induce the disassembly of sycamore maple Golgi stacks. Instead, BFA induces the formation of large clusters of Golgi stacks, an increase in the number of trans-like Golgi cisternae, and the accumulation in the cytoplasm of very dense vesicles that appear to be derived from trans Golgi cisternae. These vesicles contain large amounts of xyloglucan (XG), the major hemicellulosic cell wall polysaccharide, as shown by immunocytochemical labeling with anti-XG antibodies. All of these structural changes disappear within 120 min after removal of the drug. In vivo labeling experiments using [3H]leucine demonstrate that protein secretion into the culture medium, but not protein synthesis, is inhibited by approximately 80% in the presence of BFA. In contrast, the incorporation of [3H]fucose into N-linked glycoproteins, which occurs in trans-Golgi cisternae, appears to be affected to a greater extent than the incorporation of [3H]xylose, which has been localized to medial Golgi cisternae. BFA also affects secretion of complex polysaccharides as evidenced by the approximate 50% drop in incorporation of [3H]xylose and [3H]fucose into cell wall hemicelluloses. Taken together, these findings suggest that at concentrations of 2.5 to 7.5 mu g/mL BFA causes the following major changes in the secretory pathway of sycamore maple cells: (a) it inhibits the transport of secretory proteins to the cell surface by about 80% and of hemicelluloses by about 50%; (b) it changes the patterns of glycosylation of N-linked glycoproteins and hemicelluloses; (c) it reduces traffic between trans Golgi cisternae and secretory vesicles; (d) it produces a major block in the transport of XG-containing, dense secretory vesicles to the cell surface; and (e) it induces the formation of large aggregates of Golgi apparatus of plant and animal cels share many functional and structural characteristics, the plant Golgi apparatus possesses properties that make its response to BFA unique.     

An ultrastructural and cytochemical investigation of the colonial green algaPediastrum tetras during zoospore formation

Summary Ultrastructural changes during zoospore formation and aggregation into motile, aggregating zoospores were examined in the colonial green algaPediastrum tetras. Developing zoospores are characterized by irregularly shaped nuclei, presence of peripheral networks of rough endoplasmic reticulum, chloroplasts with tightly apposed thylakoids and dictyosome cisternae which are compressed and reduced in size. A single membrane bound organelle with a fine granular matrix of moderate electron density of diameter ranging from 0.2 m to 0.6 m and associated with chloroplasts, mitochondria and endoplasmic reticulum was found only in adult cells. Although this organelle has the morphology of a microbody, it did not stain with 3,3-diaminobenzidine (DAB) at pH 9.6 or pH 7.6, whereas mitochondrial membranes stained. No DAB staining was observed along the cell wall or the plasma membrane of zoospores, or associated with endoplasmic reticulum, plastid membranes or dictyosomes.     

Disruption of the Golgi apparatus and secretory mechanism in the desmid, Closterium acerosum by brefeldin A

The mucilage-secreting desmid, Closterium acerosum, is sensitive to the secretory inhibiting drug, brefeldin A (BFA). After 5 min of treatment with 5 g ml^-1 of BFA, the Golgi body displays the following alterations: the number of cisternae decreases from 12-15 to 6-7; peripheries of cisternae from the same Golgi body often fuse to yield unique profiles; secretory vesicles still merge from the Golgi body; the cisternal stack dissociates to form irregular masses in the alleys of cytoplasm created by the lobes of the chloroplast. Fluoresbrite bead labelling shows that mucilage production ceases in cells treated with BFA even after only 5 min of treatment. Immunogold labelling using anti-mucilage antibody reveals that mucilage production still occurs in the Golgi body and associated vesicles. Helix pomatia lectin-gold labelling shows that wall synthesis still occurs in BFA-treated Golgi bodies and wall precursors accumulate in the perforate cisternal/vesicular masses seen in the TGN region of the Golgi stack.     

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     

Pulmonary surfactant phosphatidylcholine transport bypasses the brefeldin A sensitive compartment of alveolar type II cells

Brefeldin A (BFA) causes disassembly of the Golgi apparatus and blocks protein transport to this organelle from the endoplasmic reticulum. However, there still remains considerable ambiguity regarding the involvement of the Golgi apparatus in glycerolipid transport pathways. We examined the effects of BFA upon the intracellular translocation of phosphatidylcholine in alveolar type II cells, that synthesize, transport, store and secrete large amounts of phospholipid for regulated exocytosis. BFA at concentrations as high as 10 microg/ml failed to alter the assembly of phosphatidylcholine into lamellar bodies, the specialized storage organelles for pulmonary surfactant. The same concentration of BFA was also ineffective at altering the secretion of newly synthesized phosphatidylcholine from alveolar type II cells. In contrast, concentrations of the drug of 2.5 microg/ml completely arrested newly synthesized lysozyme secretion from the same cells, indicating that BFA readily blocked protein transport processes in alveolar type II cells. The disassembly of the Golgi apparatus in alveolar type II cells following BFA treatment was also demonstrated by showing the redistribution of the resident Golgi protein MG-160 to the endoplasmic reticulum. These results indicate that intracellular transport of phosphatidylcholine along the secretory pathway in alveolar type II cells proceeds via a BFA insensitive route and does not require a functional Golgi apparatus.     

The Endomembranes ofchlamydomonas reinhardii: A comparison of the wildtype with the wall mutants CW 2 and CW 15

Summary Ultrastructural observations on the principal endomembranes (endoplasmic reticulum, Golgi apparatus) of synchronously growing of wild type and mutant (CW 2, CW 15) strains ofChlamydomonas reinhardii have been carried out. The dictyosomes of the Golgi apparatus in all three cases are highly polar in morphology but lack intercisternal filaments. A clear spatial relationship between dictyosomes and endoplasmic reticulum is seen and a transfer of vesicles from the latter to the former is easily visualized. Coated vesicles invariably appear to be restricted to the trans-pole of the dictyosomes. The endoplasmic reticulum adjacent to the cis pole of dictyosomes is considerably hypertrophied in the case of the wild type, only partially so in the mutant CW 2 but not at all in the mutant CW 15. In the wild type this swelling is most extreme during the period of wall deposition and for several hours afterwards. The results are discussed in relation to the biosynthesis and intracellular transport of, particularly O-glycosidically linked, glycoproteins.     

New cellulose synthesizing complexes (terminal complexes) involved in animal cellulose biosynthesis in the tunicateMetandrocarpa uedai

Summary Subcellular compartments comprising the endomembrane system in filamentous fungi are poorly characterized with most showing significant morphological differences from eukaryotic cells. For example, many filamentous fungi lack stacked Golgi-body cisternae, but contain Golgi equivalents — single cisternae or tubules which appear to serve the same functions. To help identify fungal endomembrane compartments and interrelationships between them we used a pharmacological agent, brefeldin A, known to affect specific endomembrane organelles in other organisms, most prominently the Golgi apparatus. At 10 g/ml brefeldin A, radial hyphal growth of the rice blast pathogenMagnaporthe grisea on solid agar medium was reduced by 96% over an initial 48 h, but recovered and was reduced by only 20% over a subsequent 72 h exposure. Light microscopic examination of individual living hyphae showed that apical elongation generally halted within 1 min after exposure to brefeldin A. Acute effects of 14 g/ml brefeldin A were characterized ultrasiructurally in cells prepared by freeze substitution. These included the appearance of two types of cisternae with unusual morphology, associated with ca. 45 nm diameter vesicles, as well as the unexpected persistence and increase in complexity of the Golgi equivalents. Also observed were (1) reduced numbers of apicale vesicles and disruption of Spitzenkörper organization, (2) apical clusters of 30–35 nm diameter microvesicles and associated tubular arrays, (3) dilation of rough endoplasmic reticulum, (4) packets of membrane-bounded electron-opaque cell wall inclusions, and (5) altered morphology of some vacuolar compartments. The distribution of concanavalin A binding sites, previously mapped to particular endomembrane compartments, was documented to aid the interpretation of these results. We conclude that brefeldin A effects on cells ofM. grisea differ from those reported with plant and animal cells, perhaps reflecting underlying differences in the endomembrane systems among these eukaryotes.Abbreviations BFA brefeldin A - ConA concanavalin A - ER endoplasmic reticulum - PDA potato dextrose agar - RER rough endoplasmic reticulum     

Elektronenmikroskopische Untersuchungen von Differenzierungsvorgängen bei Moosen

Summary In meristematic cells of the gemma of Riella helicophylla and in young bud cells from the protonema of Funaria hygrometrica the cell plate is formed by fusion of small vesicles originating from the Golgi apparatus. These spherical vesicles of about 0.1 m diameter have an electron dense centre, probably consisting of pectic substances or their precursors. The endoplasmic reticulum producing multivesicular bodies participate in cell plate formation too. Another cytoplasmic component forming the cell plate are coated vesicles, the origin of which is the Golgi apparatus and perhaps also the endoplasmic reticulum. In view of these observations the question of whether the endoplasmic reticulum or the Golgi apparatus forms the cell plate must be answered in this way: both endoplasmic reticulum and Golgi apparatus supply material for growth of the cell plate. Multivesicular bodies, coated vesicles and other small vesicles of unknown nature participate in the formation of the primary wall.

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Zum Teil finanziert mit Sondermitteln des Landes Niedersachsen an Prof. Dr. M. Bopp.