Effects of monensin on photoreceptors of isolated frog retinas

Monensin induces the vacuolization of the Golgi apparatus in photoreceptors of isolated frog retinas and also, more slowly, produces a vacuolization of the pre-synaptic terminals. Accompanying these effects is an inhibition of transport of protein to the outer segment so that the radioactive bands normally detectable by autoradiography do not form. Monensin thus promises to be a useful tool in the study of intracellular transport in photoreceptors. The findings reported here indicate that impairment of the functioning of the Golgi apparatus considerably diminishes transport of membrane protein to the rod outer segment suggesting that passage through the Golgi apparatus is an obligatory step for completion of outer segment membrane or its transport to the outer segment.     

Effect of monensin on the Golgi apparatus of absorptive cells in the small intestine of the rat

Summary The effect of short-time treatment with the ionophore monensin, administered intraluminally at concentrations of 5 and 10 M, was studied on the Golgi apparatus of absorptive cells in the small intestine of the rat. At 2–3 min after treatment most of the Golgi stacks exhibited dilated cisternae. At 4–5 min stacked cisternae were absent; they were replaced by groups of smooth-surfaced vacuoles. Dilatation and vacuolization occurred in the entire stacks without preferential effect on any particular Golgi subcompartment.Monensin did not influence the cytochemical Golgi reaction of thiamine pyrophosphatase and acid phosphatase. The characteristic staining pattern of these two enzymes in all Golgi cisternae of absorptive cells in the proximal small intestine, and the reactivity restricted to trans cisternae in distal segments of the small intestine, were unchanged after treatment with monensin. In the distal small intestine, the cytochemical pattern allowed the monensin-induced vacuoles to be attributed to the former cisor trans-Golgi face. Further, the cytochemical results demonstrate that vacuolization is not restricted to the stacked cisternae, but includes the trans-most cisterna. The latter, usually located at some distance from the Golgi stacks, has been defined as belonging to the GERL system in several types of cells. The clear response to monensin, an agent that selectively affects the Golgi apparatus, indicates common properties between trans-most and stacked Golgi cisternae.     

Structure of Golgi apparatus

Summary Golgi apparatus (GA) of eukaryotic cells consist of one or more stacks of flattened saccules (cisternae) and an array of fenestrae and tubules continuous with the peripheral edges of the saccules. Golgi apparatus also are characterized by zones of exclusion that surround each stack and by an assortment of vesicles (or vesicle buds) associated with both the stacks and the peripheral tubules of the stack cisternae. Each stack (sometimes referred to as Golgi apparatus, Golgi complex, or dictyosome) is structurally and functionally polarized, reflecting its role as an intermediate between the endoplasmic reticulum, the cell surface, and the lysosomal system of the cell. There is probably only one GA per cell, and all stacks of the GA appear to function synchronously. All Golgi apparatus are involved in the generation and movement of product and membrane within the cell or to the cell exterior, and these functions are often reflected as structural changes across the stacks. For example, in plants, both product and membrane appear to maturate from the cis to the trans poles of the stacks in a sequential, or serial, manner. However, there is also strong ultrastructural evidence in plants for a parallel input to the stack saccules, probably through the peripheral tubules. The same modes of functioning probably also occur in animal GA; although here, the parallel mode of functioning almost surely predominates. In some cells at least, GA stacks give rise to tubular-vesicular structures that resemble the trans Golgi network. Rudimentary GA, consisting of tubular-vesicular networks, have been identified in fungi and may represent an early stage of GA evolution.     

Macromolecular differentiation of Golgi stacks in root tips ofArabidopsis andNicotiana seedlings as visualized in high pressure frozen and freeze-substituted samples

Summary The plant root tip represents a fascinating model system for studying changes in Golgi stack architecture associated with the developmental progression of meristematic cells to gravity sensing columella cells, and finally to young and old, polysaccharideslime secreting peripheral cells. To this end we have used high pressure freezing in conjunction with freeze-substitution techniques to follow developmental changes in the macromolecular organization of Golgi stacks in root tips ofArabidopsis andNicotiana. Due to the much improved structural preservation of all cells under investigation, our electron micrographs reveal both several novel structural features common to all Golgi stacks, as well as characteristic differences in morphology between Golgi stacks of different cell types.Common to all Golgi stacks are clear and discrete differences in staining patterns and width of cis, medial and trans cisternae. Cis cisternae have the widest lumina (30 nm) and are the least stained. Medial cisternae are narrower (20 nm) and filled with more darkly staining products. Most trans cisternae possess a completely collapsed lumen in their central domain, giving rise to a 4–6 nm wide dark line in cross-sectional views. Numerous vesicles associated with the cisternal margins carry a non-clathrin type of coat. A trans Golgi network with clathrin coated vesicles is associated with all Golgi stacks except those of old peripheral cells. It is easily distinguished from trans cisternae by its blebbing morphology and staining pattern. The zone of ribosome exclusion includes both the Golgi stack and the trans Golgi network.Intercisternal elements are located exclusively between trans cisternae of columella and peripheral cells, but not meristematic cells. In older peripheral cells only trans cisternae exhibit slime-related staining. Golgi stacks possessing intercisternal elements also contain parallel rows of freeze-fracture particles in their trans cisternal membranes. We propose that intercisternal elements serve as anchors of enzyme complexes involved in the synthesis of polysaccharide slime molecules to prevent the complexes from being dragged into the forming secretory vesicles by the very large slime molecules. In addition, we draw attention to the similarities in composition and apparent site of synthesis of xyloglucans and slime molecules.Dedicated to the memory of Professor Oswald Kiermayer     

Ultrastructural observations on the kinetosomes,and Golgi bodies during the asexual life cycle ofSaprolegnia

Summary At the onset of zoospore cleavage the centrioles ofSaprolegnia ferax reorientate, develop into kinetosomes and become associated with microtubular roots and a striate fibre. After cytoplasmic cleavage a flagellum, with a hitherto undescribed transition zone structure, develops from each kinetosome. Flagellum axonemes occur inside recently encysted primary spores. In vegetative hyphae and germinating cysts most recognizable Golgi bodies are characteristically associated with a cisternum of the endoplasmic reticulum and a mitochondrion but during sporogenesis they all lie adjacent to nuclei where they are apparently active in vesicle production. The structural details of these changes are described and their significance discussed. We wish to acknowledge the numerous helpful discussions with Dr. J. L. Gay. The senior author held a S.R.C. studentship during the course of this work, part of which was submitted in partial fulfillment of the requirements for the degree of Ph. D. at the University of London.     

Changes in the secretory activity of the Golgi apparatus during the cell cycle in root tips of maize (Zea Mays L.)

Epidermal cells of maize roots were studied to determine the distribution of Golgi apparatus-derived secretory vesicles in various stages of cell division. The following conclusions were reached: 1) The pattern of Golgi apparatus secretion varies with the cell cycle. 2) Large numbers of secretory vesicles are incorporated into the cell plate. 3) Secretory vesicles from the Golgi apparatus are incorporated primarily in walls undergoing expansion. 4) Secretory vesicles are smaller during mitosis and the first part of cytokinesis than they are during interphase. 5) Secretory vesicles account for at least 12–23% of cell-plate plasma membrane and an estimated 25% of cell-plate volume.     

Endocytosis in maize root cap cells

Summary Primary roots of maize seedlings have been treated with solutions of lanthanum and lead salts in an attempt to demonstrate endocytosis. Subsurface cells in the root cap reveal deposits of these heavy metals in coated pits in the plasma membrane and in coated vesicles. In addition lead deposits were observed in coated evaginations (pits) on large (secretory) vesicles present at the trans-pole of the Golgi apparatus and on small vacuoles. Lead was also found in the peripheral regions of individual cisternae throughout the dictyosomal stack. We interpret our results as providing evidence for coated pit/coated vesicle-mediated endocytosis and for the direct recycling of plasma membrane to the Golgi apparatus.     

Ultrastructural changes in the Golgi apparatus and secretory granules of HL-60 cells treated with the imino sugar N-butyldeoxynojirimycin

The imino sugar N-butyldeoxynojirimycin inhibits the N-linked oligosaccharide processing enzymes α-glucosidases I and II, and the ceramide specific glucosyltransferase which catalyses the first step in glucosphingolipid biosynthesis. We have studied the effects of this compound on the ultrastructure of HL-60 cells to identify novel activities of this compound. Treatment of HL-60 cells with this imino sugar results in several morphological changes within the cell, none of which result in cytotoxicity. The plasma membrane stains heavily with potassium ferrocyanide within 30 min following addition of the compound to the medium, and there is then a time dependent involvement of all other intracellular membranes. Secretory granules become enlarged and lose their dense core morphology and appear either empty and vacuolated or have low density contents. However, the most striking effect of NB-DNJ treatment is on the Golgi apparatus. The Golgi exhibits a time-dependent change from typical Golgi morphology to a structure almost completely devoid of cisternae and consisting predominantly of vesicles. All the observed changes are fully reversible on withdrawal of the compound.     

Ultrastructural characterization of cell types in root tips of barley (Hordeum vulgare L.)

Some ultrastructural characteristics of cell types in barley root tip and root cap were recorded and compared with the aim to identify these cells by electron microscopy, even if positional information is limited in the ultrathin section. Root cap and root body initials could be distinguished according to the type of proplastids. Cap and apical cells also differed at the level of dictyosomes and the relative quantity of the dense substance in the enlarging vacuoles. The maturity of cap cells could be judged from the degree of vacuolization and the size of starch grains (statoliths) in the plastids.     

Targeting of auxin carriers to the plasma membrane: effects of monensin on transmembrane auxin transport in Cucurbita pepo L. tissue

Treatment of etiolated zucchini (Cucurbita pepo L.) hypocotyl tissue with sub-micromolar concentrations of the cationophore monensin rapidly (<20 min) inhibited the transport catalytic activity of the specific auxin-anion efflux carrier and reduced the inhibition of this carrier by the phytotropin N-1-naphthylphthalamic acid (NPA). Monensin inhibited the basipetal polar transport of indol-3yl-acetic acid (IAA) in long (30 mm) zucchini segments. At concentrations lower than 10^–5 mol·dm^–3 monensin did not affect uptake of the pH probe [2-¹⁴C]5,5-dimethyloxazolidine-2,4-dione (DMO) or that of the membrane-potential probe tetra[¹⁴C-phenyl]phosphonium bromide (TPP⁺), did not affect the response of IAA net uptake to external Ca²⁺ concentration and did not alter the metabolism of IAA. It was concluded that low concentrations of monensin inhibit transport through the Golgi apparatus of auxin efflux carrier protein and that the efflux carriers turn over very rapidly in the plasma membrane. Monensin pretreatment did not affect the saturable binding of [³H]NPA to microsomal membranes, indicating that the auxin-efflux catalytic sites and the NPA-binding sites are located on separate proteins. At higher concentrations (10^–5 mol·dm^–3) monensin inhibited both mediated uptake and mediated efflux components of IAA transport. This effect was at least in part attributable to perturbation by monensin of the driving forces for mediated uptake since high concentrations of monensin also reduced the uptake of DMO and TPP⁺.Abbreviations CH cycloheximide - DMO 5,5-dimethyloxazolidine-2,4-dione - MDMP 2-(4-methyl-2,6-dinitroanlilino)N-methyl-propionamide - NPA N-1-naphthylphthalamic acid - TPP⁺ tetraphenylphosphonium ion We thank Mrs. R.P. Bell for technical assistance and Drs. G.F. Katekar and M.A. Venis for generous gifts of NPA. S.W. was supported by the U.K. Science and Engineering Research Council.     

Effects of brefeldin-A and monensin on organelle distribution and morphology in the preimplantation mouse embryo

 The intracellular trafficking of integral membrane and secreted proteins is likely to be a key element involved in the morphogenesis and differentiation of the early mammalian embryo. In this study, we used transmission electron microscopy (TEM) to analyse the effects of brefeldin-A (BFA) and monensin, well known inhibitors of vesicular protein trafficking in somatic cells, on the structure of preimplantation mouse embryos. Both BFA and monensin distinctively altered the morphology of Golgi compartments in the blastomeres of treated morulae. BFA-treated morulae lacked recognizable Golgi complexes but possessed heterogeneous organelle clusters consisting of an abundance of smooth tubular and vesicular membrane compartments in addition to mitochondria, endosomes and lysosomes. Treatment of morulae with monensin was associated with swelling of Golgi compartments in addition to altering the morphology of mitochondria, lysosomes and the plasma membrane. BFA, and to a lesser extent monensin, inhibited cytokinesis as evidenced by the detection of binucleate blastomeres. In addition, BFA induced morulae to decompact. These latter effects have not been reported previously for these agents in mammalian somatic cell lines or other vertebrate or invertebrate embryos. These results provide the first demonstration of the structural effects of BFA and monensin on cells of the early mammalian embryo, some of which are consistent with the known actions of these agents on components of the vesicular protein trafficking system in mammalian somatic cells. This information serves as a foundation for the further use of these agents in studies of vesicular protein trafficking as an agent of preimplantation morphogenesis. Received: 22 April 1996 / Accepted: 4 December 1996     

Inhibition of very-low-density lipoprotein secretion by chloroquine, verapamil and monensin takes place in the Golgi complex

The effects of chloroquine, verapamil and monensin on secretion of very-low-density lipoproteins (VLDLs) were studied in cultured rat hepatocytes. Maximum inhibition of VLDL-triacylglycerol secretion by 50–90% of control was reached at 200 μM chloroquine, 200 μM verapamil and 5 μM monensin, whereas no effect on cellular triacylglycerol synthesis was observed. The inhibition could be seen within 15 min and was reversible after washout of the drugs. Chloroquine and verapamil inhibited both cellular protein synthesis and protein secretion, whereas monesin reduced protein secretion without any effect on protein synthesis. Control experiments with cycloheximide revealed that intact protein synthesis was not necessary for secretion of VLDL-triacylglycerol during 2 h. Electron micrographs of cells treated with chloroquine, verapamil or monensin showed swollen Golgi cisternae containing VLDL-like particles. By morphometry, a more than 2-fold increase in volume fractions and size indices of Golgi complexes and secondary lysosomes was observed, except that monensin had no significant effect on these parameters of secondary lysosomes. These results suggest that the inhibition of VLDL secretion by chloroquine, verapamil and monensin which takes place in the Golgi complex might be due to disruption of trans-membrane proton gradients. An increase in pH of acidic Golgi vesicles may cause swelling and disturb sorting and membrane flow through this organelle.     

Pattern of secretion in thymic epithelial cells: Ultrastructural studies of the effect of blockage at various levels

Summary The observation of secretory phenomena in mouse thymic epithelial cells is disappointing since no real secretion image is found. An adequate technique for such a study is to block the secretion pathway and to observe by electron microscopy cells accumulating secretory products. For this purpose, we used three means of blocking secretion: Firstly, since the thymic epithelial cell is regulated by a feedback phenomenon, secretion was blocked by antibodies against thymulin, one of the hormones secreted by these cells. Secondly, colchicine was used to modify the intracellular transport of the secretory product. In both of these types of experiments, electron microscopy showed a great increase in the number of clear vacuoles and their granular contents in epithelial cells. In a third series of experiments, we used monensin at a concentration that blocks the intracellular transport of secretory proteins at the various levels of the Golgi apparatus. In this series, only an increased number of vacuoles was observed, but they appeared devoid of all granular content. It can be concluded that in the thymic epithelial cell, a discrete system of secretion directs the passage of the product, originating in the cisternae of the endoplasmic reticulum, into clear vacuoles, the terminal element of the cellular secretory apparatus.     

蛋白的高尔基体定位

高尔基体既是蛋白质修饰、分选、水解加工的场所,又是分泌物质的转运站,每时每刻都有大量的蛋白进出高尔基体。在这种情况下,高尔基体仍能保持完整且高度有序的结构,表明高尔基体驻留蛋白有精确的定位信号,以保证它们定位于正确的区隔,而不会沿着分泌途径被运输出去。高尔基体内有几种不同类别的膜蛋白,包括糖基转移酶、周缘膜蛋白、病毒蛋白和受体等。研究显示,有多种定位信号和定位机制参与了蛋白的高尔基体定位。     

The effect of monensin on gametogenesis and zoosporogenesis in the aquatic fungus,Allomyces macrogynus

Summary Cytoplasmic cleavage in the gametangia and zoosporangia ofA. macrogynus was studied using monensin, an ionophore known to disrupt several endomembrane functions in plant and animal cells. Monensin interfered with normal gamete and zoospore formation in a dose dependent manner such that at a 20 M concentration very abnormal cells were released from the reproductive structures. It was evident that monensin's effect was most pronounced during the first 25 minutes of gametogenesis and parallels in time the onset and continuation of the cytoplasmic cleavage events. Observations using fluorescence and differential interference contrast microscopy indicated that the ionophore inhibited normal cytoplasmic cleavage resulting in the production of multinucleate cells, many of which had either no flagella or multiple flagella. Transmission electron microscopy showed that the monensin-treated gametangia had many large vacuoles which contained amorphous electron-opaque material. X-ray microprobe analysis demonstrated that the elemental composition of the large vacuoles was identical to that of the dense globular inclusions seen in untreated gametangia, and morphological analysis confirmed the relationship between these endomembrane structures. Thus this swollen endomembrane component probably is not involved in the cleavage process. Single endomembrane cisternae which were very common in untreated gametangia were seldom seen in monensin-treated preparations. Instead, many smaller electron-transparent vacuoles were observed. These swollen cisternae may both represent monensin-modified Golgi apparatus equivalents and/or play a critical role during the process of gametogenesis and zoosporogenesis inA. macrogynus.     

Perturbation of the secretory network inClosterium acerosum by Na+-selective ionophores

Summary Closterium acerosum possesses a well-defined, mucilage-secretory mechanism consisting of up to 100 Golgi bodies, two distinct vacuolar networks, and an active cytoplasmic-streaming network located in the cell periphery. Five different sodium-affecting agents were applied to actively secreting cells in order to determine the role, if any, of Na⁺ on this secretory mechanism. Significant effects to the endomembrane system and actin cytoskeleton were noted upon treatment with the Na⁺-specific ionophores monensin and SQl-Et. In particular, the following alterations were noted: incurling of Golgi cisternae and the formation of circular cisternal profiles at the trans face, swelling of the cis-medial cisternae, and dissociation of the Golgi body from the internal cytoplasm to the peripheral cytoplasmic zones. Immunogold labeling with a mucilage-specific polyclonal antibody reveals that mucilage production is diminished during longer ionophore treatments. Likewise, both the polar and peripheral vacuoles disintegrate into a series of smaller vacuoles. Cytoplasmic streaming ceases and the normal actin network of the peripheral cytoplasm transforms into irregularly spaced fibrillar bundles. Finally, multilaminate structures appear at the plasma membrane. No cytological effects could be observed with the Na⁺-channel blockers or Na⁺-current transducers QX-14, tetrodotoxin, or amiloride.Abbreviations DIC differential interference contrast - GA Golgi apparatus - LM light microscopy - TEM transmission electron microscopy - TGN trans Golgi network - WHM Woods Hole medium - DMSO dimethylsulfoxide     

Ultrastructural observations suggesting merocrine secretion in the initial segment of the mammalian epididymis

Summary Principal cells in the initial segment of the epididymis in horses, cattle, pigs, sheep, dogs, cats, and rabbits have an abundant, partly rough, endoplasmic reticulum and a large Golgi complex. Small vacuoles with opaque content seem to be formed by the Golgi complex and move to the cell apex, where they empty their contents into the lumen by a merocrine mechanism.Financial support for this study was received from The Swedish Council for Forestry and Agricultural Research     

Ultrastructural observations on the mechanism of secretion in the rat parathyroid after fluoride ingestion

Summary The secretory mechanism of the parathyroid glands of fluoride treated rats is evaluated ultrastructurally and compared to that of control rats. The principal difference between the two groups of rats concerns the rate of activity of the chief cells of the gland. In the control animals, these cells are predominantly inactive. In the fluoride-treated rats, they exhibit a more active stage of the secretory cycle. The active chief cells in rats treated with fluoride contain increased numbers of secretory granules. These granules are released into the perivascular spaces within cytoplasmic projections suggesting an apocrine-like mechanism for the secretion of parathyroid hormone. Secretory granules are observed free in the perivascular spaces and within the cytoplasm of capillary endothelial cells in the parathyroid glands.     

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.     

Structure,differentiation, and multiplication of Golgi apparatus in fungal hyphae

Summary Golgi apparatus in subapical regions of hyphae consist of paranuclear dictyosomes with 4–5 cisternae each. Transverse and tangential sections provide ultrastructural evidence for a three-dimensional architectural model of the Golgi apparatus and a stepwise mechanism for dictyosome multiplication. The dictyosomes are polarized, with progressive morphological and developmental differentiation of cisternae from the cis to the trans pole. Small membrane blebs and transition vesicles provide developmental continuity between the nuclear envelope and the adjacent dictyosome cisterna at the cis face. Cisternae are formed as fenestrated plates with extended tubular peripheries. The morphology of each cisterna depends on its position in the stack, consistent with a developmental gradient of progressive maturation and turnover of cisternae. Mature cisternae at the trans face are dissociated to produce spheroid and tubular vesicles. Evidence in support of a schematic sequence for increasing the numbers of dictyosomes comes from images of distinctive and unusual forms of Golgi apparatus in hyphal regions where nuclei and dictyosomes multiply, as follows: (a) The area of the nuclear envelope exhibiting forming-face activity next to a dictyosome expands, which in turn increases the size of cisternae subsequently assembled at the cis face of the dictyosome. (b) As subsequent large cisternae are formed and mature as they pass through the dictyosome, an entire dictyosome about twice normal size is built up. The number of cisternae per stack remains the same because of continuing turnover and loss of cisternae at the trans face, (c) This enlarged dictyosome becomes separated into two by a small region of the nuclear envelope next to the cis face that acquires polyribosomes and no longer generates transition vesicles, (d) As a consequence, assembly of new dictyosomes is physically separated into two adjacent regions, (e) As.the enlarged cisternae are lost to vesiculation at the trans pole, they are replaced by two separate stacks of cisternae with typical normal diameters, (f) The net result is two adjacent dictyosomes where one existed previously. Dictyosome multiplication is thus accomplished as part of the normal developmental turnover of cisternae, without interrupting the functioning of the Golgi apparatus as it continues to produce new secretory vesicles from mature cisternae at the trans face. Coordination of Golgi apparatus multiplication with nuclear division ensures that each daughter nucleus receives a complement of paranuclear dictyosomes.