Localization of actin filaments on mitotic apparatus in tobacco BY-2 cells

Actin filaments are among the major components of the cytoskeleton, and participate in various cellular dynamic processes. However, conflicting results had been obtained on the localization of actin filaments on the mitotic apparatus and their participation in the process of chromosome segregation. We demonstrated by using rhodamine-phalloidin staining, the localization of actin filaments on the mitotic spindles of tobacco BY-2 cells when the cells were treated with cytochalasin D. At prophase, several clear spots were observed at or near the kinetochores of the chromosomes. At anaphase, the actin filaments that appeared to be pulling chromosomes toward the division poles were demonstrated. However, as there was a slight possibility that these results might have been the artifacts of cytochalasin D treatment or the phalloidin staining, we analyzed the localization of actin filaments at the mitotic apparatus immunologically. We cloned a novel BY-2 -type actin cDNA and prepared a BY-2 actin antibody. The fluorescence of the anti-BY-2 actin antibody was clearly observed at the mitotic apparatus in both non-treated and cytochalasin D-treated BY-2 cells during mitosis. The facts that similar results were obtained in both actin staining with rhodamine-phalloidin and immunostaining with actin antibody strongly indicate the participation of actin in the organization of the spindle body or in the process of chromosome segregation. Furthermore, both filamentous actin and spindle bodies disappeared in the cells treated with propyzamide, which depolymerizes microtubules, supporting the notion that actin filaments are associated with microtubules organizing the spindle body.Hiroshi Yasuda and Katsuhiro Kanda contributed equally.     

ARP2 and ARP3 are localized to sites of actin filament nucleation in tobacco BY-2 cells

Summary. Complete depolymerization of actin filaments (AFs) at low temperature (0 °C) is followed by the formation of transient actin structures at 25 °C in tobacco BY-2 cells (Nicotiana tabacum L.). Using antibodies against fission yeast actin-related proteins (ARP2 and ARP3), we show here that transient actin structures (dots, dotted filaments, rods) colocalize with epitopes stained by these antibodies and thus are likely to represent sites of actin filament nucleation (SANs). In contrast to the cold-induced disassembly of AFs, no transient actin structures were detectable during recovery of AFs from latrunculin B-induced depolymerization. However, the staining pattern obtained with ARP antibodies in latrunculin B-treated cells was similar to that in controls and cold-treated cells. This suggests that, in addition to the complete depolymerization of AFs, disruption of other cellular structures is needed for the formation of transient actin structures during the early phase of recovery from cold treatment. Correspondence and reprints: Department of Plant Physiology, Faculty of Science, Charles University, Viničná 5, 128 44 Prague 2, Czech Republic.     

Reactive oxygen species and nitric oxide affect cell wall metabolism in tobacco BY-2 cells

The effects of hydrogen peroxide (H2O2), nitric oxide (NO), and a combination of both on the metabolism of cell wall polysaccharides were studied in tobacco (Nicotiana tabacum L.) cv Bright Yellow 2 (BY-2) suspension cultured cells in the presence of D-[U-14C]glucose or D-[U-14C]galactose as radioactive tracers. We found that the radiolabelling of newly synthesised total cell wall polysaccharides (pectins, hemicelluloses and alpha-cellulose), buffer-soluble polysaccharides, and membrane-associated polysaccharides decreased under the influence of exogenous systems generating H2O2 and NO. However, when the total amount of newly synthesised cell wall polysaccharides was calculated as a percentage of the total cellular radioactivity (ethanol-soluble pool plus the homogenate of ethanol-insoluble material), all treatments showed negligible effects in the presence of D-[U-14C]glucose or D-[U-14C]galactose as tracers. This occurred because the treatments generating H2O2, NO and H2O2 plus NO caused a marked decrease in the concentration of the ethanol-soluble pool as well as in the total radioactivity found in the homogenate of the ethanol-insoluble material. Most of the radioactivity taken up by the cells was evolved as 14CO2 during the respiratory processes. A qualitative and quantitative characterisation of the ethanol-soluble pool showed that radioactive UDP-sugars in BY-2 suspension cultured cells were differentially reduced by all treatments. Therefore, the decrease of the newly synthesised cell wall polysaccharides seems to be strictly dependent on the reduction of the UDP-sugars pool.     

Cadmium and zinc-mediated oxidative burst in tobacco BY-2 cell suspension cultures

Generation of reactive oxygen species (ROS) constitutes an important first reaction under many stress conditions in plants. We demonstrate that Nicotiana tabacum L. cv. Bright Yellow 2 (TBY-2) cells in suspension cultures, generate superoxide radical and hydrogen peroxide upon treatment with cadmium and zinc. Addition of catalase and N,N-diethyldithiocarbamate (DDC) decreased the level of H₂O₂, whereas superoxide dismutase (SOD) induced a slight increase of the H₂O₂ production. The effects of catalase, DDC and SOD on the heavy metal-induced ROS production indicate that it occurs outside of the cells, and that at least part of the hydrogen peroxide is produced by dismutation of the superoxide radical (O₂ ^·−). The effect of pretreatment of the cell cultures with commonly used mammalian NADPH oxidase inhibitors was also tested. Strong inhibitions of cadmium and zinc-mediated ROS production were obtained with the flavoprotein inhibitors—diphenylene iodonium (DPI) and quinacrine and with an inhibitor of b-type cytochromes—imidazol. Membrane permeable-N-ethyl maleimide (NEM) and iodoacetate, and membrane non-permeable thiol reagents—para-chloromercuribenzoic acid (pCMBS) also inhibited the ROS production. These results suggested that the enzyme responsible for cadmium and zinc-induced ROS production in tobacco cells contains a flavocytochrome. They also show the importance of intra- and extracellular thiol groups in the observed stress reaction. The induction of ROS production with heavy metals showed properties comparable to the elicitor-induced oxidative burst in other plant cells.     

The presence of ring formed actin filaments in plant cells

Summary Ring formed actin filaments were observed in tobacco BY-2 cells. The change of this structure during culture was followed by fluorescence microscopy.     

The division of pleomorphic plastids with multiple FtsZ rings in tobacco BY-2 cells

Plastids, an essential group of plant cellular organelles, proliferate by division to maintain continuity through cell lineages in plants. In recent years, it was revealed that the bacterial cell division protein FtsZ is encoded in the nuclear genome of plant cells, and plays a major role in the plastid division process forming a ring along the center of plastids. Although the best-characterized type of plastid division so far is the division with a single FtsZ ring at the plastid midpoint, it was recently reported that in some plant organs and tissues, plastids are pleomorphic and form multiple FtsZ rings. However, the pleomorphic plastid division mechanism, such as the formation of multiple FtsZ rings, the constriction of plastids and the behavior of plastid (pt) nucleoids, remains totally unclear. To elucidate these points, we used the cultured cell line, tobacco (Nicotiana tabacum L.) Bright Yellow-2, in which plastids are pleomorphic and show dynamic morphological changes during culture. As a result, it was revealed that as the plastid elongates from an ellipsoid shape to a string shape after medium renewal, FtsZ rings are multiplied almost orderly and perpendicularly to the long axis of plastids. Active DNA synthesis of pt nucleoids is induced by medium transfer, and the division and the distribution of pt nucleoids occur along with plastid elongation. Although it was thought that the plastid divides with simultaneous multiple constrictions at all the FtsZ ring sites, giving rise to many small plastids, we found that the plastids generally divide constricting at only one FtsZ ring site. Moreover, using electron microscopy, we revealed that plastid-dividing (PD) rings are observed only at the constriction site, and not at swollen regions. These results indicate that in the pleomorphic plastid division with multiple FtsZ rings, the formation of PD rings occurs at a limited FtsZ ring site for one division. Multiplied FtsZ rings seem to localize in advance at the expected sites of division, and the formation of a PD ring at each FtsZ ring site occurs in a certain order, not simultaneously. Based on these results, a novel model for the pleomorphic plastid division with multiple FtsZ rings is proposed.     

Effects of ethylene and auxin on polyamine levels in suspension-cultured tobacco cells

The effects of ethylene and auxin on polyamine levels were studied in suspension-cultured cells of tobacco ( Nicotiana tabacum . L). Treatment of 4-day-cultured cells with ethylene increased the levels of spermidine and spermine. The activities of arginine decarboxylase (ADC; EC 4.1.1.19), ornithine decarboxylase (ODC: EC 4.1.1.17), and S -adenosylmethionine decarboxylase (SAMDC: EC 4.1.1.50) rapidly increased between 3 and 12 h. An auxin, indole-3-acetic acid (IAA), increased polyamine levels and activities of ADC, ODC and SAMDC. The spermine level continued to increase significantly during a 24-h incubation with IAA. The increases in polyamine accumulation induced by ethylene were partially offset by an inhibitor of ethylene action, 2,5-norbornadiene. It is suggested that the auxin-induced polyamine accumulation occurred directly, without metabolic competition between ethylene and polyamine biosynthesis, and indirectly, through auxin-induced ethylene formation.     

Visualisation of microtubules and actin filaments in fixed BY-2 suspension cells using an optimised whole mount immunolabelling protocol

Excellent visualisation of microtubules and actin filaments was obtained in fixed tobacco BY-2 suspension cells after optimising a protocol for whole mount immunolabelling. The procedure is based on modification of fixation, cell wall digestion, dimethyl sulfoxide (DMSO) treatment, post fixation, and blocking. The most critical aspects of successful preservation and visualization of cytoskeletal elements appeared to be: a two-step fixation with paraformaldehyde and glutaraldehyde before enzymatic cell wall digestion and a post fixation with aldehydes thereafter. The method allows the improved visualization of the organisation of the microtubular and actin filament arrays during the successive stages of cell division and at interphase. Although we present the application of our protocols for cytoskeleton labelling, the excellent results show the potential of using this method for the analysis of various proteins and molecules in plant cells.Electronic Supplementary Material Supplementary material is available for this article at     

The cantharidin-induced oxidative burst in tobacco BY-2 cell suspension cultures

Summary The in vivo induction of H₂O₂ production was tested on tobacco cell suspension cultures (Nicotiana tabacum cv. Bright Yellow-2). The measurement of H₂O₂ was based on the oxidation of 3,5-dichloro-2-hydroxybenzensulfonic acid by endogenous peroxidases and spectrophotometric detection after reaction with 4-aminoanti-pyrine. The phosphatase inhibitor cantharidin induced a transient increase in H₂O₂ synthesis. The timing of the H₂O₂ production, the level of induction by cantharidin and the background H₂O₂ production were dependent on the tobacco cell concentration used. A concentration curve of cantharidin revealed saturating kinetics for the H₂O₂ detection (E₅₀=46 to 70 M, E_max=101 to 128 mol/h·g fresh weight). An inhibitor study with the tobacco BY-2 cells showed high inhibitions of the H₂O₂ induction with the flavin analogues diphenylene iodonium (I₅₀=1.26M) and acridine orange and with membrane-permeative thiol reagents (N-ethyl maleimide, N-pyrene maleimide, iodoacetate); whereas the nonpermeative thiol reagentp-chloromercuribenzoic acid was ineffective. Therefore, the induction of H₂O₂ production with phosphatase inhibitors (cantharidin) showed comparable properties to the elicitor-induced oxidative-burst response in other plant cells.Abbreviations AcOr acridine orange - AOS active-oxygen species - BY-2 Bright Yellow-2 - pCMBS p-chloromercuribenzoic acid - DHBS 3,5-dichloro-2-hydroxybenzenesulfonic acid - DMSO dimethylsulfoxide - DPI diphenylene iodonium - EtOH ethanol - H₂O₂ hydrogen peroxide - HRP horseradish peroxidase - MS Murashige and Skoog - NEM N-ethyl maleimide - NPM N-pyrene maleimide - O ₂ ^– superoxide - SOD superoxide dismutase     

Early events responsible for aluminum toxicity symptoms in suspension-cultured tobacco cells

We investigated the aluminum (Al)-induced alterations in zeta potential, plasma membrane (PM) potential and intracellular calcium levels to elucidate their interaction with callose production induced by Al toxicity. A noninvasive confocal laser microscopy has been used to analyse the live tobacco (Nicotiana tabacum) cell events by means of fluorescent probes Fluo-3 acetoxymethyl ester (intracellular calcium) and DiBAC4 (PM potential) as well as to monitor callose accumulation. Log-phase cells showed no detectable changes in the PM potential during the first 30 min of Al treatment, but sustained large depolarization from 60 min onwards. Measurement of zeta potential confirmed the depolarization effect of Al, but the kinetics were different. The Al-treated cells showed a moderate increase in intracellular Ca2+ levels and callose production in 1 h, which coincided with the time course of PM depolarization. Compared with the Al treatment, cyclopiazonic acid, an inhibitor of endoplasmic reticulum Ca(2+)-ATPase, facilitated a higher increase in intracellular Ca2+ levels, but resulted in accumulation of only moderate levels of callose. Calcium channel modulators and Al induced similar levels of callose in the initial 1 h of treatment. Callose production induced by Al toxicity is dependent on both depolarization of the PM and an increase in intracellular Ca2+ levels.     

Capacity for aluminium uptake depends on brefeldin A-sensitive membrane traffic in tobacco (Nicotiana tabacum L. cv. BY-2) cells

The relationship between cellular growth and aluminium (Al) uptake was examined by applying brefeldin A, a vesicle transport inhibitor, to cultured tobacco (Nicotiana tabacum L. cv. BY-2) cells. Cultured cells almost completely lost the capacity for Al uptake when pre-incubated for 1–3 h in a minimal medium. Pre-incubation also diminished subsequent growth in a culture medium. However, competency for Al uptake (20 μm, pH 4.5) was sustained in a dose-dependent and reversible manner when cells were treated with brefeldin A (10 μm), an inhibitor of Golgi-mediated secretion, prior to and during the incubation in minimal medium. Received: 24 September 1998 / Revision received: 24 November 1998 / Accepted: 5 December 1998     

Cell death induced by sodium nitroprusside and hydrogen peroxide in tobacco BY-2 cell suspension

The interplay between nitric oxide (NO) and reactive oxygen species can lead to an induction of cell death in plants. The aim of our work was to find out if cyanide released from sodium nitroprusside (SNP; a donor of NO) could be involved in the cell death induction, which is triggered by SNP and H₂O₂. Cell suspension of Nicotiana tabacum L. (line BY-2) was treated with 0.5 mM SNP, 0.5 mM potassium ferricyanide (PFC; analogue of sodium nitroprusside which can not release NO) and/or by 0.5 mM glucose with 0.5 U cm⁻³ glucose oxidase (GGO; a donor system of H₂O₂). The cell death was induced only by combination of SNP and GGO. Thus cyanide released was not involved in the induction of cell death. However, SNP showed toxic effect because of decrease in activities of intracellular oxidoreductases and esterases. The cell death caused by SNP and GGO occurred within 12 h. During cell death either length or width of the cell increased. Central vacuole was formed in 20 to 40 % of cells. Most of the dead cells showed a condensed cytoplasm. Two hallmarks of programmed cell death (PCD), chromatin condensation and blebbing of nuclear periphery, were observed. However, oligonucleosomal fragmentation of DNA, another hallmark of PCD, was not detected.     

Cortical actin filaments fragment and aggregate to form chloroplast-associated and free F-actin rings in mechanically isolatedZinnia mesophyll cells

Summary Changes in F-actin organization following mechanical isolation ofZinnia mesophyll cells were documented by rhodamine-phalloidin staining. Immediately after isolation, most cells contained irregular cortical actin fragments of varying lengths, and less than 5% of cells contained intact cortical filaments. During the first 8 h of culture, filament fragments were replaced by actin rings, stellate actin aggregates, and bundled filament fragments. Some of these aggregates had no association with organelles (free actin aggregates). Other aggregates were associated with chloroplasts, which changed in shape and location at the same time actin aggregates appeared. F-actin was concentrated within or around the nucleus in a small percentage of cells. After 12 h in culture, the percentage of cells with free actin rings and chloroplast-associated actin aggregates began to decline and the percentage of cells having intact cortical actin filaments increased greatly. Intermediate images were recorded that strongly indicate that free actin rings, chloroplast-associated actin rings, and other actin aggregates self-assemble by successive bundling of actin filament fragments. The fragmentation and bundling of F-actin observed in mechanically isolatedZinnia cells resembles changes in F-actin distribution reported after diverse forms of cell disturbance and appears to be an example of a generalized response of the actin cytoskeleton to cell stress.Abbreviations FITC fluorescein isothiocyanate - MBS m-maleimidobenzoic acid N-hydroxysuccinimide ester - RhPh tetramethylrhodamine isothiocyanate-phalloidin     

Sites of actin filament initiation and reorganization in cold-treated tobacco cells

Cytoskeletal proteins assemble into dynamic polymers that play many roles in nuclear and cell division, signal transduction, and determination of cell shape and polarity. The distribution and dynamics of microtubules (MTs) and actin filaments (AFs) are determined, among other factors, by the location of their nucleation sites. Whereas the sites of microtubule nucleation in plants are known to be located under the plasma membrane and on the nuclear envelope during interphase, there is a striking lack of information about nucleation sites of AFs. In the studies reported herein, low temperature (0 °C) was used to de‐polymerize AFs and MTs in tobacco BY‐2 (Nicotiana tabacum L.) cells at interphase. The extent of de‐polymerization of cytoskeletal filaments in interphase cells during cold treatment and the subcellular distribution of nucleation sites during subsequent recovery at 25 °C were monitored by means of fluorescence microscopy. The results show that AFs re‐polymerized rapidly from sites located in the cortical region and on the nuclear envelope, similarly to the initiation sites of MTs. In contrast to MTs, however, complete reconstitution of AFs was preceded by the formation of transient actin structures including actin dots, rods, and filaments with a dotted signal. Immunoblotting of soluble and sedimentable protein fractions showed no changes in the relative amounts of free and membrane‐bound actin or tubulin.     

Generation and properties of ascorbic acid-deficient transgenic tobacco cells expressing antisense RNA for L-galactono-1,4-lactone dehydrogenase

In higher plants, the terminal step of L-ascorbic acid (AsA) biosynthesis is catalyzed by the enzyme L-galactono-1,4-lactone dehydrogenase (EC 1.3.2.3, GalLDH). We generated AsA-deficient transgenic tobacco BY-2 cell lines by antisense expression of the GalLDH cDNA that was amplified from BY-2 cells using PCR. Two transgenic cell-lines, AS1-1 and AS2-2, having a marked expression of antisense RNA were analyzed. Antisense suppression of GalLDH mRNA led to a significant decline in the GalLDH activity. The AsA levels in the transgenic cell lines were found to be 30% lower than the wild-type BY-2 cells. In synchronous cultures, division of AS1-1 and AS2-2 cells was restrained with a concomitant decrease in mitotic index that was probably due to a decline in AsA levels. The rate of cell growth was also found to be less than that of the wild-type cells. Interestingly, there was a significant phenotypic difference between the transgenic and wild-type cells. The calli of AS1-1 and AS2-2 appeared to be sticky and soft. Back extrusion method also showed that AsA-deficient BY-2 callus was rheologically soft. Furthermore, microscopic analysis revealed that AS1-1 and AS2-2 cells were abnormally slender, suggesting a potential for a significant and a uni-axial elongation. Thus, we observed that decline in the AsA levels has an adverse effect on the division, growth and structure of a plant cell.     

Dynamic rearrangements of transvacuolar strands in BY-2 cells imply a role of myosin in remodeling the plant actin cytoskeleton

Summary. Plant cells typically contain a large central vacuole that confines the cytoplasm and organelles to the periphery of the cell and the vicinity of the nucleus. These two domains are often connected by transvacuolar strands (TVS), thin tubular structures that traverse the vacuole. The TVS are thought to act as important transport routes for the distribution of organelles and metabolites, and also to play a role in the positioning of the nucleus. Most TVS depend on internal actin filaments for their existence, and rearrangements of TVS can therefore indicate modifications in the actin cytoskeleton. In this study we describe time-lapse observations of tobacco BY-2 suspension-cultured cells that document the dynamic behavior of TVS. The TVS formed, branched, and collapsed, and their attachment points in the nuclear or cortical cytoplasm, as well as on other TVS, moved around. These dynamic rearrangements were inhibited within 5min by the myosin inhibitor 2,3-butanedione monoxime (BDM). In particular, the movements of TVS attachment points and the variations in TVS length were significantly reduced in the presence of the drug. Similarly, movements of the nucleus were reduced by two thirds in BDM-treated cells. The number of TVS, together with the number of attachment and branch points, also dropped during BDM treatment. All effects of BDM on TVS dynamics were reversible upon removal of the drug. These results suggest a role for myosin motors in the rearrangement of TVS, which is likely to occur through their interaction with actin filaments.Supplementary material to this paper is available in electronic form at http://dx.doi.org/10.1007/s00709-004-0068-0Present address: Zentrum für Molekulare Biologie, Universität Heidelberg, Heidelberg, Federal Republic of Germany.     

Immunological evidence for the presence of plant homologues of the actin- related protein Arp3 in tobacco and maize: subcellular localization to actin-enriched pit fields and emerging root hairs

Summary. The actin-nucleating and -organizing Arp2/3 protein complex is well known to be conserved throughout the eukaryotic kingdom. For higher plants, however, only limited evidence is available for the presence of the Arp2/3 complex so far. Using heterologous antibodies against the Dictyostelium discoideum and Schizosaccharomyces pombe proteins and a bovine peptide, we found immunological evidence for the presence of Arp3 homologues in plants. First, proteins with a molecular mass of about 47–50 kDa were clearly recognized in extracts of both a dicotyledonous plant (tobacco) and a monocotyledonous plant (maize) in immunoblots with the anti-Arp3 antibodies. Second, immunolocalization with these Arp3 antibodies was performed on different plant cells, selected for their diverse actin organizations and functions. On isolated plasma membrane ghosts derived from tobacco leaf protoplasts, a putative Arp3 was localized along cortical actin filaments. In the inner cortex of maize roots, Arp3 was localized to actin-rich plasmodesmata and pit fields and to multivesicular bodies in the cytoplasm. During root hair formation, distinct site-specific localization was found at the protruding apical plasma membrane portions of these tip-growing cells.Correspondence and reprints: Department of Biology, Universitaire Instelling Antwerpen, Universiteitsplein 1, 2610 Wilrijk, Belgium.Received January 3, 2003; accepted February 7, 2003; published online August 26, 2003     

Characterization of two laccases of loblolly pine (Pinus taeda) expressed in tobacco BY-2 cells

We previously showed that eight laccase genes (Lac 1–Lac 8) are preferentially expressed in differentiating xylem and are associated with lignification in loblolly pine (Pinus taeda) [Sato et al. (2001) J Plant Res 114:147–155]. In this study we generated transgenic tobacco suspension cell cultures that express the pine Lac 1 and Lac 2 proteins, and characterized the abilities of these proteins to oxidize monolignols. Lac 1 and Lac 2 enzymatic activities were detected only in the cell walls of transgenic tobacco cells, and could be extracted with high salt. The optimum pH for laccase activity with coniferyl alcohol as substrate was 5.0 for Lac 1 and between 5.0 and 6.0 for Lac 2. The activities of Lac 1 and Lac 2 increased as the concentration of CuSO₄ in the reaction mixtures increased in the range from 1 to 100 μM. Both enzymes were able to oxidize coniferyl alcohol and to produce dimers of coniferyl alcohol. These results are consistent with the hypothesis that Lac 1 and Lac 2 are involved in lignification in differentiating xylem of loblolly pine.     

Four-dimensional imaging of transvacuolar strand dynamics in tobacco BY-2 cells

The vacuole is a characteristic organelle of plant cells and fulfills several important functions related to metabolism and growth of the cell. To shed light on the details of vacuolar structural changes in plant cells, we explored the three-dimensional organization and dynamics of living Nicotiana tabacum L. cv. Bright Yellow 2 cell vacuoles by real-time confocal time-lapse imaging. For imaging, the cells were pulse-labeled with the amphipathic styryl dye FM1-43 (N-(3-triethylammoniumpropyl)-4-(4-(dibutylamino)styryl)pyridinium dibromide), which is delivered to the plant vacuole by endocytic uptake and then incubated overnight. Imaging of the membrane-labeled vacuole revealed a complex vacuole morphology underlaid by constant remodeling. The vacuole is traversed by multiple transvacuolar strands which move along each other and fuse in multiple manners. New strands were created by fission of large membrane sheets. Endocytic vesicle trafficking was followed within the dynamic transvacuolar strands. The movement occurred in a stop-and-go fashion with an average vesicle velocity of 0.46 microm/s and a peak velocity of 0.82 microm/s. Transvacuolar-strand reduction and creation is a characteristic event observed during mitosis. Here we propose a mechanistic model for the alteration of the number of transvacuolar strands, on the basis of their fusion and fission.