Purification and characterization of plant dynamin from tobacco BY-2 cells

We purified an 84 kDa polypeptide from the MAP (microtubule-associated protein) fraction of tobacco BY-2 cultured cells. LC/MS/MS (liquid chromatography-tandem mass spectrometry) analysis revealed that this polypeptide is a tobacco homolog of AtDRP3 (Arabidopsis thaliana dynamin-related protein 3). Electron microscopy revealed that NtDRP3 (Nicotiana tabacum dynamin-related protein 3) assembles to form a filamentous structure. When GDP was added to the NtDRP3 fraction, the filaments disappeared and many particles appeared. Biochemical analysis revealed that NtDRP3 could bind to and bundle both microtubules and actin filaments in vitro.     

Peroxynitrite generation and tyrosine nitration in defense responses in tobacco BY-2 cells

Peroxynitrite (ONOO(-)) is a compound formed by reaction of superoxide (O(2) (-)) with nitric oxide (NO) and is expected to possess characteristics of both O(2) (-) reactivity and NO mobility in order to function as a signal molecule. Although there are several reports that describe the role of ONOO(-) in defense responses in plants, it has been very difficult to detect ONOO(-) in bioimaging due to its short half-life or paucity of methods for ONOO(-)-specific detection among reactive oxygen species or free radicals. Aminophenyl fluorescein (APF), a recently developed novel fluorophore for direct detection of ONOO(-) in bioimaging, was used for intracellular ONOO(-) detection. ONOO(-) generation in tobacco BY-2 cells treated with INF1, the major elicitin secreted by the late blight pathogen Phytophthora infestans, occurred within 1 h and reached a maximum level at 6-12 h after INF1 treatment. Urate, a ONOO(-) scavenger, abolished INF1-induced ONOO(-) generation. It is well known that ONOO(-) reacts with tyrosine residues in proteins to form nitrotyrosine in a nitration reaction as an ONOO(-)-specific reaction. Western blot analysis using anti-nitrotyrosine antibodies recognized nitrotyrosine-containing proteins in 20 and 50 kDa bands in BY-2 protein extract containing SIN-1 [3-(4-morpholinyl) sydnonimine hydrochloride; an ONOO(-) donor]. These bands were also recognized in INF1-treated BY-2 cells and were found to be slightly suppressed by urate. Our study is the first to report ONOO(-) detection and tyrosine nitration in defense responses in plants.     

The plant defense elicitor cryptogein stimulates clathrin-mediated endocytosis correlated with reactive oxygen species production in bright yellow-2 tobacco cells

The plant defense elicitor cryptogein triggers well-known biochemical events of early signal transduction at the plasma membrane of tobacco (Nicotiana tabacum) cells, but microscopic observations of cell responses related to these early events were lacking. We determined that internalization of the lipophilic dye FM4-64, which is a marker of endocytosis, is stimulated a few minutes after addition of cryptogein to tobacco Bright Yellow-2 (BY-2) cells. This stimulation is specific to the signal transduction pathway elicited by cryptogein because a lipid transfer protein, which binds to the same receptor as cryptogein but without triggering signaling, does not increase endocytosis. To define the nature of the stimulated endocytosis, we quantified clathrin-coated pits (CCPs) forming on the plasma membrane of BY-2 cells. A transitory stimulation of this morphological event by cryptogein occurs within the first 15 min. In the presence of cryptogein, increases in both FM4-64 internalization and clathrin-mediated endocytosis are specifically blocked upon treatment with 5 microm tyrphostin A23, a receptor-mediated endocytosis inhibitor. The kinetics of the transient increase in CCPs at the plasma membrane coincides with that of transitory reactive oxygen species (ROS) production occurring within the first 15 min after elicitation. Moreover, in BY-2 cells expressing NtrbohD antisense cDNA, which are unable to produce ROS when treated with cryptogein, the CCP stimulation is inhibited. These results indicate that the very early endocytic process induced by cryptogein in tobacco is due, at least partly, to clathrin-mediated endocytosis and is dependent on ROS production by the NADPH oxidase NtrbohD.     

Glycosylation of bisphenol A by tobacco BY-2 cells

Tobacco BY-2 cells in suspension culture absorbed and transformed bisphenol A dissolved in the culture medium. Major products were bisphenol A mono-O-beta D-gentiobioside and the trisaccharide bisphenol A mono-O-beta-D-glucopyranosyl-(1-->4)-[beta-D-glucopyranosyl-(1 --> 6)] beta-D-glucopyranoside. Also produced were the mono- and di- O-beta-D-glucopyranosides. As glycosides of bisphenol A lack the estrogenic activity of the parent compound, these findings enhance the possibilities of phytoremediation of natural waters contaminated by bisphenol A. .     

Studies on the plant cytoskeleton using miniprotoplasts of tobacco BY-2 cells

Vacuoles in plant cells can be eliminated by centrifugation of protoplasts through a density gradient. In this review, properties of evacuolated protoplasts, named ‘miniprotoplasts’, and the significant roles in plant cytoskeleton studies are described. Miniprotoplasts, prepared from tobacco BY-2 cells whose cell-cycle had been synchronized at late anaphase, continued to divide to form two daughter cells. In the presence of cytochalasin B cytokinetic cleavage was enhanced, suggesting a role of actin filaments in plant cytokinesis. In the cytoplasmic extract of miniprotoplasts both tubulin and actin could be polymerized to form microtubules (MTs) and actin filaments (AFs), respectively. A purification method for tubulin, actin and related proteins was developed using the extract. To investigate the interaction between cortical microtubules and the plasma membrane, an experimental system in which MTs were reconstructed on membrane ghosts was developed by combination of membrane ghosts and the extract.     

Actin-related defense mechanism to reject penetration attempt by a non-pathogen is maintained in tobacco BY-2 cells

The actin cytoskeleton is a key player in defense responses during early stages of infection by fungal pathogens. To investigate molecular mechanisms of actin-related defense responses, a cultured tobacco ( Nicotiana tabacum L.) BY-2 cell system was devised. When conidia were directly deposited on BY-2 cells, neither a pathogen, Erysiphe cichoracearum, nor a non-pathogen, Erysiphe pisi, was able to form appressoria or haustoria on BY-2 cells. On the other hand, conidia of the powdery mildews formed appressoria on BY-2 cells if they were covered with a thin hydrophobic membrane of Formvar. Percentages of appressoria formation of the powdery mildews on the Formvar-covered BY-2 cells were mostly the same as those on leaf epidermal cells. The pathogen successfully penetrated through the membrane into BY-2 cells and formed haustoria, whereas penetration attempts of the non-pathogen were completely rejected by the BY-2 cells similar to attempts on leaf epidermal cells. On the other hand, when BY-2 cells were treated with actin cytoskeleton-depolymerizing agents, cytochalasins, the non-pathogen became able to penetrate and form haustoria in BY-2 cells. Simultaneously, cytochalasin inhibited callose deposition at penetration sites of the non-pathogen. These results demonstrated that the actin cytoskeleton plays an important role in defense mechanisms against fungal penetration, even in the dedifferentiated cultured cells. The newly devised Formvar-covered cultured cell system will be a useful tool for molecular dissection of signal perception and defense mechanisms of plant cells during the early stage of fungal attack.     

Lipid-binding form is a key conformation to induce a programmed cell death initiated in tobacco BY-2 cells by a proteinaceous elicitor of cryptogein

Cryptogein, a proteinaceous elicitor secreted by Phytophthora cryptogea , induces a remarkable hypersensitive cell death in tobacco cells. Two cryptogein mutants were analysed to characterize the induction mechanism of cell death; one was a newly synthesized mutant N93A whose 93rd Asn residue was changed to Ala, the other was K13V whose Lys at position 13 was replaced with Val. The effect of these mutations was evaluated in terms of extracellular alkalization, production of active oxygen species (AOS) and progression to death. The mutation N93A resulted in a reduction in activity to 71.0, 74.6 and 24.5% for original rates of extracellular alkalization, AOS production and cell death progression, respectively. In the case of the K13V mutation, these rates changed to 114, 3.38 and 7.40%, respectively. The lipid-binding activities of the mutants were analysed using fluorogenic lipid of dehydroergosterol. The results for N93A and K13V were 38.3 and 3.40% compared with the wild type, respectively. These findings indicate that the lipid-binding form was the only conformation to induce the production of AOS and programmed cell death in plants.     

Displacement of the mitotic apparatuses by centrifugation reveals cortical actin organization during cytokinesis in cultured tobacco BY-2 cells

In plant cytokinesis, actin is thought to be crucial in cell plate guidance to the cortical division zone (CDZ), but its organization and function are not fully understood. To elucidate actin organization during cytokinesis, we employed an experimental system, in which the mitotic apparatus is displaced and separated from the CDZ by centrifugation and observed using a global–local live imaging microscope that enabled us to record behavior of actin filaments in the CDZ and the whole cell division process in parallel. In this system, returning movement of the cytokinetic apparatus in cultured-tobacco BY-2 cells occurs, and there is an advantage to observe actin organization clearly during the cytokinetic phase because more space was available between the CDZ and the distantly formed phragmoplast. Actin cables were clearly observed between the CDZ and the phragmoplast in BY-2 cells expressing GFP-fimbrin after centrifugation. Both the CDZ and the edge of the expanding phragmoplast had actin bulges. Using live-cell imaging including the global–local live imaging microscopy, we found actin filaments started to accumulate at the actin-depleted zone when cell plate expansion started even in the cell whose cell plate failed to reach the CDZ. These results suggest that specific accumulation of actin filaments at the CDZ and the appearance of actin cables between the CDZ and the phragmoplast during cell plate formation play important roles in the guidance of cell plate edges to the CDZ.     

HarpinPss elicited early defense responses of tobacco cells and involvement of calcium]

HarpinPss can induce hypersensitive reaction (HR) in tobacco leaves. As superoxide dismutase can inhibit but catalase can not inhibit the development of HR induced by harpinPss, superoxide anion is required for this response. HarpinPss can also induce the release of active oxygen and extracellular alkalinization, two early defence responses in tobacco suspension culture. Diphenylene iodoium, can completely inhibit the induction of HR in tobacco leaves, and the release of active oxygen in the suspension culture system, superoxide anion in these system may be produced by the activation of NADPH oxidase. Ethyleneglycol-bis (beta-aminoethyl) N, N, N'N'-tetraacetic acid (EGTA) can inhibit the development of harpinPss-induced HR and these two early defence responses in suspension culture system. Adding Ca2+ into the medium again, these responses can return to normal level in a short time. Lanthanum chloride, verapamil, neomycin, U-73122, and LiCl can also inhibit these harpinPss-induced responses. Therefore, the influx of Ca2+ mediated by calcium channel and the release of Ca2+ from internal Ca2+ pool may be involved in the two early defense responses induced by harpinPss. Cycloheximide and actinomycin D have no effect on the release of active oxygen but can inhibit harpinPss-induced HR even added them in the intermediate process for inducing HR. It indicates superoxide is just a trigger for HR, and HR is a more complex process that needs the sustained expression of some genes.     

Activation of MAP kinases by calcium-dependent and calcium-independent pathways. Stimulation by thapsigargin and epidermal growth factor.

In order to determine the effect of calcium mobilization on mitogen-activated protein (MAP) kinase activation, we have treated human foreskin fibroblasts (HSWP cells) and human epidermal carcinoma (A431) cells with thapsigargin. Intracellular free calcium was monitored by single cell image analysis using fura-2 and correlated with MAP kinase stimulation as assessed by immunoprecipitation, kinase renaturation assays and immunoblotting. Thapsigargin stimulated the 44- and 42-kDa MAP kinase isozymes in both cell types with kinetics that were slightly delayed relative to enzyme stimulated by epidermal growth factor. Removal of external calcium did not significantly affect the activation of the MAP kinases by thapsigargin, indicating that intracellular calcium mobilization is sufficient to stimulate the enzymes. However, treatment of cells with EGTA under conditions which deplete both intra- and extracellular calcium inhibited stimulation by thapsigargin but not epidermal growth factor. Stimulation of the MAP kinases by the calcium ionophore ionomycin paralleled the activation observed with thapsigargin in both calcium-containing and calcium-free conditions. These results indicate that there are at least two independent pathways for stimulation of MAP kinase: one that is dependent on intracellular calcium mobilization, and one that is mediated by the tyrosine kinase epidermal growth factor receptor and is calcium-independent.     

Cell cycle-dependent disruption of microtubules by methyl jasmonate in tobacco BY-2 cells

Summary Methyl jasmonate, a growth-regulating substance that is ubiquitous in the plant kingdom, was found to disrupt cortical microtubules in tobacco cultured cells. It exerted a microtubule-disrupting effect only in cells at the S phase of the cell cycle. Neither microtubules in preprophase bands, spindles and phragmoplasts nor cortical microtubules at stages of the cell cycle other than the S phase were disrupted by methyl jasmonate. Jasmonic acid was as effective as methyl jasmonate in disrupting cortical microtubules.Abbreviations BUdR 5-bromo-2-deoxyuridine - 2,4-D 2,4-dichlorophenoxyacetic acid - DMSO dimethyl sulfoxide - EGTA ethylene glycol bis(2-aminoethyl ether)-tetraacetic acid - FITC fluorescein isothiocyanate - FUdR 5-fluoro-2-deoxyuridine - JA jasmonic acid - JA-Me methyl jasmonate - PBS phosphate-buffered saline - PMSF phenylmethylsulfonyl fluoride     

Activation of a nuclear-localized SIPK in tobacco cells challenged by cryptogein, an elicitor of plant defence reactions

When a plant cell is challenged by a well-defined stimulus, complex signal transduction pathways are activated to promote the modulation of specific sets of genes and eventually to develop adaptive responses. In this context, protein phosphorylation plays a fundamental role through the activation of multiple protein kinase families. Although the involvement of protein kinases at the plasma membrane and cytosolic levels are now well-documented, their nuclear counterparts are still poorly investigated. In the field of plant defence reactions, no known study has yet reported the activation of a nuclear protein kinase and/or its nuclear activity in plant cells, although some protein kinases, e.g. MAPK (mitogen-activated protein kinase), are known to be translocated into the nucleus. In the present study, we investigated the ability of cryptogein, a proteinaceous elicitor of tobacco defence reactions, to induce different nuclear protein kinase activities. We found that at least four nuclear protein kinases are activated in response to cryptogein treatment in a time-dependent manner, some of them exhibiting Ca(2+)-dependent activity. The present study focused on one 47 kDa protein kinase with a Ca(2+)-independent activity, closely related to the MAPK family. After purification and microsequencing, this protein kinase was formally identified as SIPK (salicyclic acid-induced protein kinase), a biotic and abiotic stress-activated MAPK of tobacco. We also showed that cytosolic activation of SIPK is not sufficient to promote a nuclear SIPK activity, the latter being correlated with cell death. In that way, the present study provides evidence of a functional nuclear MAPK activity involved in response to an elicitor treatment.     

Activation of caspase-like proteases and induction of apoptosis by isopentenyladenosine in tobacco BY-2 cells

The effects of isopentenyladenosine (iPA) on tobacco (Nicotiana tabacum L.) BY-2 cells were examined. The number of BY-2 cells decreased in a time- and concentration-dependent manner after being exposed to micromolar concentrations of iPA. This decrease was mainly due to a loss of cell viability, since no substantial changes in cell cycle progression were revealed by flow-cytometric analysis. Dying cells exhibited the typical morphological and biochemical hallmarks of apoptosis, including cell shrinkage, chromatin condensation, and degradation of nuclear DNA to nucleosomal size fragments. Caspase-1-like and caspase-3-like proteases also became activated, the former being dominant. Inhibitor-sensitivity studies revealed that although synthetic caspase inhibitors failed to prevent cell death they markedly reduced cell death in tobacco BY-2 cells, Nu-benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketone, a specific inhibitor for caspase-1, being the most effective. Our results indicate that caspase-like proteases, and particularly caspase-1-like protease, might be critically implicated in iPA-induced apoptosis of BY-2 cells. Finally, the outcome of inhibiting adenosine kinase by 4-amino-3-iodo-1(beta- D-ribofuranosyl)pyrazolo[3,4-d]-pyrimidine revealed that intracellular phosphorylation of iPA is required for its cytotoxicity to develop.     

Identification of putative voltage-dependent Ca2+-permeable channels involved in cryptogein-induced Ca2+ transients and defense responses in tobacco BY-2 cells

Ca(2+) is the pivotal second messenger for induction of defense responses induced by treatment of pathogen-derived elicitor or microbial infection in plants. However, molecular bases for elicitor-induced generation of Ca(2+) signals (Ca(2+) transients) are largely unknown. We here identified cDNAs for putative voltage-dependent Ca(2+)-permeable channels, NtTPC1A and NtTPC1B, that are homologous to TPC1 (two pore channel) from suspension-cultured tobacco BY-2 cells. NtTPC1s complemented the growth of a Saccharomyces cerevisiae mutant defective in CCH1, a putative Ca(2+) channel, in a low Ca(2+) medium, suggesting that both products permeate Ca(2+) through the plasma membrane. Cosuppression of NtTPC1s in apoaequorin-expressing BY-2 cells resulted in inhibition of rise in cytosolic free Ca(2+) concentration ([Ca(2+)](cyt)) in response to sucrose and a fungal elicitor cryptogein, while it did not affect hypoosmotic shock-induced [Ca(2+)](cyt) increase. Cosuppression of NtTPC1s also caused suppression of cryptogein-induced programmed cell death and defense-related gene expression. These results suggest that NtTPC1s are involved in Ca(2+) mobilization induced by the cryptogein and sucrose, and have crucial roles in cryptogein-induced signal transduction pathway.     

Characterization and gene cloning of telomere-binding protein from tobacco BY-2 cells.

In this study, we performed gel mobility shift assays using tobacco BY-2 nuclei extracts to identify the plant telomere-binding proteins (TBP). Although no complexes were detected using C-strand as a probe, a single DNA-protein complex was detected using single-stranded 32P-(TTTAGGG)4 as a probe. In competition experiments, formation of the complex was inhibited only when an ssG-strand telomere repeat was used as a competitor. These results indicate that the observed band reflects a G-strand specific single-stranded telomere-binding protein (NtGTBP1). We purified the binding protein and subsequently used RT-PCR to isolate a gene encoding the protein. The sequence reveals that the protein (NtGTBP1) is a novel TBP from a higher plant, and a search for conserved domains showed that NtGTBP1 contains two RNA recognition motifs (RRMs).     

Radial microtubule organization by histone H1 on nuclei of cultured tobacco BY-2 cells

In acentriolar higher plant cells, the surface of the nucleus acts as a microtubule-organizing center, substituting for the centrosome. However, the protein factors responsible for this microtubule organization are unknown. The nuclear surfaces of cultured tobacco BY-2 cells possess particles that generate microtubules. We attempted to isolate the proteins in these particles to determine their role in microtubule organization. When incubated with plant or mammalian tubulin, some, but not all, of the isolated nuclei generated abundant microtubules radially from their surfaces. The substance to induce the formation of radial microtubules was confirmed by SDS-PAGE to be a protein with apparent molecular mass of 38 kDa. Partial analysis of the amino acid sequences of the peptide fragments suggested it was a histone H1-related protein. Cloning and cDNA sequence analysis confirmed this and revealed that when the recombinant protein was incubated with tubulin, it could organize microtubules as well as the 38-kDa protein. Histone H1 and tubulin formed complexes immediately, even on ice, and then clusters of these structures were formed. These clusters generated radial microtubules. This microtubule-organizing property was confined to histone H1; all other core histones failed to act as organizers. On immunoblot analysis, rabbit antibodies raised against the 38-kDa protein cross-reacted with histone H1 proteins from tobacco BY-2 cells. These antibodies virtually abolished the ability of the nucleus to organize radial microtubules. Indirect immunofluorescence showed that the antigen was distributed at the nuclear plasm and particularly at nuclear periphery independently from DNA.     

Cytological changes and alterations in polyamine contents induced by cadmium in tobacco BY-2 cells.

Changes in cell viability, proliferation, cell and nuclear morphology including nuclear and DNA fragmentation induced by 0.05 and 1 mM CdSO4 (Cd2+) in tobacco BY-2 cell line (Nicotiana tabacum L.) were studied in the course of 7 days. Simultaneously changes in endogenous contents of both free and conjugated forms of polyamines (PAs) were investigated for 3 days. The application of 0.05 mM Cd2+ evoked decline of cell viability to approximately 60% during the first 24 h of treatment. Later on degradation of cytoplasmic strands, formation of the stress granules and vesicles, modifications in size and shape of the nuclei, including their fragmentation, were observed in the surviving cells. Their proliferation was blocked and cells elongated. Beginning the first day of treatment TUNEL-positive nuclei were detected in cells cultivated in medium containing 0.05 mM Cd2+. Treatment with highly toxic 1 mM Cd2+ induced fast decrease of cell viability (no viable cells remained after 6-h treatment) and cell death occurred before DNA cleavage might be initiated. The exposure of tobacco BY-2 cells to 0.05 mM Cd2+ resulted in a marked accumulation of total PAs (represented by the sum of free PAs and their perchloric acid (PCA)-soluble and PCA-insoluble conjugates) during 3-day treatment. The increase in total PA contents was primarily caused by the increase in putrescine (Put) concentration. The accumulation of free spermidine (Spd) and spermine (Spm) at 12 and 24 h in 0.05 mM Cd2+ treated BY-2 cells and high contents of Spd and especially Spm determined in dead cells after I mM Cd2+ application was observed. The participation of PA conjugation with hydroxycinnamic acids and PA oxidative deamination in maintaining of free PA levels in BY-2 cells under Cd2+-induced oxidative stress is discussed.