Partial Purification and Characterization of Hydroxycinnamoyl-Coenzyme A:Tyramine Hydroxycinnamoyltransferase from Cell Suspension Cultures of Solanum tuberosum

A pathogen elicitor-inducible soluble acyltransferase (tyramine hydroxycinnamoyltransferase [THT], EC 2.3.1), which catalyzes the transfer of hydroxycinnamic acids from hydroxycinnamoyl-coenzyme A (CoA) esters to tyramine in the formation of N-hydroxycinnamoyltyramine, was partially purified with a 380-fold enrichment and a 6% recovery from cell-suspension cultures of potato (Solanum tuberosum L. cv Datura). The enzyme showed specific activities of 33 mkat (kg protein)-1 (formation of feruloyltyramine). The apparent native Mr was found to be approximately 49,000. Highest activity was at pH 6.8 in K-phosphate. The isoelectric point of the enzyme was approximately pH5.2. The apparent energy of activation was calculated to be 96 kJ mol-1. The enzyme activity was stimulated more than 5-fold by 10 mM Ca2+ or Mg2+. The apparent Km values were 36 [mu]M for feruloyl-CoA and 85 and 140 [mu]M for cinnamoyl- and 4-coumaroyl-CoA, respectively. The Km value for tyramine in the presence of feruloyl-CoA was 22 [mu]M. In the presence of 4-coumaroyl-CoA, however, the Km for tyramine increased to about 230 [mu]M. The mode of action was an iso-ordered bi bi mechanism in which A, B, P, and Q equal hydroxycinnamoyl-CoA, tyramine, N-hydroxycinnamoyltyramine, and CoA, respectively. Thus, the reaction occurred in a ternary complex of the enzyme and substrates. The equilibrium constant of the reaction was determined to be 1.3 x 104. This gave a [delta]G[deg][prime] eq value of -23.5 kJ mol-1.     

Selection for Hyoscyamine and Cinnamoyl Putrescine Overproduction in Cell and Root Cultures of Hyoscyamus muticus

Hairy root cultures of Hyoscyamus muticus have been shown to produce stable levels of tropane alkaloids comparable to those found in whole plants. In contrast, cell cultures of this and other solanaceous species produce only trace amounts of alkaloids but can be used for selection of metabolic variants. We have taken advantage of both systems and the ability to convert between them in vitro in an effort to select for increased production of the tropane alkaloid hyoscyamine. Hairy roots were converted into cell suspensions by addition of 1 mg/L 2,4-dichlorophenoxyacetic acid to Murashige-Skoog medium (T. Murashige and F. Skoog [1962] Physiol Plant 15: 473-497) and screened for resistance to the amino acid analog p-fluorophenylalanine (PFP). Cells that could grow in media containing 400 [mu]M PFP were selected and cloned from single cells. The resistant cells accumulated high levels of cinnamoyl putrescines, which share the same biosynthetic precursors as hyoscyamine. Hairy root cultures were regenerated from both PFP-sensitive and PFP-resistant cells by removing 2,4-dichlorophenoxyacetic acid from the medium. Resistance to PFP continued to be expressed in regenerated roots. Higher levels of hyoscyamine were found in hairy roots regenerated from PFP-resistant cells than were found in controls. We suggest that the precursors overproduced by the PFP-resistant cells can be diverted into the hyoscyamine pathway upon the regeneration of root cultures.     

Characterization of Carrot and Tobacco Cell Cultures Resistant to p-Fluorophenylalanine

This study describes the isolation and characterization of p-fluorophenylalanine-resistant diploid tobacco (Nicotiana tabacum L.) and diploid carrot (Daucus carota L.) cultured cell lines. The p-fluorophenylalanine-resistant tobacco and carrot lines can grow in medium containing p-fluorophenylalanine concentrations 10 to more than 100 times those which inhibit the growth of susceptible cells, respectively. The resistance trait was retained when the cells were grown in a medium lacking the phenylalanine analog for 50 generations. All 14 single cell clones started from the resistant carrot line remained resistant. The resistant lines incorporated much less p-fluorophenylalanine into protein, partially due to a decrease in uptake. In carrots, an increase in the levels of free phenylalanine and tyrosine also apparently contributed to the decreased incorporation of p-fluorophenylalanine into protein by increasing the metabolic pool size which diluted the incoming analog and caused a lowered percentage of incorporation, which was observed. Apparently, phenylalanine and tyrosine synthesis was also increased in resistant tobacco lines, since chorismate mutase was found to have greater activity and to be less sensitive to inhibition by phenylalanine, tyrosine, and p-fluorophenylalanine. It appears, however, that phenylalanine and tyrosine do not accumulate above the normal levels in the resistant tobacco cells, as these amino acids were apparently converted into phenolic compounds which were found in higher levels (6 times). The low frequency of appearance, the stability of the trait, and the biochemical nature of the resistance, indicate that the p-fluorophenylalanine resistance found in the carrot and tobacco lines described here is due to a mutation.     

Selection of Cultured Tobacco Cell Strains Producing High Levels of Ubiquinone 10 by a Cell Cloning Technique

Strains producing high levels of ubiquinone 10 were isolated from tobacco cell suspension cultures by a cell cloning technique, and the UQ content of these cell strains was analyzed by high performance liquid chromatography. Three strains with high UQ yields in suspension culture were selected and used for investigations on the necessary cultural conditions for UQ production. Sucrose concentration, 2,4-D concentration and culture temperature did not have marked effects on UQ formation. These results differed from those of the original cell lines. Furthermore, the addition of yeast extract to the medium promoted cell growth in these strains remarkably but did not enhance UQ production in the cell strains. According to these investigations, UQ production was increased to 15mg/liter and the UQ level to 1890 μg/g dry wt. of cells after 11 days of incubation.     

The Conversion of d-Tryptophan to l-Tryptophan in Cell Cultures of Tobacco

d-Tryptophan was converted to l-tryptophan in tissue cultures of tobacco, in whole cells treated with dimethylsulfoxide, and in cell-free extracts treated by Sephadex G-25 filtration. Evidence was obtained that tryptophanase, tryptophan pyrrolase, and transaminase activities were not involved. The data were best explained by the presence of a tryptophan racemase as the enzyme catalyzing the reaction. The possible role of d-tryptophan in the biosynthesis of indoleacetic acid is discussed.     

Purification and Properties of Putrescine Hydroxycinnamoyl Transferase from Tobacco (Nicotiana tabacum) Cell Suspensions

The enzyme putrescine hydroxycinnamoyl transferase (PHT) was purified 400-fold in 7.1% yield from tobacco (Nicotiana tabacum L. cv Xanthi) cell suspensions to a final specific activity of 45 nanokatal per milligram protein. The purification procedure involved conventional chromatography techniques (anion exchange chromatography, gel permeation, and hydroxylapatite chromatography) followed by chromatography on caffeoyl-cysteamine-Sepharose. This procedure led to considerable enrichment of a 50 kilodalton protein that could be further purified to near homogeneity by chromatofocalization (apparent isoelectric point = 8). PHT activity was repeatedly found associated with this protein, although approximately 66% of the enzymic activity was lost during chromatofocalization. Purified PHT exhibited the same properties as in the unpurified extract. It was not specific for putrescine and used other aliphatic diamines (mainly diaminopropane and cadaverine) as substrates. The most efficient phenolic substrate was caffeoyl-CoA, but cinnamoyl-, feruloyl-, sinapoyl-, and p-coumaroyl-CoA were also conjugated to putrescine, in decreasing order of activity. PHT could also use the artificial substrate p-fluorocinnamoyl-CoA.     

Putrescine and Acid Stress : Induction of Arginine Decarboxylase Activity and Putrescine Accumulation by Low pH

Incubation of peeled oat Avena sativa L. var Victory leaf segments on media of pH 5.0 or below leads to a rapid and massive increase in the titer of putrescine while incubation at pH values above 5.0 causes little or no change. The low pH effect is independent of the buffer system employed. Putrescine levels rise within 3 hours and reach their peak 8 to 9 hours after acidification. At this time, putrescine titer is eight times greater at pH 3.5 than at 6.0. None of the other polyamines shows a response to changes in external pH. The increase in putrescine is blocked by the addition of cycloheximide or dl-alpha-difluoromethylarginine, a specific inhibitor of the putrescine biosynthetic enzyme, arginine decarboxylase. In one experiment, arginine decarboxylase activity was 110% greater at pH 4.0 than at 6.0 after a 4-hour incubation, although the average increase over many experiments was 47%. The activity of the other possible putrescine biosynthetic enzyme, ornithine decarboxylase, falls throughout the incubation period and is virtually equal at pH 4.0 and 6.0.     

Characteristics of Cultured Tobacco Cell Strains Producing High Levels of Ubiquinone-10 Selected by a Cell Cloning Technique

Characteristic differences were examined between tobacco cell strains producing high levels of ubiquinone (UQ) and the original tobacco cell line (Nicotiana tabacum L. cv BY-2). The growth rate of strains producing high levels of UQ was about half of that of the original cells. The maximum yield in cell dry weight was about two-thirds of that of original cells. The time-course of UQ formation by selected strains and the respiratory rates were similar to those in the original cells. The UQ contents were much higher than those in original cells, not only per g-dry weight but also per cell. Most UQ in the selected strains were also localized in mitochondria, as well as in the original cells. On protein basis, the yield of purified mitochondria from strains producing high levels of UQ was 4.3 times as much as that from original cells. UQ formation per mg of mitochondrial protein and the molar ratios of UQ to the other electron transport components in selected cells were similar to those in original cells. The ratio of the mitochondrial protein yield in strains producing high levels of UQ to the yield in original cells correlated closely with the ratio of UQ content per g-dry weight in UQ-producing strains to UQ content in original cells.     

Photosynthetic Carbon Metabolism in Photoautotrophic Cell Suspension Cultures Grown at Low and High CO(2)

Photosynthetic carbon metabolism was characterized in four photoautotrophic cell suspension cultures. There was no apparent difference between two soybean (Glycine max) and one cotton (Gossypium hirsutum) cell line which required 5% CO₂ for growth, and a unique cotton cell line that grows at ambient CO₂ (660 microliters per liter). Photosynthetic characteristics in all four lines were more like C₃ mesophyll leaf cells than the cell suspension cultures previously studied. The pattern of ¹⁴C-labeling reflected the high ratio of ribulosebisphosphate carboxylase to phosphoenolpyruvate carboxylase activity and showed that CO₂ fixation occurred primarily by the C₃ pathway. Photorespiration occurred at 330 microliters per liter CO₂, 21% O₂ as indicated by the synthesis of high levels of ¹⁴C-labeled glycine and serine in a pulse-chase experiment and by oxygen inhibition of CO₂ fixation. Short-term CO₂ fixation in the presence and absence of carbonic anhydrase showed CO₂, not HCO₃⁻, to be the main source of inorganic carbon taken up by the low CO₂-requiring cotton cells. The cells did not have a CO₂-concentrating mechanism as indicated by silicone oil centrifugation experiments. Carbonic anhydrase was absent in the low CO₂-requiring cotton cells, present in the high CO₂-requiring soybean cell lines, and absent in other high CO₂ cell lines examined. Thus, the presence of carbonic anhydrase is not an essential requirement for photoautotrophy in cell suspension cultures which grow at either high or low CO₂ concentrations.     

Ozone-Induced Cell Death Mediated with Oxidative and Calcium Signaling Pathways in Tobacco Bel-W3 and Bel-B Cell Suspension Cultures

Ozone (O₃)-induced cell death in two suspension-cultured cell lines of tobacco (Nicotiana tabacum L.) derived from Bel-W3 (hyper-sensitive to O₃) and Bel-B (highly tolerant to O₃) varieties were studied. By exposing the newly prepared cell lines to the pulse of ozonized air, we could reproduce the conditions demonstrating the difference in O₃ sensitivity as observed in their original plants, depending on the exposure time. Since O₃-induced acute cell death was observed in the dark, the requirement for photochemical reactions could be eliminated. Addition of several ROS scavengers and chelators inhibited the cell death induced by O₃, indicating that singlet oxygen (¹O₂), hydrogen peroxide (H₂O₂), hydroxyl radical and redox-active metals such as Fe²⁺ play central roles in O₃-induced acute damages to the cells. As expected, we observed the generation of ¹O₂ and H₂O₂ in the O₃-treated cells using chemiluminescent probes. On the other hand, an NADPH oxidase inhibitor, superoxide dismutase (SOD), and some SOD mimics showed no inhibitory effect. Thiols added as antioxidants unexpectedly behaved as prooxidants drastically enhancing the O₃-induced cell death. It is noteworthy that some ROS scavengers effectively rescued the cells from dying even treated after the pulse of O₃ exposure, confirming the post-ozone progress of ROS-dependent cell death mechanism. Since one of the key differences between Bel-B and Bel-W3 was suggested to be the capacity for ROS detoxification by catalase, the endogenous catalase activities were compared in vivo in two cell lines. As expected, catalase activity in Bel-B cells was ca. 7-fold greater than that in Bel-W3 cells. Interestingly, Ca²⁺ chelators added prior to (not after) the pulse of O₃ effectively inhibited the induction of cell death. In addition, increases in cytosolic Ca²⁺ concentration sensitive to Ca²⁺ chelators, ion channel blockers, and ROS scavengers were observed in the transgenic Bel-W3 cells expressing aequorin, suggesting the action of Ca²⁺ as a secondary messenger initiating the oxidative cell death. The O₃-induced calcium response in Bel-W3 cells was much greater than Bel-B cells. Based on the results, possible pathways for O₃-dependent generation of the lethal level of ROS and corresponding signaling mechanism for induction of cell death were discussed.Key Words: calcium, cell death, Nicotiana tabacum L., ozone, reactive oxygen species     

Degradation of Putrescine and Cadaverine in Seawater Cultures by Marine Bacteria

Marine bacteria removed two diamines, putrescine and cadaverine, from coastal seawater supplemented only with these compounds. Batch cultures of natural bacterial communities were grown in filtered seawater (0.05 μm) supplemented with 500 μg of putrescine or cadaverine per liter. Increases in bacterial cell number were counted with an epifluorescence microscope after acridine orange staining. Removal of diamines from seawater was monitored by high-performance liquid chromatography. Diamines were removed from the seawater cultures within 48 h with no corresponding increase in bacterial yield, growth rate, or viability relative to control (unsupplemented) cultures. Shipboard experiments with open-ocean deep water (1,500 m) showed similar, if slower, removal of putrescine from seawater. Unlike uptake experiments with amino acids, labeled putrescine experiments indicated that most putrescine carbon is mineralized to CO₂ rather than assimilated by the bacteria. After growth in unsupplemented control cultures, the bacteria showed a significant potential to mineralize putrescine, indicating a general degradation potential for this compound by marine bacteria even if the compound was not present during growth. Indicators of metabolic activity such as glucose and glutamic acid uptake and mineralization were not affected by the presence of putrescine. This shows that at the concentrations added, the diamines are not toxic, and therefore detoxification was not the reason for degradation of the diamines by the bacteria.     

镉胁迫引起烟草悬浮细胞程序性死亡

镉胁迫会造成烟草悬浮细胞大规模死亡。通过TUNEL技术和琼脂糖凝胶电泳技术的检测发现,这种细胞死亡伴随有典型的DNA“梯形带”出现,表明这种由Cd胁迫引起的细胞死亡是一种程序性死亡。受胁迫细胞氧化性增强及细胞中丙二醛(MDA)水平升高,说明Cd胁迫时会在细胞中造成大量活性氧(ROS),暗示烟草细胞的程序性死亡可能与ROS有关。     

Sustained Levels of FGF2 Maintain Undifferentiated Stem Cell Cultures with Biweekly Feeding

An essential aspect of stem cell culture is the successful maintenance of the undifferentiated state. Many types of stem cells are FGF2 dependent, and pluripotent stem cells are maintained by replacing FGF2-containing media daily, while tissue-specific stem cells are typically fed every 3rd day. Frequent feeding, however, results in significant variation in growth factor levels due to FGF2 instability, which limits effective maintenance due to spontaneous differentiation. We report that stabilization of FGF2 levels using controlled release PLGA microspheres improves expression of stem cell markers, increases stem cell numbers and decreases spontaneous differentiation. The controlled release FGF2 additive reduces the frequency of media changes needed to maintain stem cell cultures, so that human embryonic stem cells and induced pluripotent stem cells can be maintained successfully with biweekly feedings.     

Factors Prior to Dry Period Associated with High and Low Levels of Cow Milk Somatic Cell Counts in Next Lactation

Data from a randomized controlled field study of selective dry cow therapy were used in which 686 cows had been allocated to 2 control groups (sampling only or placebo) or 2 therapy groups. Possible factors from previous lactation were assessed in determining their association with the probability of ‘failure’, designated as a cow milk somatic cell count (CMSCC) of greater than 399000 per ml in geometric mean of several measurements during subsequent lactation. Success cows were those with a CMSCC of less than 200000 per ml. For our analyses, this targeted 187 success cows and 186 failure cows. Therapy was given as a total dose of 400000 IU penicillin and 100 mg neomycin per infected quarter as dry cow preparation once, or as a lactation formula with a total dose of 1.2 million IU penicillin and 1200 mg dihydrostreptomycin per infected quarter during a 1-week period. Significant factors in the predictive model for success included therapy, low level of CMSCC (geometric mean of the 3 last tests) in previous lactation, low level of CMSCC (weighted by daily milk yield mean) in the herd, young cows, and not having had a case of treatment for chronic clinical mastitis. Additional information on the probability of failure in treated and untreated cows can be predicted by number of quarters infected with Staphylococcus aureus approximately 1.5 months before drying off. The models derived are considered for use as tools in selective treatment and culling decisions.     

Spontaneous Cell Fusion in Macrophage Cultures Expressing High Levels of the P2Z/P2X7 Receptor

Mouse and human macrophages express a plasma membrane receptor for extracellular ATP named P2Z/P2X₇. This molecule, recently cloned, is endowed with the intriguing property of forming an aqueous pore that allows transmembrane fluxes of hydrophylic molecules of molecular weight below 900. The physiological function of this receptor is unknown. In a previous study we reported experiments suggesting that the P2Z/P2X₇ receptor is involved in the formation of macrophage-derived multinucleated giant cells (MGCs; Falzoni, S., M. Munerati, D. Ferrari, S. Spisani, S. Moretti, and F. Di Virgilio. 1995. J. Clin. Invest. 95:1207– 1216). We have selected several clones of mouse J774 macrophages that are characterized by either high or low expression of the P2Z/P2X₇ receptor and named these clones P2Zhyper or P2Zhypo, respectively. P2Zhyper, but not P2Zhypo, cells grown to confluence in culture spontaneously fuse to form MGCs. As previously shown for human macrophages, fusion is inhibited by the P2Z/P2X₇ blocker oxidized ATP. MGCs die shortly after fusion through a dramatic process of cytoplasmic sepimentation followed by fragmentation. These observations support our previous hypothesis that the P2Z/P2X₇ receptor is involved in macrophage fusion.     

Intracellular Levels of Cyclic Nucleotides during Cell Enlargement and Cell Division in Excised Tobacco Pith Tissues

Two lines of evidence, one of which is based on the radioimmunoassay and the other on adenosine 3', 5'-cyclic monophosphate (cyclic AMP)-dependent histone phosphorylation, are presented to demonstrate the presence of cyclic AMP in excised tissues of higher plant species. Intracellular levels of this cyclic nucleotide appear to be determined by auxin and a positive correlation has been found to exist between cell enlargement and chromosomal DNA replication, both auxin-dependent processes, and the level of cyclic AMP in tobacco pith cells. Intracellular guanosine 3', 5'-cyclic monophosphate (cyclic GMP) levels, while measurable, did not appear to be affected by either auxin or kinetin, or both, during the cell enlargement or cell division phases of the cell cycle in the tobacco pith system.     

Changes in Amines and Biosynthetic Enzyme Activities in p-Fluorophenylalanine Resistant and Wild Type Tobacco Cell Cultures

The levels of free amines and the activities of their biosynthetic enzymes were measured in a p-fluorophenylalanine resistant Nicotiana tabacum L. cv Xanthi cell line (TX4) which accumulates high levels of cinnamoylamides, and a wild type cell line (TX1). Putrescine in TX1 and spermidine in TX1 and TX4 increased 4-fold by day 4 but declined by day 8 of the culture period. Spermine levels were consistently low, while tyramine was not found in TX1 until day 9 when a gradual rise was noted. Ornithine decarboxylase activity in TX1 and TX4 increased slightly through day 2 but declined gradually thereafter. S-Adenosylmethionine decarboxylase activity remained low throughout the culture period, and tyrosine and arginine decarboxylases in TX1 were very low in activity. In contrast, the activities of tyrosine and arginine decarboxylases were elevated in TX4, but a 3-fold increase in tyramine after a subculture was not accompanied by a rise in tyrosine decarboxylase. However, tyrosine decarboxylase activity did increase during a second rise in tyramine levels in aging cells, late in the culture period. Although significant differences exist in amine levels, between TX4 and TX1, it is unclear how altered amine metabolism relates to p-fluorophenylalanine resistance.