Anthraquinones production in Rubia tinctorum cell suspension cultures: Down scale of shear effects

The effect of turbulence on suspended cells is one of the most complex problems in the scale-up of cell cultures. In the present paper, a direct comparison of the effects of turbulence on suspension cultures of Rubia tinctorum in a standard bioreactor and in shake flask cultures was done. A procedure derived from the well known global method proposed by Nishikawa et al. (1977) [39] was applied. Standard flasks and four-baffled shake flasks were used. The effect of turbulence and light irradiation on cell viability, biomass, and anthraquinones (AQs) production was evaluated. The biomass concentration and AQs production obtained using baffled shake flasks agitated at 360 rpm were similar to that achieved in R. tinctorum suspension cultures growing in a stirred tank bioreactor operating at 450 rpm, previously published (Busto et al., 2008 [17]). The effect of light on AQs production was found to be very significant, and a difference of up to 48% was found in cells with and without illumination after 7 days of culture. It is concluded that this down-scaled and simple flask culture system is a suitable and valid small scale instrument for the study of intracellular mechanisms of turbulence-induced AQs production in R. tinctorum suspension cultures.     

Physical stress for overproduction of biomass and flavonoids in cell suspension cultures of Boesenbergia rotunda

Flavonoid, a bioactive compound isolated from the rhizomes of Boesenbergia rotunda, exhibited antibiotic and anti-inflammatory properties and has also shown high inhibitory activity of dengue-2 virus protease. Several factors are responsible for the production of flavonoid in cell cultures. In the present study, the effects of initial inoculation volume, temperature and speed of agitation on cell growth, total and selected flavonoid in suspension cultures of B. rotunda were determined. High performance liquid chromatography analysis showed that a 2 % inoculation volume induced a significantly high accumulation of biomass and of flavonoid in the cells. The cells cultured at 25 °C showed significantly high biomass and selected flavonoid accumulation while differences in medium agitation significantly affected the yield of selected flavonoid.     

Rollinia mucosa cell suspension cultures: Establishment and growth conditions

Different types and concentrations of plant growth regulators were tested in order to obtain the best callus and cell suspension culture growth conditions of Rollinia mucosa (Jacq.) Baill. (Annonaceae). Picloram was shown to be the most efficient for induction and production of friable calluses, independent of the concentration used. Cellular morphology and viability, fresh and dry weights, pH and medium sugar concentration were determined for cell suspension cultures. Dissimilation curves were used for the characterization of the growth of cell suspension cultures. Picloram provided the most rapid growth and produced the highest biomass, with little variation in morphology (differentiated cells). It also provided the highest dissimilation, when compared with cell suspension cultures maintained in media with 2,4-D or NAA + BA + GA₃. Stable cell suspension cultures can be established in MS medium supplemented with 20.8 μM picloram. This revised version was published online in August 2006 with corrections to the Cover Date.     

Enhancement of phase II enzyme activity by purpurin resulting in the suppression of MeIQx–DNA-adduct formation in mice

We previously demonstrated using a bacterial system that the antigenotoxic activity of the anthraquinone compounds purpurin and alizarin was due to the suppression of microsomal enzyme activity involved in the activation of mutagens. In the present study we determined the effect of purpurin and alizarin on (i) MeIQx–DNA-adduct formation in mouse tissues and (ii) the activity of phases I and II enzymes in liver fractions, the liver being the target tissue of MeIQx. The amount of MeIQx–DNA adduct formed was determined using ³²P-postlabeling methods. Methoxyresorufin-O-demethylase (MROD) and ethoxyresorufin-O-deethylase (EROD) enzyme activities, which reflect CYP 1A activity, were measured as markers for phase I enzymes, and UDP–glucuronyltransferase (UGT) and glutathione S-transferase (GST) activities were determined as markers for phase II enzymes. Mice fed with a diet containing 0.5% purpurin for 3 days prior to MeIQx administration had 70% fewer MeIQx–DNA adducts in the lung and kidney, and fewer DNA adducts (insignificant, statistically) in the liver compared with mice fed a diet lacking purpurin. MROD and EROD activities in the liver of these mice increased six- and eight-fold, respectively, and were higher than those determined for the control mice within 1 day following commencement of purpurin treatment. These elevated activities were maintained during treatment and declined immediately following removal of purpurin from the diet. GST and UGT activities gradually increased 2.5- and 3-fold, respectively, following purpurin treatment, and were maintained at significantly high levels even after purpurin administration ceased. Alizarin did not significantly affect DNA-adduct formation and enzyme activity, except in the case of UGT. Taken together, our results show that purpurin reduced MeIQx–DNA-adduct formation by maintaining elevated phase II enzyme activities, thereby facilitating accelerated excretion of MeIQx.     

Synergistic effect of methyl jasmonate and cyclodextrins on anthraquinone accumulation in cell suspension cultures of Morinda citrifolia and Rubia tinctorum

Plant in vitro culture is a platform for producing secondary metabolites that combines safety, quality and low environmental impact. Besides, it is possible to increase the accumulation of these compounds by different strategies, such as elicitation. In this work, we analyzed the effects of the combination of methyl jasmonate (MeJ) and two cyclodextrins (CDs) on the production of anthraquinones (AQs) in cell cultures of Rubiaceae (Morinda citrifolia and Rubia tinctorum). These secondary metabolites have been traditionally used as dyes and have interesting therapeutic applications. The experiments were designed according to a full factorial design of two factors (MeJ and a CD) in two levels (0 and 0.1 mM for MeJ, and 0 and 20 mM of the CD). MeJ and (2-hydroxypropyl)-β-cyclodextrin (HPCD) synergistically increased intracellular AQ content in suspension cultures of R. tinctorum, and, to a lesser extent, in suspension cultures of M. citrifolia. Combination of MeJ with another CD, 2-methyl-β-cyclodextrin, led to a more intense and later increase in AQ content in cell cultures of R. tinctorum when compared to MeJ–HPCD treatment. However, the combination of CD and MeJ failed to induce a drastic AQ release to the culture media. Nevertheless, our results show that combination of strategies (using a CD and MeJ) was successful to increase secondary metabolite accumulation in suspension cultures. To our knowledge, this is the first report of synergistic effect of MeJ and CD on AQ accumulation in plant in vitro cultures.

     

Immobilization of yeast cells in plant cell wall frameworks

Summary Cell-structured support materials (CSM) representing the cell framework of denaturated and extracted mosses, duckweeds or parenchyma tissue particles have been used for the immobilization of Saccharomyces cerevisiae cells. The method consists of inoculation by soaking the dehydrated materials in a yeast suspension and propagation of the yeast cells that reach the relatively closed inner volumes of the cell-structured particles (inter- or intracellular spaces). In spite of high cell densities (up to 2.5 × 10⁹ cells/g wet immobilizate) the velocity of microaerobic glucose consumption was little influenced by intraparticular diffusion resistances, when yeast loaded CSM made from Wolffia arrhiza was incubated in 100 mM glucose at room temperature.     

Aggregate cell suspension cultures of Tripterygium wilfordii Hook. f. for triptolide, wilforgine, and wilforine production

The relationships between aggregate cell types, cell growth, and the triptolide, wilforgine, and wilforine content in aggregate cell suspension cultures of Tripterygium wilfordii Hook. f. were examined. Aggregate cells larger than 2?mm grew quickly and constituted the majority of the white aggregates. The accumulation of triptolide was strongly correlated with the size of the aggregates and the length of the culture period. The aggregates 0.5?C2?mm in diameter accumulated higher triptolide content than those with other sizes throughout the culture. However, the size of the aggregate cells did not significantly affect on the wilforgine and wilforine content. Two other kinds of aggregate cells, the brown and green aggregate cells, also formed in the suspension cultures. The smallest aggregates (0.1?C0.5?mm) had a lower biomass and growth rate and had more chloroplasts and higher alkaloid content. The results of this study can be used to improve the selection process for the mass production of triptolide, wilforgine, and wilforine from cell suspension cultures.     

Increased secondary product formation in plant cell suspension cultures after treatment with a yeast carbohydrate preparation (elicitor)

A carbohydrate fraction isolated from yeast extract by ethanolic precipitation was used as an elicitor to induce secondary product formation in plant cell suspension cultures. The elicitor preparation is effective in inducing glyceollin isomer synthesis (up to 200 μg glyceollin per g dry wt) in cells of Glycine max and enhancing berberine biosynthesis (up to four-fold) in cells of Thalictrum rugosum. The response of the cell cultures to the elicitor treatment is dependent on the amount of carbohydrate per unit of biomass and on the physiological state of the cells. Cells are optimally induced in late exponential or early stationary growth phases.     

Mode of incorporation of precursors into alizarin (1,2-dihydroxy-9,10-anthraquinone)

The biosynthesis of alizarin (1,2-dihydroxy-9,10-anthraquinone) in Rubia tinctorum L. has been studied by tracer techniques. Specific incorporation of label from carboxyl-¹⁴C-d-shikimic acid, 2-¹⁴C-dl-glutamic acid and 5-¹⁴C-dl-Mevalonic acid suggests that these compounds provide the carbon skeleton of alizarin. Nonsymmetrical incorporation of label from carboxyl-¹⁴C-d-shikimic acid and 2-¹⁴C-dl-glutamic acid into alizarin indicates that the symmetrical 1,4-naphthoquinone is probably not an intermediate. Activity from o-(succinyl-2,3¹⁴C)-benzoic acid was found in the substituted benzene ring of alizarin. These data indicate that α-ketoglutaric acid or a derivative thereof combines with shikimic acid, chorismic acid or phrephenic acid to give o-succinylbenzoic acid which is then transformed to a nonsymmetrical intermediate γ,γ-Dimethylallylpyrophosphate is then attached, ring closure and further modification leading to alizarin.     

Comparison of the Effect of Different Fungal Elicitors on Rubia Tinctorum L. Suspension Culture

The effect of two elicitor types prepared from three different fungi on the alizarin content and the ultrastructure of Rubia tinctorum cells was studied. The de novo alizarin synthesis took place predominantly during the first day of treatment then it was followed by a constant release of alizarin into the medium. The alkalinization of the medium was similar in every treatment. The number of the living cells did not changed during 24-h elicitor treatments, but it decreased significantly after 96 h. The appearance of vacuolar bodies, and the change of the plasmalemmasome structure from vesiculo-reticular to reticulo-lamellar were the most typical morphological syndromes due to elicitation. Phytium elicitor proved to be the least effective, and Botrytis elicitor seemed to be the most effective.     

Immobilization of cultured Catharanthus roseus cells using a fibreglass substratum

Summary Cultured Catharanthus roseus cells were immobilized using geometrically identical needled fibreglass mats prepared with a range of surface coatings. The phenyl (PS), polyglycol (PG), aldehyde (CHO), alkyl (CTMS), and silanol (AW) coatings, along with the untreated glass (HC) surface, produced surfaces with a range of surface tensions. The immobilization efficiency of the substratum, measured as the percentage of cells immobilized, increased with increasing substratum surface tension in the order PS < PG < CHO < CTMS < AW < HC. The dependence of immobilization efficiency on substratum surface tension can be described using a thermodynamic model of adhesion that considers the extent of plant cell adhesion to be a function of the surface tensions of the substratum, the suspending liquid, and the plant cells. In addition, this dependence also demonstrates the fundamental role of adhesion in the immobilization process involving a glass fibre matrix. However, cell entrapment processes are also implicated. The untreated glass fibre substratum (HC), which demonstrated the greatest immobilization efficiency, was used for further characterization of the immobilization strategy. Maximum inoculum biomass was determined to be approximately 1.9 g cells (fresh weight)/g substratum (dry weight) to achieve greater than 90% immobilization efficiency. The growth rate of immobilized cultures was slower than suspension cultures, probably due to mass transfer limitations. Production of the indole alkaloids, tryptamine, catharanthine, and ajmalicine, was also suppressed relative to suspension-cultured cells. These results are considered in relation to other immobilization strategies and their apparent effects on cellular processes. Offprint requests to: F. Dicosmo     

Enhanced plumbagin accumulation in embryogenic cell suspension cultures of Plumbago rosea L. following elicitation

This study focused on enhancing the production of plumbagin, an anticancer compound, in embryogenic cell suspension cultures of Plumbago rosea. Elicitation techniques have been reported to enhance plumbagin production. Cell suspension cultures raised from embryogenic calli induced from in vitro leaf explants were exposed to different concentrations of jasmonic acid, yeast extract and different auxin combinations. Influence of these on cell growth, biomass and plumbagin production was studied. To our knowledge this is the first report on elicitation of embryogenic cell suspension cultures of P. rosea for enhanced plumbagin production. Elicitor treated suspension cultures exhibited decreased culture viability and increased plumbagin synthesis. A maximum of 5.59-fold enhancement of plumbagin production was observed in cultures added with 1 mg L^?1 naphthalene acetic acid after 6 days of incubation. Viability of cultures decreased with increased concentration of elicitors and prolonged incubation period. Application of elicitors in cell suspension cultures induces defense related responses which lead to increased secondary metabolite production for making the cells adapt to the situation. If the stressed condition persists or is in intolerable level this will eventually lead to programmed cell death and loss of culture viability.     

Optimization of cell growth and bacoside-A production in suspension cultures of <Emphasis Type="Italic">Bacopa monnieri</Emphasis> (L.) Wettst. using response surface methodology

Plant secondary metabolites have emerged as potential raw materials, which are used in the pharmaceutical, food, chemical, and cosmetic industries. Bacoside-A, a secondary metabolite produced by Bacopa monnieri, is known for its memory-facilitating properties. In recent years, various strategies have been developed to enhance biomass accumulation and synthesis of secondary compounds in cultures. In the present investigation, various factors affecting the production of biomass and bacoside-A in the cell suspension cultures of B. monnieri were optimized using the statistical experimental design approach. Preliminary screening by Plackett–Burman’s design revealed that among the tested factors, glucose, KNO₃, KH₂PO₄, and inoculum density significantly influenced cell growth and bacoside-A production. Furthermore, using response surface methodology (RSM), glucose, KNO₃, and KH₂PO₄ at a concentration of 5.67, 0.313, and 0.29%, respectively, and an inoculum density of 0.66% in basal MS medium were found to be optimal for cell growth and bacoside-A production. After optimization, the biomass yield increased about twofold (from 5.52 to 12.58 g L^?1 fresh cell weight) and bacoside-A production about 1.7-fold (5.56 to 9.84 mg g^?1 dry weight). The present study results show the successful application of RSM to enhance the production of biomass and accumulation of bacoside-A content in cell suspension cultures of B. monnieri.     

The effects of cadmium chloride on secondary metabolite production in Vitis vinifera cv. cell suspension cultures

Background

Plant secondary metabolites are possess several biological activities such as anti-mutagenic, anti-carcinogenic, anti-aging, etc. Cell suspension culture is one of the most effective systems to produce secondary metabolites. It is possible to increase the phenolic compounds and tocopherols by using cell suspensions. Studies on tocopherols production by cell suspension cultures are seldom and generally focused on seed oil plants. Although fresh grape, grape seed, pomace and grape seed oil had tocopherols, with our best knowledge, there is no research on tocopherol accumulation in the grape cell suspension cultures. In this study, it was aimed to determine the effects of cadmium chloride treatments on secondary metabolite production in cell suspension cultures of grapevine. Cell suspensions initiated from callus belonging to petiole tissue was used as a plant material. Cadmium chloride was applied to cell suspension cultures in different concentration (1.0 mM and 1.5 mM) to enhance secondary metabolite (total phenolics, total flavanols, total flavonols, trans-resveratrol, and α-, β-, γ- δ-tocopherols) production. Cells were harvested at two days intervals until the 6^th day of cultures. Amounts of total phenolics, total flavanols and total flavonols; trans-resveratrol and tocopherols (α-, β-, γ- and δ-tocopherols) and dry cell weights were determined in the harvested cells.

Results

Phenolic contents were significantly affected by the sampling time and cadmium concentrations. The highest values of total phenolic (168.82 mg/100 g), total flavanol (15.94 mg/100 g), total flavonol (14.73 mg/100 g) and trans-resveratrol (490.76 μg/100 g) were found in cells treated with 1.0 mM CdCl₂ and harvested at day 2. Contents of tocopherols in the cells cultured in the presence of 1.0 mM CdCl₂ gradually increased during the culture period and the highest values of α, β and γ tocopherols (145.61, 25.52 and 18.56 μg/100 g) were detected in the cell cultures collected at day 6.

Conclusions

As a conclusion, secondary metabolite contents were increased by cadmium chloride application and sampling time, while dry cell weights was reduced by cadmium chloride treatments.     

Comparison of plant-based expression platforms for the heterologous production of geraniol

We compared the ability of different plant-based expression platforms to produce geraniol, a key metabolite in the monoterpenoid branch of the terpenoid indole alkaloid biosynthesis pathway. A geraniol synthase gene isolated from Valeriana officinalis (VoGES) was stably expressed in different tobacco systems. Intact plants were grown in vitro and in the greenhouse and were used to generate cell suspension and hairy root cultures. VoGES was also transiently expressed in N. benthamiana. The highest geraniol content was produced by intact transgenic plants grown in vitro (48 μg/g fresh weight, fw), followed by the transient expression system (27 μg/g fw), transgenic plants under hydroponic conditions in the greenhouse and cell suspension cultures (16 μg/g fw), and finally hairy root cultures (9 μg/g fw). Differences in biomass production and the duration of cultivation resulted in a spectrum of geraniol productivities. Cell suspension cultures achieved a geraniol production rate of 1.8 μg/g fresh biomass per day, whereas transient expression produced 5.9 μg/g fresh biomass per day (if cultivation prior to agroinfiltration is ignored) or 0.5 μg/g fresh biomass per day (if cultivation prior to agroinfiltration is included). The superior productivity, strict process control and simple handling procedures available for transgenic cell suspension cultures suggest that cells are the most promising system for further optimization and ultimately for the scaled-up production of geraniol.     

Growth of mycorrhizal jack pine (Pinus banksiana) and white spruce (Picea glauca) seedlings planted in oil sands reclaimed areas

The effectiveness of ectomycorrhizal inoculation at the tree nursery seedling production stage on growth and survival was examined in jack pine (Pinus banksiana) and white spruce (Picea glauca) planted in oil sands reclamation sites. The seedlings were inoculated with Hebeloma crustuliniforme strain # UAMH 5247, Suillus tomentosus strain # UAMH 6252, and Laccaria bicolor strain # UAMH 8232, as individual pure cultures and in combinations. These treatments were demonstrated to improve salinity resistance and water uptake in conifer seedlings. The field responses of seedlings to ectomycorrhizal inoculation varied between plant species, inoculation treatments, and measured parameters. Seedling inoculation resulted in higher ectomycorrhizal colonization rates compared with non-inoculated control, which had also a relatively small proportion of roots colonized by the nursery contaminant fungi identified as Amphinema byssoides and Thelephora americana. Seedling inoculation had overall a greater effect on relative height growth rates, dry biomass, and stem volumes in jack pine compared with white spruce. However, when examined after two growing seasons, inoculated white spruce seedlings showed up to 75 % higher survival rates than non-inoculated controls. The persistence of inoculated fungi in roots of planted seedlings was examined at the end of the second growing season. Although the inoculation with H. crustuliniforme triggered growth responses, the fungus was not found in the roots of seedlings at the end of the second growing season suggesting a possibility that the observed growth-promoting effect of H. crustuliniforme may be transient. The results suggest that the inoculation of conifer seedlings with ectomycorrhizal fungi could potentially be carried out on a large scale in tree nurseries to benefit postplanting performance in oil sands reclamation sites. However, these practices should take into consideration the differences in responses between the different plant species and fungal strains.     

Phenylalanine Ammonia-Lyase from Tomato Cell Cultures Inoculated with Verticillium albo-atrum

Tomato (Lycopersicon esculentum Mill.) cell suspension cultures accumulated wall-bound phenolic materials in response to inoculation with Verticillium albo-atrum Reinke et Berth. in a fashion analogous to that observed in whole plants. Both monomeric and polymeric materials were recovered. Deposition of phenolics into the cell walls of inoculated tomato cell cultures was inhibited by the phenylalanine ammonia-lyase (PAL) inhibitor, 2-amino-2-indanephosphate. Tomato PAL activity was induced over 12-fold by fungal inoculation, with a concomitant increase in the corresponding mRNA. The enzyme was purified >3400-fold, to apparent homogeneity, by anion-exchange chromatography, chromatofocusing, and gel filtration. The holoenzyme had a molecular mass of 280 to 320 kilodaltons, comprising 74-kilodalton subunits, and displayed an isoelectric point of 5.6 to 5.7. Induced PAL displayed apparent Michaelis-Menten kinetics (K_m = 116 micromolar) and was not appreciably inhibited by its product cinnamic acid. Chromatographic analysis did not reveal multiple forms of the enzyme in either inoculated or uninoculated cultures.     

Quinine and quinidine production by cinchona leaf,root and unorganized cultures

Serially propagated Cinchona ledgeriana and C. succirubra (Rubiaceae) leaf, root and unorganized suspension cultures established from germinated seeds were studied for quinine and quinidine production. Leaf organ cultures were grown and subcultured in Murashige and Skoog's Revised Tobacco Medium supplemented with benzyladenine; root organ cultures were grown on the same medium supplemented with indolebutyric acid; and unorganized suspension cultures were grown on the same medium supplemented with 2,4-dichlorophenoxyacetic acid and benzyladenine. On a dry weight basis, leaf organ cultures of C. ledgeriana contained 0.06 % quinine and 0.05 % quinidine and of C. succirubra contained 0.04 % quinine and 0.04 % quinidine. No quinine and quinidine were detected in either root organ or unorganized suspension cultures.     

Obtaining and Study of Callus and Suspension Plant Cell Cultures of <Emphasis Type="Italic">Tribulus terrestris</Emphasis> L., a Producer of Steroidal Glycosides

Callus and suspension plant cell cultures of Tribulus terrestris L., a valuable medicinal plant producing steroidal glycosides, were obtained. The seeds from an American population of T. terrestris were used as explants. Regulation of the production and growth of cell cultures, as well as the biosynthetic characteristics of the cell lines, were studied. The combination of phytohormones of 2,4-D (2.0 mg/L) and BAP (1.0 mg/L) was found to be optimal for callus induction and cultivation. Suspension cell culture obtained in liquid medium of the same composition showed such high growth characteristics during prolonged cultivation (more than 2 years) as a maximum accumulation of dry biomass of 13 g/L, specific growth rate at exponential phase of 0.24 day^–1, and economical coefficient of 0.39. A semicontinuous mode of cultivation was used to grow the plant cell suspension in a lab-scale bioreactor. Screening of the steroidal glycosides in the obtained cell cultures was carried out. Steroidal glycosides were not found in the callus cultures. However, as was demonstrated by TLC and UPLC ESI MS methods, the suspension culture contained furostanol glycosides, and their amount increased during the cultivation process. These results support the hypothesis of the autoselection of cultivated cells containing compounds promoting their proliferation in vitro.     

Regulation of product synthesis in cell cultures of Catharanthus roseus (L) G. Don

Cell suspension cultures of the Madagascan Periwinkle Catharanthus roseus (L) G. Don were maintained on Gamborg's B5 medium and their growth monitored by measuring cellular fresh and dry weight, cell number and mitotic activity. Samples of cells of different ages and physiological states were subcultured onto an alkaloid production medium and their rates of growth and alkaloid accumulation measured over a period of 30–45 days. In two experiments the rate of biomass accumulation was directly related to the rate of cellular serpentine accumulation. Possible mechanisms underlying this phenomenon are discussed in relation to the properties of cells comprising the inocula.