Effect of nutritional factors on cryptotanshinone and ferruginol production by cell suspension cultures of Salvia miltiorrhiza

The effects of the components of Murashige-Skoog (MS) medium on the production of the diterpenes cryptotanshinone and ferruginol in cell suspension cultures of Salvia miltiorrhiza were examined. Sucrose, a nitrogen source and thiamine were needed for the production of these compounds, and phosphate, MnSO₄ and kinetin showed slight beneficial effects. All the other components of MS medium were found to be either unnecessary or inhibitory for the production of these compounds, when tested separately. A revised medium for the production of cryptotanshinone, a clinically active principle in this plant, was designed.     

Production of salidroside and tyrosol in cell suspension cultures of Rhodiola crenulata

Salidroside and its aglycone tyrosol are important compounds found in Rhodiola plants. In this study, callus derived from Rhodiola crenulata was induced and grown when explants were incubated on a Murashige and Skoog (MS) medium containing various concentrations of 6-benzyaldenine (BA), naphthalene acetic acid (NAA) and thidiazuron (TDZ). Callus was easily initiated from juvenile leaves in half strength MS medium supplemented with 0.5 mg/L BA and 3.0 mg/L NAA, while full strength MS containing 0.5 mg/L TDZ and 0.5 mg/L NAA was the best for callus subculture and subsequent cell suspension culture. The activities of l-phenylalanine ammonia lyase (PAL) and β-d-glucosidase, two key enzymes in salidroside synthesis, increased at first and subsequently decreased in cell suspension cultures. The salidroside and tyrosol levels in the cell suspension cultures were determined using high-performance liquid chromatography. High levels of salidroside and tyrosol were detected in cell suspension cultures of R. crenulata extracted with 75 % methanol, demonstrating that the biotechnological production of these compounds using plant cell suspension cultures derived from R. crenulata may be an attractive alternative to harvest-based production.     

Effect of major nutrients on podophyllotoxin production in <Emphasis Type="Italic">Podophyllum hexandrum</Emphasis> suspension cultures

The effect of major medium ingredients (sugar, nitrogen source and phosphate) in Podophyllum hexandrum suspension cultures was investigated in order to increase the production of podophyllotoxin, the raw material in the synthesis of anticancer drugs. Amongst B5, Eriksson, MS, Nitsch, Street and White's medium, MS medium resulted in high growth and podophyllotoxin accumulation. The optimum level of nitrogen was found to be 60 mM, with a combination of ammonium salts and nitrate in the ratio of 1:2. The highest level of podophyllotoxin was obtained at 60 g glucose/l and at 1.25 mM phosphate after 30 days. Statistical design was adopted to determine the optimum levels of the parameters for cell growth and podophyllotoxin production.     

Production of L-DOPA from cell suspension culture of Mucuna pruriens f. pruriens

Summary Production of L-DOPA was studied in cell suspension culture of Mucuna pruriens f. pruriens. Suspension culture was established in MSI medium composed of half concentration of Murashige and Skoog's salts and 2% sucrose. A two-stage cell suspension culture was developed for enhanced accumulation of L-DOPA. In the first stage, the culture system was composed of MSI medium without CaCl, which was suitable for cell growth and in the second stage MSI medium containing 42.5 mg.l^–1 KH₂PO₄ and 4% sucrose favoured L-DOPA production. A discernible higher production of L-DOPA was obtained in this two-stage cell suspension culture in comparison to single stage culture.     

Regulation of shikonin production by glutamine in Lithospermum erythrorhizon cell cultures

Amino acid analysis has shown that Lithosperum erythrorhizon cell suspension cultures which are unable to produce shikonin derivatives in LS medium containing ammonium accumulate a large quantity of glutamine, as compared with shikonin-producing cells cultured in the production medium M9 containing nitrate as the sole nitrogen source. The addition of glutamine to M9 medium proved to be strongly inhibitory to shikonin production. Furthermore, culture experiments using an inhibitor of glutaminase suggested that shikonin synthesis is not inhibited by ammonium released from glutamine but by glutamine itself. These findings indicate that the repression of shikonin synthesis occurs in close association with an accumulation of glutamine in cultured cells grown in a medium containing ammonium.     

Occurrence of L-DOPA and dopamine in plants and cell cultures ofMucuna pruriens and effects of 2,4-d and NaCl on these compounds

The development of the L-DOPA-content of roots, stems and leaves ofMucuna pruriens during growth of the plants is described. Besides L-DOPA, the leaves, but not the stems and the roots, also contain the related catechol dopamine. The time course of dopamine accumulation is compared to that of L-DOPA. In cell suspension cultures ofM. pruriens dopamine can be detected as well. Its level is strongly increased by addition of the growth regulator 2,4-d to the medium, a condition that suppresses cell growth and L-DOPA-accumulation. Dopamine induction appears to be a specific metabolic effect of 2,4-d. Salt stress, as caused by the addition of NaCl, gives no induction of dopamine formation, whereas L-DOPA is released into the medium.     

Use of β-cyclodextrins to enhance phytosterol production in cell suspension cultures of carrot (Daucus carota L.)

Phytosterols are isoprenoid-derived compounds that play essential roles in plant growth and development as they are integral components of the plant cell membranes, and responsible for their permeability and fluidity. In this study, the effect of different types of beta-cyclodextrins (β-CD) on phytosterol production was evaluated using Daucus carota cell suspension cultures. A detailed analysis provides the optimal type and concentration of β-CD, elicitation time, and the optimal cell age and density. The highest levels of phytosterols produced by cells and secreted to the culture medium were obtained when 10 day-old D. carota cell suspension cultures, with an initial cell density of 200 g of fresh weight (FW) l^?1, were incubated in the presence of 50 mM of methylated-β-CD (M-β-CD) for 144 h. In addition, M-β-CD significantly promoted the accumulation of phytosterol in the extracellular medium of D. carota cell suspension cultures, which was not observed in control cell suspension cultures. Moreover, these high phytosterol levels did not improve when methyl jasmonate (MJ) was added to the cell suspension cultures alone or combined with 50 mM M-β-CD, although MJ stimulated the formation of defense-related compounds. Therefore, the use of carrot cell suspension cultures seems a promising biotechnological alternative since the addition of β-CD to the culture medium not only induced the biosynthesis of phytosterols but also promoted their secretion into the culture medium, where they were accumulated and could be isolated easily.     

Effect of Nitrogen on Polysaccharide Production in a Porphyridium sp

Porphyridium cultures grown on either nitrate or ammonium as the nitrogen source showed similar patterns of growth and cell wall polysaccharide production. The effect of nitrogen on growth and cell wall polysaccharide production was studied by applying three regimens of supply: batch mode, in which nitrate was supplied at the beginning of the experiment and became depleted at day 6; continual mode, in which nitrate was added daily; and deficient mode, in which the cells were cultured in a nitrate-free medium. Growth was similar in the batch- and continual-mode cultures, whereas it was totally inhibited in the deficient-mode culture. Polysaccharide content (per volume) was highest in the batch-mode culture and lowest in the deficient-mode culture. However, polysaccharide production per cell was similar in the continual- and deficient-mode cultures, the highest value being found in the batch-mode culture. In addition to its effect on polysaccharide content, nitrogen affected the polysaccharide distribution between soluble and bound polysaccharides. In the deficientmode culture, most of the cell wall polysaccharide was dissolved in the medium.     

Production of emetine and cephaeline from cell suspension and excised root cultures of Cephaelis ipecacuanha

Production of the ipecac alkaloids, emetine and cephaeline was studied in cell suspension and excised root cultures of Cephaelis ipecacuanha. A two-stage cell suspension culture was developed for enhanced accumulation of the alkaloids. In the first-stage, suspension cultures were established in Murashige and Skoog's (MS) medium containing 2,4-D and NAA which was suitable for cell growth and the second-stage culture system was composed of MS medium containing IBA, IAA and 6% sucrose which favoured alkaloid production. The production of emetine and cephaeline was greatly increased in the two-stage culture method compared to the single-stage culture. Optimal alkaloid synthesis was obtained in excised root culture of the plant in medium composed of half-strength MS salts, IBA (0.25 mgl⁻¹) and 2% sucrose. A discernible higher accumulation of cephaeline in two-stage cell suspension culture as well as in excised root culture in comparison to that of the three-year-old roots was a     

Osmotic stress induced-capsaicin production in suspension cultures of Capsicum chinense Jacq.cv. Naga King Chili

The influence of osmotic stress on capsaicin production was investigated in cell suspension cultures of Capsicum chinense Jacq.cv. Naga King Chili, a chili species native to Northeastern India. The sterilized seeds were germinated in Murashige and Skoog medium. Two-week-old hypocotyls were excised from in vitro germinated seedlings and implanted in MS medium containing 2, 4-dichlorophenoxyacetic acid (2?mg/l), and Kinetin (0.5?mg/l) for callus induction. Capsaicin production in the suspension cultures was significantly affected using sucrose, mannitol, and NaCl in the medium. Stoichiometric analysis with different combinations of sucrose and non-sugar osmotic agent (NaCl) showed that osmotic stress was an important factor for enhancing capsaicin production in cell suspension cultures of C. chinense. The capsaicin content of 1,644.1???g?g^?1 f.wt was recorded on day 15 in cultures grown in MS medium containing 87.64?mM sucrose in combination with 40?mM NaCl. However, osmotic stress treatment at 160?mM NaCl with sucrose resulted in lowering capsaicin accumulation and separation of cell wall from their cytoplasm, under microscopic observation.     

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.     

On the improvement of the podophyllotoxin production by phenylpropanoid precursor feeding to cell cultures of Podophyllum hexandrum Royle

In order to improve the production of the cytotoxic lignan podophyllotoxin, seven precursors from the phenylpropanoid-routing and one related compound were fed to cell suspension cultures derived from the rhizomes of Podophyllum hexandrum Royle. These cell cultures were able to convert only coniferin into podophyllotoxin, maximally a 12.8 fold increase in content was found. Permeabilization using isopropanol, in combination with coniferin as a substrate, did not result in an extra increase in podophyllotoxin accumulation. Concentrations of isopropanol exceeding 0.5% (v/v) were found to be rather toxic for suspension growth cells of P. hexandrum. When coniferin was fed in presence of such isopropanol concentrations, -glucosidase activity was still present, resulting in the formation of the aglucon coniferyl alcohol. In addition, podophyllotoxin was released into the medium under these permeabilization conditions. Entrapment of P. hexandrum cells in calcium-alginate as such or in combination with the feeding of biosynthetic precursors, did not improve the podophyllotoxin production. Cell-free medium from suspension cultures at later growth stages incubated with coniferin, resulted in the synthesis of the lignan pinoresinol.     

Ammonium requirement for radiation-induced accumulation of polyamines in suspension-cultured grape cells

The effects of radiation-mediated free radical production on polyamine metabolism were investigated in grape cells ( Vitis vinifera L. cv. Gamay) using a cell suspension culture. Putrescine (Put) synthesis was triggered in irradiated cells (0. 5 kGy) only when ammonium was present in the culture medium. Under these conditions. Put accumulated to a continuously high level. As also described for other kinds of stress, the level of spermidine was slightly enhanced and that of spermine unchanged. The role of ammonium was assessed by studying non-irradiated cell cultures. In the presence of ammonium, a transient increase of both arginine decarboxylase (ADC) activity and of Put synthesis was observed during the lag phase of growth. This Put enhancement was inhibited by difluoromethyl arginine and not by difluoromethyl ornithine, showing that increased Put synthesis occurs via the ADC pathway. When ammonium was withheld from the culture medium. ADC activity was still triggered though transient Put accumulation was completely suppressed. These results emphasize the importance of ammonium availability in cultured cells as a limiting factor for Put production. Polyamine synthesis, therefore, cannot be stimulated by gamma irradiation in the absence of an ammonium supply. These results support the hypothesis that Put synthesis is a detoxification process of the ammonium produced as a result of nitrogen recycling within stressed plant cells.     

Somatic embryogenesis and plant regeneration in avocado (Persea americana Mill.): influence of embryogenic culture type

Embryogenic cell lines of Persea americana were classified as SE- or PEM-type based on their morphology in maintenance medium. PEM-type cultures consisted of proembryonic masses (PEMs) with occasional development of proembryos and early-stage somatic embryos, while SE-type cultures consisted of somatic embryos from globular to cotyledonary stages with only a low frequency of proembryos and PEMs. Moreover, histological analysis revealed signs of cellular organisation, with a higher proportion of small cells in peripheral regions of the callus mass in the SE-type, but not in PEM-type cell lines. The effects of time in suspension, inoculum density and maintenance medium on the ability of avocado cell lines to produce mature somatic embryos were evaluated. Morphological differences observed during proliferation were correlated to the subsequent capacity of cultures to develop mature somatic embryos. The period of time in suspension and inoculum density were critical factors that influenced the ability of cultures to undergo maturation. Optimal conditions differed between SE-type cultures and PEM-type cultures. In SE-type cultures, the highest number of somatic embryos was observed in cultures grown in suspension for 9?days and 0.4?g inoculum; in PEM-type cultures a slight increase in mature somatic embryos production could be observed with 4?g inoculum size and 14?days in suspension. The presence of agar in the maintenance medium of SE-type cultures was essential for the maturation of somatic embryos.     

Physiological aspects of surface-immobilized Catharanthus roseus cells

Summary Growth and alkaloid production of surface-immobilized C. roseus cells were studied in a 2-1 bioreactor. Media designed to maximize cell growth or alkaloid production were employed. Nitrate and carbohydrate consumption rates as well as growth rates and biomass yields of immobilized cultures were equal or somewhat lower than for cell suspension cultures. Respiration rate (O₂ consumption and CO₂ production rates) of immobilized C. roseus cell cultures was obtained by on-line analysis of inlet and outlet gas composition using a mass spectrometer. Respiration rate increased during the growth phase and decreased once the nitrogen or the carbon source was depleted from the medium. The respiration rate of immobilized C. roseus cells resembled rates reported in the literature for suspension cultures. Offprint requests to: Denis Rho     

Establishment of <Emphasis Type="Italic">Cyperus aromaticus</Emphasis> cell suspension cultures for the production of Juvenile hormone III

Cell suspension cultures of Cyperus aromaticus were established from the yellow friable callus derived from the root explants of in vitro plantlets. Four callus cell lines were selected based on their growth index from two populations of callus cultures originated from the mother plants grown in two different locations. The selected four cell lines (Z1, Z6, P4, P9) showed uniform cell growth but produced different amounts of juvenile hormone III (JHIII). The Z1 cell line possessed fast-growing characteristics, produced a high JHIII content, and was chosen as the elite cell line for an optimization study of C. aromaticus cell suspension cultures. An inoculum cell mass of 0.3 g from 12-d cultures in 30 ml culture medium was found to be the optimum inoculum size and culture age for establishing the cell suspension culture of C. aromaticus. MS basal medium supplemented with 4.5 mg/l 2,4-D and 5.5 mg/l NAA was found to be the best medium for production of maximum cell biomass and JHIII. These results indicated that JHIII can be produced from suspension culture of C. aromaticus using a single-stage cell-culture system.     

Growth and triterpenic acid accumulation of Cyclocarya paliurus cell suspension cultures

Cyclocarya paliurus is a unique plant growing in central China with hypoglycaemic and hypolipaemia effects. To make better use of this functional food resource, cell suspension cultures and triterpenic acid accumulation were studied. Stable and uniform cell suspension cultures were established in liquid basal Murashige and Skoog medium supplemented with 2,4-dichlorophenoxy acetic acid (0.5 mg/L), naphthalene acetic acid (0.3 mg/L) and cytokinin (1.0 mg/L). According to the growth curve and triterpenic acid accumulation curve, the 8 ～ 10^th day postinoculation was the optimum time for subculture, and the 14^th day was the optimum time for harvest. Murashige and Skoog medium and woody plant medium were suitable for both cell growth and triterpenic acid accumulation. 3% sucrose (w/v), 60 mM total nitrogen (NO₃ ^?/NH₄ ⁺ = 2/1), 1.25 mM KH₂PO₄, 2 mM CaCl₂, and 2 mM MgSO₄ were all found to be fit for cell growth and triterpenic acid accumulation in a cell suspension culture of Cyclocarya paliurus. Total triterpenic acid, ursolic acid and oleanolic acid content in suspended cultured cells were all significantly higher than that of leaves and calluses (P ? 0.01), with levels up to 6.24, 2.28, and 0.94% (of dry weight), respectively. The betulinic acid content of suspended cultured cells also reached 0.82%, which was significantly higher than that of calluses. These results suggest that suspended cultured cells of Cyclocarya paliurus were rich in triterpenic acids and could be used for the production of total triterpenic acid, ursolic acid, oleanolic acid and betulinic acid.     

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.     

Lignin release and photomixotrophism in suspension cultures of Picea abies

The effect of different concentrations of sucrose (0-4%) and of two growth regulators (0–50 μ M 2,4-D and 0–25 μ M kinetin) was tested on growth and chlorophyll content of suspension cultures of Picea abies (L.) Karst. originating from chlorophyllous embryo callus in an elevated CO₂ (2%) atmosphere. A continuous chlorophyllous suspension culture was achieved on a medium containing 2% sucrose and a low level of organic nitrogen (0.25 m M arginine and 0.5 m M glutamine) supplemented with 2,4-D (0.5 μ M ) and kinetin (2.5 μ M ). The same medium with 4% sucrose gave the best growth response, but a negative correlation between chlorophyll level and growth was observed. The chlorophyllous cultures grew slowly in a medium with low (0.5%) sucrose or without any carbohydrate source, suggesting photomixotrophism. A high concentration of kinetin inhibited both growth and chlorophyll synthesis. Release of lignin into the nutrient medium was observed in several experiments, especially in slow-growing cultures supplemented with sucrose. Only a few successive passages of suspensions that produced lignin could be cultured before cell death. The cultures releasing lignin may be unique for studies on synthesis and biodegradation of this very complex compound.     

Compact callus cluster suspension cultures of Catharanthus roseus with enhanced indole alkaloid biosynthesis

Summary Compact callus clusters showing a certain level of cellular or tissue differentiation were established from Catharanthus roseus stem and leaf explants in a modified MS liquid induction medium supplemented with 5.37 μM α-naphthaleneacetic acid and 4.65 μM kinetin. In the induction medium most leaf explants developed into friable half-closed hollow callus clusters, whereas in the same medium containing 2,4-dichlorophenoxyacetic acid instead of α-naphthaleneacetic acid, most leaf explants were induced to form dispersed cell suspension cultures. Characteristics of these different types of suspension cultures were compared, and the results showed that the compact callus clusters could synthesize indole alkaloids 1.9- and 2.4-fold higher than the half-closed hollow callus clusters and dispersed cell cultures, respectively. The degree of compaction expressed by the ratio of fresh weight to dry weight of these suspension cultures was correlated to indole alkaloid production. Our studies also postulated that the level of cellular/tissue differentiation might be responsible for these different alkaloid synthesis capabilities. Sucrose regime affected some properties (the size, degree of compaction, differentiation level) of the compact callus cluster cultures and therefore influenced alkaloid production.