Biosynthesis stimulation of nor‐secotriterpene anxiolytics in cell suspension cultures of Galphimia glauca Cav

Galphimia glauca produces compounds denominated galphimines (galphimine‐A, galphimine‐B and galphimine‐E). Due to their important anxiolytic activity, we initiated in vitro cultures of the species with the purpose of developing a biotechnological process for obtaining galphimines. In this work, we stimulated the biosynthesis and excretion of galphimines with two‐phase batch‐type cell suspension cultures of G. glauca. The effect of nutritional variation and the 2,4‐dichlorophenoxy acetic acid added to Murashige & Skoog(MS) culture medium was evaluated. Later, we evaluated the effect of the stimulation with calcium and methyl jasmonate (MeJ). The greatest production of galphimine‐B (3.39 × 10^?5 g/L day^?1) was obtained on day 40 of kinetics, and induced by a treatment containing concentrations of nitrates and phosphate that are double of those normally used in MS medium, without sucrose but with added 2,4‐dichlorophenoxy acetic acid (4 mg/L). Time of galphimine‐B biosynthesis diminished due to the effect of MeJ in combination with calcium, and induced the excretion (100%) of galphimine‐B (6.35 × 10^?5 g/L day^?1) into the culture medium. Thus, the use of calcium and MeJ comprises a viable alternative to stimulate the production and excretion of galphimine‐B and galphimine‐A in batch‐type cultures of G. glauca in modified MS medium. Once optimized, the production of the anxiolytic compounds can be scaled up to the industrial level.     

Bacoside production by suspension cultures of Bacopa monnieri (L.) Pennell

Cell suspension cultures of Bacopa monnieri (L.) Pennell, grown in modified MS medium, grew some 5–6 fold over 40 days. Selected cell lines produced the important saponin, bacoside A, up to 1 g/100 g dry wt after this time.     

Enhancement of berberine production by spermidine in Thalictrum minus cell suspension cultures

Berberine production in cell suspension cultures of Thalictrum minus L. var. hypoleucum Miq. was significantly enhanced by administration of spermidine, whereas other polyamines such as cadaverine, putrescine and spermine were ineffective. The results of experiments indicated that spermidine causes an increase of ethylene generation which is closely associated with activation of berberine biosynthesis.     

Somatic embryogenesis from cell suspension cultures in Carica candamarcensis

Cell suspension cultures of Carica candamarcensis derived from hypocotyl calli were tested concerning their in vitro embryogenic capacity to improve asexual propagation rates in this species. Somatic embryos developed in culture from cells in suspension or from microcalli. Responses were affected by nutrient media and phytohormones used. Best results were obtained by growing the cells in suspension in Nitsch and Nitsch medium containing naphthaleneacetic acid and then plating them upon the same medium containing benzyladenine, or combinations of both hormones.     

Selection of cell lines for the production of rosmarinic acid from cell suspension cultures of Orthosihon stamineus benth

Summary Cell suspension cultures of Orthosiphon stamineus were established from friable calluses produced from leaf pieces of in vitro plantlets that were derived from nodal segments of the mother plants collected from three different geographical locations. Eight lines were eventually selected after seven subculture cycles based on the growth characteristic (plant height) of the plantlets from the three locations: two fast-growing lines (>5.1 cm tall), three intermediate-growing lines (3.1–5.0 cm tall), and three slow-growing lines (<3.0 cm tall). All eight lines grew well in liquid Murashige and Skoog medium supplemented with 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 5.4 μM 1-naphthaleneacetic acid (NAA). All cell lines exhibited the same growth pattern but produced different maximum cell biomass when cultured in this medium. The time of harvesting the plant cells from the culture medium and the geographical source of the original plant material were both found to affect the production of rosmarinic acid (RA) in cell cultures. Two cell lines were successfully selected and identified to produce high amounts of RA. These cell lines were a fast-growing cell line from Air Itam, Penang and an intermediate-growing cell line from Relau Agriculture Research Centre, Penang which could produce 5% [(w/w) dry weight] and 4.5% [(w/w) dry weight] of RA, respectively.     

Large scale fermentation and alkaloid production of cell suspension cultures of Catharanthus roseus

Cell cultures of Catharanthus roseus were scaled up to volumes of 50001 using conventional reactors equipped with flat-blade impellers. The behavior of the fermenter grown cells was compared with corresponding shake flask experiments with respect to growth and indole alkaloid inducibility and production. The limits and problems of transferring shake flask experiments of culture systems such as Catharanthus, in which alkaloid production depends greatly upon the physiological state of the cells, to large scale multistage processes is discussed.     

Stability of alkaloid production in cell suspension cultures of Tabernaemontana divaricata during long-term subculture

Two cell lines of Tabernaemontana divaricata cell suspension culture with different growth and alkaloid production profiles were transferred to the same medium. During 30 subcultures the changes in growth and alkaloid production were followed and compared to those of the original cell lines. The presence of NAA and BAP in the medium resulted in an increase of biomass and alkaloid yield. The effect on the growth proved to be stable during these 30 subcultures. Alkaloid production showed a maximum in the 4th subculture after the change of the medium, and stabilized on a higher level than found in the original cell lines. During some growth cycles also the activities of tryptophan decarboxylase (TDC), strictosidine synthase (SSS), and phenylalanineammonia-lyase (PAL) were measured. In both the original cell lines and the derived cell lines, growth and alkaloid production proved to be stable all through the experiment, although the derived cell lines had a period of adaptation to the new medium with increased productivity.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - BAP benzylaminopurine - DW dry weight - TDC tryptophan decarboxylase - SSS strictosidine synthase - PAL phenylalanineammonia-lyase - PAT phenylalanineammonia-transaminase     

Characterization of buffelgrass (Cenchrus Ciliaris L.) cell suspension cultures

Summary Cell suspension cultures of buffelgrass were established from two types of callus, a friable tan callus and a brown gelatinous callus, using Murashige and Skoog medium containing 13.6 μM 2,4-dichlorophenoxyacetic acid (2,4-D). The friable callus formed a rapidly growing suspension culture, designated BG, which had a doubling time of 2.5 days. The gelatinous callus formed a very slow-growing suspension culture, designated BGG, which had a doubling time of 1 mo. During growth, the medium of the BGG line slowly increased in viscosity, becoming a thickened gel by the end of the subculture period. Both lines had high cell viability. Embryogenesis could be induced in both lines by culturing on charcoal-containing, 2,4-D-free medium. No embryos formed in the absence of charcoal.     

Berberine synthesis by callus and cell suspension cultures of Coscinium fenestratum

Callus and cell suspension cultures of Coscinium fenestratum were established from sterile petiole segments on Murashige & Skoog (MS) medium, supplemented with 2,4-dichlorophenoxy acetic acid (2,4-D) and benzyl amino purine (BAP). The cells in the culture produced berberine as the major compound. NAA stimulated the product synthesis over 2,4-D. Presence of light inhibited the growth and enhanced the berberine synthesis.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxy acetic acid - HPLC high pressure liquid chromatography - IAA indole-3-acetic acid - NAA -naphthaleneacetic acid - TLC thin layer chromatography     

Growth, metabolism and baculovirus production in suspension cultures of an Anticarsia gemmatalis cell line

The UFL-AG-286 cell line, established from embryonic tissue of the lepidopteran insect Anticarsia gemmatalis, has been identified as a good candidate to be used as a cellular substrate in the development of a process for in vitro production of the Anticarsia gemmatalis multicapsid nucleopolyhedrovirus, a baculovirus widely used as bioinsecticide. In order to characterize the technological properties of this cell line and evaluate its feasibility to use it for the large-scale production of Anticarsia gemmatalis multicapsid nucleopolyhedrovirus, UFL-AG-286 cells were adapted to grow as agitated suspension cultures in spinner-flasks. Batch suspension cultures of adapted cells in serum-supplemented TC-100 medium grew with a doubling time of about 29 h and reached a maximum cell density higher than 3.5 × 10⁶ viable cells ml⁻¹. At the end of the growth period glucose was completely depleted from the culture medium, but l-lactate was not produced. Amino acids, with the exception of glutamine, were only negligibly consumed or produced. In contrast to other insect cell lines, UFL-AG-286 cells appeared to be unable to synthesize alanine as a metabolic way to dispose the by-product ammonia. The synchronous infection of suspension cultures with Anticarsia gemmatalis multicapsid nucleopolyhedrovirus in the early to medium exponential growth phase yielded high amounts of both viral progenies per cell and reduced the specific demands of UFL-AG-286 cells for the main nutrients.     

Production of betalains by suspension cultures of Chenopodium rubrum L.

Red-violet cell suspension cultures of Chenopodium rubrum were found to accumulate the betacyanins amaranthin, celosianin and betanin and the betaxanthins vulgaxanthin I and vulgaxanthin II. Under a 16-h daylight regime the cells accumulated 0.3–0.4% betacyanins on a dry mass basis after 2–3 weeks of cultivation on the growth medium. Experiments to define a production medium for betacyanins failed with this habituated line. The accumulation could however be increased up to 1% or 100 mg betacyanins/1 by feeding tyrosine and by adaptation of the inoculum size to the nutrient concentration.     

Enhancement of paclitaxel production by abscisic acid in cell suspension cultures of Taxus chinensis

Addition of 5 mg abscisic acid l^–1 after 12 days' growth of Taxus chinensis suspension culture gave the greatest paclitaxel accumulation at 11 mg l^–1, which was almost 5 times that of the control culture. The highest paclitaxel production, 18 mg l^–1, was obtained using 5 mg abscisic acid l^–1 and 20 mg methyl jasmonate l^–1.     

Toward the production of artemisinin through tissue culture: Determining nutrient-hormone combinations suitable for cell suspension cultures

Summary Artemisia annua L. is the source of a potent antimalarial, artemisinin. As part of a program to produce artemisinin through tissue culture, a series of 14 multifactorial experiments were conducted to determine suitable conditions for initiating and maintaining friable callus fromA. annua. In the first six experiments, three different nutrient formulations [Gamborg B5 (B5), Murashige and Skoog (MS), and Whetmore and Rier (WR)], each with 32 combinations of auxins and cytokinins [2,4-dichlorophenoxyacetic acid (2,4-D) with benzyladenine (BA), or 1-naphthaleneacetic acid (NAA) with 6-furfurylaminopurine (kinetin)], were tested. Both B5 and WR nutrients supported friable callus formation from leaf explants with some combinations of auxin and cytokinin. Inasmuch as friable callus seemed to be produced over a wider range of auxin and cytokinin concentrations in combination with B5, the remaining experiments were conducted solely with this nutrient formulation. In the remaining eight experiments, it was determined that friable callus formed when combinations of NAA with kinetin or 2,4-D and BA were used with B5 medium. Lighter colored, more friable callus formed in response to 2,4-D and BA than with NAA and kinetin. No single combination of concentrations of auxin and cytokinin seemed to be &#x201C;ideal&#x201D; for producing friable callus. Ranges of 2,4-D from 0.5 to 2.0 with BA between 0.025 and 0.1, or NAA between 0.5 and 2.0 with kinetin between 0.5 and 1.0 mg/liter, produced acceptable results.     

Accumulation of toxic metal ions on cell walls ofDatura innoxia suspension cell cultures

Summary Rapidly dividing cell suspension cultures derived fromDatura innoxia (Mill.) selectively remove certain toxic metal ions from nutrient and waste solutions. Many ions, including necessary micronutrients, bind tightly to different components of the primary cell wall. Cell viability is not required for metal chelation to the extracellular matrix, and biopolymers purified from these cultures can be used to selectively remove metal ions from waste streams. Binding of normally toxic metals to the primary cell wall significantly reduces their toxicity. Chemical and metal luminescence methods that generate information about metal binding and cell-wall components responsible for this are presented. The feasibility of using plant cells and their components for bioremediation is discussed. Presented in the Session-in-Depth Bioremediation through Biotechnological Means at the Congress on Cell and Tissue Culture, San Diego, CA, June 5–9, 1993.     

Initiation and growth characterization of some hop cell suspension cultures

Cell suspension cultures of some hop (Humulus lupulus L.) cultivars were initiated from corresponding callus cultures induced on different media. Dissimilation curves were determined to characterize the growth of the suspension cultures maintained in Gamborg's B5 and in Murashige and Skoog's medium. Both media proved to be suitable; a comparison of the curves obtained for suspension cultures of the hop cultivar Wye Northdown grown in both media did not reveal striking differences. For four hop cell lines, the concentration of nitrate and sugar in the culture medium was analysed by HPLC during the growth of their suspension cultures. The cell suspension cultures of the various hop cultivars were also screened for the presence of bitter acids by HPLC and of volatile compounds by capillary GC. However, neither bitter acids nor volatile compounds could be detected; the addition of a non-toxic lipophylic phase (XAD-2, XAD-1180 or Miglyol 812) to the culture media did not help to induce the formation of volatile compounds.This paper will also appear as a chapter of the Ph.D. thesis of the first author; this thesis will be distributed among colleagues only.     

Biotransformation of podophyllotoxin by Hordeum vulgare cell suspension cultures

Hordeum vulgare cell suspension cultures were used to modify podophyllotoxin (1) One major product (1a) and one minor product (1b) were detected in both the culture medium and cells. To optimize the yield of compound 1a, we showed that: (1) the optimal concentration of added podophyllotoxin (1) was 33 mg L^-1; higher concentrations caused cell toxicity; (2) the stage of the cell cycle (lag/log/stationary) at which podophyllotoxin was added only marginally affected the yield of compound 1a; the optimal addition time was after lag phase, in which the yield of compound 1a reached ca. 76%, and (3) biotransformation of podophyllotoxin (1) was relatively slow; podophyllotoxin fed at 4 days after subculture resulted in yields of compound 1a of ca. 56, 64 and 76% after an additional 3, 6 and 10 days of incubation, respectively. Product 1a was purified and identified as isopicropodophyllone (1a) based on MS and NMR data.     

Composition of the essential oil from cell suspension cultures of Achillea millefolium ssp. millefolium

The composition of the essential oil isolated from Achillea millefolium L. ssp. millefolium cell suspension cultures was analysed by GC and GC-MS. The yield of the oil obtained by hydrodistillation or a simultaneous distillation -extraction of these cultures, harvested at days 8–10 (end of exponential phase), was 0.001 % (w/w). The analysis of the volatiles showed the presence of thirteen components; monoterpenes amounted to 5%, sesquiterpene hydrocarbons attained 40%, while eugenol, demethoxyencecalin and two unidentified compounds amounted to 45% of the total oil. Several methods were tested in an attempt to increase the essential oil production by the cultures: growth on solid medium, growth in light, use of a different culture medium, elicitation with cellulase or yeast extract, and growth in a two-phase system. Of the different methods tested, the growth in B5⁺ medium with Miglyol 812 led to the highest essential oil yield (0.002%, w/w), and resulted in a more diverse oil composition.     

Glucosylation of esculetin by plant cell suspension cultures

Cell suspension cultures of Lithospermum erythrorhizon, Gardenia jasminoides and Nicotiana tabacum were capable of glucosylating esculetin to esculin (7-hydroxycoumarin-6-O--D-glucoside). Especially, a culture strain of Lithospermum erythrorhizon was superior in the esculetin glucosylating capability; 40 to 50% of esculetin administered to the culture medium at early stationary growth stage was converted into esculin within 24 h. The rate of glucosylation was also dependent on the growth stage and the medium composition especially growth hormones and sugar.     

In vitro somatic embryogenesis from cell suspension cultures of cowpea [Vigna unguiculata (L.) Walp]

We report, an efficient protocol for plantlet regeneration from the cell suspension cultures of cowpea through somatic embryogenesis. Primary leaf-derived, embryogenic calli initiated in MMS [MS salts (Murashige and Skoog 1962) with B5 (Gamborg et al. 1968) vitamins] medium containing 2,4-Dichlorophenoxyacetic acid (2,4-D), casein hydrolysate (CH), and l-Glutamic acid-5-amide (Gln). Fast-growing embryogenic cell suspensions were established in 0.5 mg l^–1 2,4-D, which resulted in the highest recovery of early stages of somatic embryos in liquid MMS medium. Embryo development was asynchronous and strongly influenced by the 2,4-D concentration. Mature monocotyledonary-stage somatic embryos were induced in liquid B5 medium containing 0.1 mg l^–1 2,4-D, 20 mg l^–1 l-Proline (Pro), 5 M Abscisic acid (ABA), and 2% mannitol. B5 medium was found superior for the maturation of somatic embryos compared to MS and MMS media. The importance of duration (5 d) for effective maturation of somatic embryos is demonstrated. A reduction in the 2,4-D level in suspensions increased the somatic embryo induction and maturation with decreased abnormalities. Sucrose was found to be the best carbon source for callus induction while mannitol for embryo maturation and maltose for embryo germination. Extension of hypocotyls and complete development of plantlet was achieved in half-strength B5 medium supplemented with 3% maltose, 2500 mg l^–1 potassium nitrate, and 0.05 mg l^–1 thidiazuron (TDZ) with 32% regeneration frequency. Field-established plants were morphologically normal and fertile. This regeneration protocol assures a high frequency of embryo induction, maturation, and plantlet conversion.     

Programmed cell death in cell cultures

In plants most instances of programmed cell death (PCD) occur in a number of related, or neighbouring, cells in specific tissues. However, recent research with plant cell cultures has demonstrated that PCD can be induced in single cells. The uniformity, accessibility and reduced complexity of cell cultures make them ideal research tools to investigate the regulation of PCD in plants. PCD has now been induced in cell cultures from a wide range of species including many of the so-called model species. We will discuss the establishment of cell cultures, the fractionation of single cells and isolation of protoplasts, and consider the characteristic features of PCD in cultured cells. We will review the wide range of methods to induce cell death in cell cultures ranging from abiotic stress, absence of survival signals, manipulation of signal pathway intermediates, through the induction of defence-related PCD and developmentally induced cell death.