Influence of fungal elicitors on production of ajmalicine by cell cultures of Catharanthus roseus

Suspension cultures of Catharanthus roseus (C. roseus) were elicited with fungal cell wall fragments of Aspergillus niger (A. niger), Fusarium moniliforme (F. moniliforme), and Trichoderma viride (T. viride). The effects of elicitor dosage, exposures time, and age of subculture on ajmalicine accumulation were studied. A higher concentration of elicitor extract responded positively to C. roseus suspension cultures. Ajmalicine accumulation increased by about 3-fold when cells were treated with A. niger, F.moniliforme, and T. viride. The maximum ajmalicine production (75 microg g(-1) dry weight (DW)) was observed in cells treated with T. viride. Cell cultures were elicited with 5% preparation of A. niger, F. moniliforme, and T. viride and exposed for 24, 48, 72, and 96 h. for elicitation. Suspension cultures elicited with T. viride for 48 h showed a 3-fold increase (87 microg g(-1) DW) in ajmalicine contents, whereas A. niger and F. moniliforme synthesized a 2-fold increase in alkaloid and yielded 52 and 56 microg g(-1) DW ajmalicine, respectively. C. roseus cells of different age (5,10, 15, 20, and 25 days old) were treated with a 5% elicitor of A. niger, F. moniliforme, and T. viride and investigated elicitors activity at different age of cell cultures. Maximum yield 166 microg g(-1) DW of ajmalicine was synthesized in 20 day old suspension cultures treated with T. viride. A longer period of incubation of cell cultures with elicitors adversely affected the ajmalicine synthesis.     

A combination of elicitation and precursor feeding leads to increased anthocyanin synthesis in cell suspension cultures of <Emphasis Type="Italic">Vitis vinifera</Emphasis>

Both elicitation and precursor feeding are effective strategies for improving secondary metabolite production in plant cell suspension cultures. In this study, cell suspension cultures of Vitis vinifera subjected to methyl jasmonate treatment resulted in a significant increase in levels of anthocyanin production. Moreover, a combination of 5 mg/L phenylalanine and 50 mg/L methyl jasmonate promoted the highest level of anthocyanin biosynthesis, resulting in 4.6- and 3.4-fold increases in anthocyanin content and yield, respectively, over the control. The optimum period for elicitation of anthocyanin synthesis was 4 days following incubation in the presence of elicitors, at the beginning of the exponential growth phase. V. vinifera cell lines of different anthocyanin-producing capabilities responded differently to elicitation and precursor feeding. Anthocyanin production of a low-producing cell line, VV06, could be enhanced with addition of elicitors and precursor feeding. Methyl jasmonate was the only elicitor that increased anthocyanin production of the high-producing cell line VV05, but contributed to moderate enhancement of anthocyanin production compared with VV06. For cell line VV06, synergistic effects were observed for all treatment combinations of methyl jasmonate along with other elicitors and precursors. In addition, 6.1- and 4.6-fold increases in anthocyanin content and yield, respectively, were obtained in the presence of 5 mg/L phenylalanine, 50 mg/L methyl jasmonate, and 1 mg/L dextran. However, none of these treatment combinations exhibited synergistic effects in cell line VV05.     

前体饲喂、诱导子和光照联合使用对葡萄细胞培养合成花青素的影响

苯丙氨酸前体饲喂分别和环糊精、葡聚糖、茉莉酸甲酯、黑曲霉和直喙镰孢菌提取液五种诱导子联合作用,其中以与茉莉酸甲酯的联合作用对葡萄细胞培养生产花青素的影响最大,可使单位鲜细胞花青素含量提高2.7倍,花青素产量提高3.4倍,实验证明两者在培养后第4天加入效果最好。在30μmol/L苯丙氨酸、218μmol/L茉莉酸甲酯和3000~4000lx光照条件下,不同花青素产量的细胞株都能显著提高花青素产量,但低产株VV06比高产株VV05具有更大的产率提高潜力。该条件下VV05和VV06花青素产量分别达到2975和4090CV/L,是对照组的2.5倍和5.2倍。     

Enhancement of anthocyanin production in callus cultures ofDaucus canota L. under the influence of fungal elicitors

Aqueous extracts of fungal biomass ofAspergillus niger, A. flavus, Penicillium notatum, Fusarium oxysporum and the filtrates of their culture media were analysed for elicitation capability to enhance anthocyanin production in callus cultures ofDaucus carota. The mycelial extract ofA. flavus at the 2.5% level gave maximum elicitation, which resulted in a two-fold increase in anthocyanin with maximal productivity of 23.7% on a dry weight basis. Whereas the media filtrates ofA. flavus induced a 1.25-fold increase in anthocyanin production with a yield of 20.6% on a dry weight basis,P. notatum andF. oxysporum were not as effective asA. flavus orA. niger. The contact time and the concentration required for maximal elicitation of anthocyanin differed with the type of elicitor used. Qualitative analysis of anthocyanins revealed the presence of cyanidin glycosides in control and elicited cultures.     

Preparation of single cells from aggregated Taxus suspension cultures for population analysis

A method for the isolation of single plant cells from Taxus suspension cultures has been developed for the analysis of single cells via rapid throughput techniques such as flow cytometry. Several cell wall specific enzymes, such as pectinase, pectolyase Y-23, macerozyme, Driselase(R), and cellulase were tested for efficacy in producing single cell suspensions. The method was optimized for single cell yield, viability, time, and representivity of aggregated cell cultures. The best combination for single cell isolation was found to be 0.5% (w/v) pectolyase Y-23 and 0.04% (w/v) cellulase. High viability (>95%) and high yields of single cell aggregates (>90%) were obtained following 4 hours of digestion for four separate Taxus cell lines. In addition, methyl jasmonate elicitation (200 microM) was found to have no effect on three of the four tested Taxus lines. Isolated single cells were statistically similar to untreated cell cultures for peroxidase activity (model cell wall protein) and paclitaxel content (secondary metabolite produced in Taxus cell cultures). In comparison, protoplasts showed marked changes in both peroxidase activity and paclitaxel content as compared to untreated cultures. The use of flow cytometry was demonstrated with isolated cells that were found to have > 99% viability upon staining with fluorescein diacetate. The development of a method for the isolation of single plant cells will allow the study of population dynamics and culture variability on a single cell level for the development of population models of plant cell cultures and secondary metabolism.     

Genomic methylation in plant cell cultures: A barrier to the development of commercial long‐term biofactories

Plant cell biofactories offer great advantages for the production of plant compounds of interest, although certain limitations still need to be overcome before their maximum potential is reached. One obstacle is the gradual loss of secondary metabolite production during in vitro culture maintenance, which is an important impediment in the development of large‐scale production systems. The relationship between in vitro maintenance and epigenetic changes has been demonstrated in several plant species; in particular, methylation levels have been found to increase in in vitro cultures over time. Higher DNA methylation levels have been correlated with a low yield of secondary metabolites in in vitro plant cell cultures. The longer the period of subculturing, the more methylated cytosines were found throughout the genome, and secondary metabolism decreased significantly. This review summarizes different studies on epigenetic changes during the maintenance of in vitro cell cultures and the insights they provide on the mechanisms involved. It concludes by looking at the perspectives for new approaches designed to avoid declines in metabolite production.     

Highly efficient strategy for enhancing taxoid production by repeated elicitation with a newly synthesized jasmonate in fed-batch cultivation of Taxus chinensis cells

A highly efficient bioprocessing strategy was developed for enhancing the production of plant secondary metabolites by repeatedly eliciting a fed-batch culture with a newly synthesized powerful jasmonate analog, 2,3-dihydroxypropyl jasmonate (DHPJA). In suspension cultures of a high taxuyunnanine C (Tc)-producing cell line of Taxus chinensis, 100 microM DHPJA was added on day 7 to fed-batch cultures with feeding of 20 g L(-1) sucrose on the same day. The synergistic effect of elicitation and substrate feeding on Tc biosynthesis was observed, which resulted in higher Tc accumulation than that by elicitation or sucrose feeding alone. More interestingly, both specific Tc yield (i.e., Tc content) and volumetric yield was further improved by a second addition of 100 microM DHPJA (on day 12) to the fed-batch cultures. In particular, with repeated elicitation and sucrose feeding the Tc volumetric yield was increased to 827 +/- 29 mg L(-1), which was 5.4-fold higher than that of the nonelicited batch culture. Furthermore, the above novel strategy was successfully applied from shake flask to a 1-L airlift bioreactor. A high Tc production and productivity of 738 +/- 41 mg L(-1) and 33.2 +/- 1.9 mg L(-1) d(-1), respectively, was achieved, which is higher than previous reports on Tc production in bioreactors. The results suggest that the aforementioned bioprocessing strategy may potentially be applied to other cell culture systems for efficient production of plant secondary metabolites.     

Increased accumulation of indole alkaloids by some cell lines of Catharanthus roseus in response to addition of vanadyl sulphate

Vanadyl sulphate (10–500 mg/l), when added to cell suspension cultures of Catharanthus roseus stimulated increased intracellular accumulation of catharanthine and ajmalicine. This response was demonstrated in both flask and fermenter (30 litre) systems. The response varied, and depended upon cell line, concentration of vanadyl sulphate and the stage of the growth phase at which the cells were treated. This process has the potential to increase the yield and reduce the production time for commercially useful secondary plant metabolites.Abbreviations Ajm ajmalicine - Cath catharanthine - CAS ceric ammonium sulphate - VOSO₄ vanadyl sulphate - FW fresh weight - n.d. not detected     

原位吸附和茉莉酸甲酯联合使用显著提高中国红豆杉细胞云南紫杉烷c的生产

本实验所用的中国红豆杉细胞悬浮培养体系中,云南紫杉烷c(Tc)是主要的次生代谢产物,该化合物有类神经生长因子活性,提高其产量是进一步规模化生产的前提。本研究考察了原位吸附和茉莉酸甲酯(MJA)联合调控提高Tc产量的可能性。在培养的第7天加入浓度为100μmol/L的MJA虽然会使细胞的生物量下降10%～30%,但是单位细胞内Tc含量和Tc产量均有显著提高,分别是对照的3.6和3.3倍。吸附剂XAD-7在不同时间加入对Tc的合成影响显著。在培养的第7天同时加入100μmol/L的MJA和100g/L的XAD-7会使细胞生物量增加,Tc产量显著提高。培养到第21天,Tc产量达477.4mg/L,为对照的6.3倍,为只加MJA的1.9倍,其中94%的Tc被树脂吸附。实验结果表明,在MJA诱导高表达的过程中,吸附剂XAD-7的加入使细胞内代谢产物外泌,浓度降低,减轻产物反馈抑制现象,从而大幅度提高代谢物产量,有较好的生产前景。     

Metabolism of benzo[a]pyrene in cell suspension cultures of parsley (Petroselinum hortense,Hoffm.) and soybean (Glycine max L.)

Cell suspension cultures of parsley and soybean were incubated for 38 h with ¹⁴C-labeled benzo[a]pyrene; autoclaved cultures were used as controls. Metabolites were isolated by a sequential extraction procedure and further studied by chromatography or by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The soluble metabolites amounted to 1–2.2% in the case of parsley cells, and 19–28% in the case of soybean cells. These metabolites varied in polarity, some being soluble in organic solvent or aqueous buffer while other metabolite fractions were soluble only in hot aqueous sodium dodecylsulphate. In addition, a significant amount of an insoluble metabolite fraction was isolated from the culture fluid as well as the cellular material of soybean suspension cultures.Abbreviations BP benzo[a]pyrene - SDS sodium dodecyl sulfate - TCA trichloroacetic acid     

Monoterpenoid oxindole alkaloid production by Uncaria tomentosa (Willd) D.C. cell suspension cultures in a stirred tank bioreactor

Cell growth, monoterpenoid oxindole alkaloid (MOA) production, and morphological properties of Uncaria tomentosa cell suspension cultures in a 2-L stirred tank bioreactor were investigated. U. tomentosa (cell line green Uth-3) was able to grow in a stirred tank at an impeller tip speed of 95 cm/s (agitation speed of 400 rpm), showing a maximum biomass yield of 11.9 +/- 0.6 g DW/L and a specific growth rate of 0.102 d(-1). U. tomentosa cells growing in a stirred tank achieved maximum volumetric and specific MOA concentration (467.7 +/- 40.0 microg/L, 44.6 +/- 5.2 microg/g DW) at 16 days of culture. MOA chemical profile of cell suspension cultures growing in a stirred tank resembled that of the plant. Depending on culture time, from the total MOA produced, 37-100% was found in the medium in the bioreactor culture. MOA concentration achieved in a stirred tank was up to 10-fold higher than that obtained in Erlenmeyer flasks (agitated at 110 rpm). In a stirred tank, average area of the single cells of U. tomentosa increased up to 4-fold, and elliptical form factor increased from 1.40 to 2.55, indicating enlargement of U. tomentosa single cells. This work presents the first report of U. tomentosa green cell suspension cultures that grow and produce MOA in a stirred tank bioreactor.     

Elicitor-mediated induction of enzymes of lignin biosynthesis and formation of lignin-like material in a cell suspension culture of spruce (Picea abies)

Incubations of photomixotrophic suspension culture cells of spruce (Picea abies) (L.) (Karst) with an autoclaved cell wall preparation of Rhizosphaera kalkhoffii as elicitor led to a rapid increase of the activity of a number of enzymes involved in lignin biosynthesis. l-phenylalanine ammonia-lyase (EC 4.3.1.5) was induced about 10-fold, feruloyl-Coenzyme A reductase (ED 1.2.1.44) 4-fold, cinnamyl alcohol dehydrogenase (NADP⁺) (EC 1.1.1.195) 2-fold and peroxidase (EC 1.11.1.7) about 1.5-fold. The induction of the enzymes, with the exception of the peroxidase, was transient, showing maximal activity within 3 days after elicitation. Extracellular peroxidase activity, determined in the culture medium, rapidly decreased on initiation of elicitation.Concomitant with the increase of activity of the enzymes of lignin synthesis was a rapid clouding of the culture medium. Phloroglucinol-HCl staining revealed the presence of lignin-like material in the medium and also in the cells. The IR-spectrum of this material was identical with the IR-spectrum of authentic spruce lignin.Abbreviations PAL l-phenylalanine ammonia-lyase - FCR feruloyl-Coenzyme A reductase - CAD cinnamyl alcohol dehydrogenase - POD peroxidase     

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.     

Enhanced rosmarinic acid production by Lavandula vera MM cell suspension culture through elicitation with vanadyl sulfate

The influence of elicitation on rosmarinic acid biosynthesis by Lavandula vera MM cell suspension culture was investigated using vanadyl sulfate as an abiotic elicitor. It was established that 12 h after treatment with 25 mg/l vanadyl sulfate the rosmarinic acid production was increased up to 3.92 g/l (2.8 times higher compared to the control cultivation). No significant amounts of rosmarinic acid were detected in the culture medium in comparison with its intracellular content. However, it was observed that the extracellular content of rosmarinic acid is 3.3 times higher compared to the control variant (4 h after treatment at elicitor concentration 25 mg/l).     

Enhanced anthocyanins and resveratrol production in Vitis vinifera cell suspension culture by indanoyl-isoleucine, N-linolenoyl-L-glutamine and insect saliva

The effects of two synthetic elicitor indanoyl-isoleucine (In-Ile), N-linolenoyl-l-glutamine (Lin-Gln) and one biotic elicitor insect saliva (from Manduca sexta larvae) on plant cell cultures with respect to the induction of secondary metabolite production were investigated. Stimulated production of secondary metabolites, particularly anthocyanins in plant cells and phenolic acids in culture medium, was studied by using suspension culture of Vitis vinifera L. cv. Gamay Fréaux as a model system. In the treatments with In-Ile, the production of anthocyanins was enhanced 2.6-fold. In-Ile, Lin-Gln and saliva significantly elevated the accumulation of phenolic acids, particularly 3-O-glucosyl-resveratrol. The used elicitors did not suppress cell growth. Secondary metabolites were differently responsive to elicitation. 3-O-glucosyl-resveratrol was the predominant phenolic acid in V. vinifera cell culture, and its production was significantly stimulated by saliva, with 7.0-fold of the control level 24 h after treatment. The production of 4-(3,5-dihydroxy-phenyl)-phenol was significantly stimulated by In-Ile with 6.4-fold of the control level 24 h after treatment.     

Enhanced production of the polysaccharide arabinogalactan using immobilized cultures of Tinospora cordifolia by elicitation and in situ adsorption

Immobilized callus cultures of Tinospora cordifolia (Willd) Miers ex Hooks and Thoms were investigated to find out the combined effect of elicitation, cell permeabilization with chitosan and in situ product recovery by polymeric neutral resin-like Diaion HP 20. In this study, callus cultures of T. cordifolia were immobilized using sodium alginate and calcium chloride and the beads were cultured in Murashige and Skoog's basal medium along with benzyl adenine (BA), 2,4-dichlorophenoxy acetic acid (2,4-D) and 3% sucrose. The immobilized cultures, when subjected to elicitation and cell permeabilization with chitosan and in situ removal of the secondary metabolites by addition of resin, showed a 10-fold increase in production of arabinogalactan (0.490% dry weight) as compared to respective controls devoid of resin and chitosan. This indicates that in situ adsorption may have reduced the feedback inhibition caused by accumulation of secondary metabolites in the media, while the dual effect of elicitation and cell permeabilization by chitosan may have released the intracellular (secreted) berberine and the polysaccharide arabinogalactan, respectively.     

Growth Characteristics and Elicitor-induced Reactions of Photosynthetically Active and Heterotrophic Cell Suspension Cultures of Lycopersicon peruvianum (Mill.)*

Cell suspension cultures of Lycopersicon peruvianum (Solanaceae) were established as well-growing photoautotrophic, photomixotrophic and heterotrophic cultures and their growth parameters were characterized. Elicitor-induced responses of these cultures to the tomato pathogen Fusarium oxysporum f. sp. lycopersici were investigated after treatment of cells with autoclaved mycelium and culture filtrate of this fungus. The dominant reaction was an enhanced incorporation of phenolic constituents in the plant cell wall. Among the nine phenolics released by alkaline hydrolysis the most prominent compounds were p-hydroxybenzaldchyde, vanillin, p-coumaroyltryamine, feruloyltyramine, p-coumaric acid and ferulic acid. Phenolic incorporation in cell walls resulted in increased stability of cells against protoplasting with microbial enzymes. Chlorogenic acid, as the main soluble phenolic compound, showed differential accumulation in the three cell cultures lines as well as an elicitor-induced transient decrease. In heterotrophic cells decrease of chlorogenate occurred concomitant with accumulation of caffeoyl- and p-coumaroylshikimate as well as increased activities of p-coumaroyleoenzyme A: shikimic acid p-coumaroyltransferase. Upon elicitation increased activities of phenylalanine ammonia lyase and changes in peroxidase activities wore also detected. Sesquiterpenoid phytoalexines were not produced by either one of the cell culture lines and levels of tomatine were not significantly affected by elicitation.     

Stimulation of ajmalicine production and excretion from Catharanthus roseus: effects of adsorption in situ,elicitors and alginate immobilization

Summary More efficient bioreactors for the production and recovery of secondary metabolites from plant cell cultures are needed. Three factors that have the potential to increase productivity are adsorption in situ, elicitors, and cell immobilization. The effects of these factors on ajmalicine production from Catharanthus roseus are reported in this paper. Elicitation using autoclaved cultures of the mold, Phytophthora cactorum, stimulates a 60% increase in ajmalicine production. The response time to elicitor addition was under 11 h. Adsorption of ajmalicine from the extracellular medium with the neutral resin, Amberlite XAD-7, greatly enhanced the release of ajmalicine (less than 10% extracellular to 40%) with a 40% increase in total productivity. Immobilization in Caalginate beads resulted in a significant increase in the accumulation of ajmalicine in the medium. The effects of elicitation, adsorption and immobilization were synergistic. For a 23-day culture period the amount of ajmalicine in the medium for cells subjected to all three treatments was 90 mg/L compared to 2 mg/L for suspension cultures cultured under otherwise identical conditions. These results suggest that immobilized cell bioreactors may be feasible for continuous production of products normally stored intracellularly in vacuoles in plant cells.     

Improved gymnemic acid production in the suspension cultures of Gymnema sylvestre through biotic elicitation

Enhancement of secondary metabolite accumulation in cultured plant cells through biotic and abiotic elicitation has been recognised as an important biotechnological strategy. Gymnema sylvestre is a rich source of triterpenoid saponins—gymnemic acids used mainly in the treatment of diabetes I and II. The cell suspension cultures initiated from the leaves and stalks of in vitro-grown plantlets have shown to accumulate large amounts of gymnemic acid. The cell-free extracts of Aspergillus niger, Saccharomyces cerevisiae, Agrobacterium rhizogenes, Bacillus subtilis and Escherichia coli were employed as sources of biotic elicitors to study the effect on secondary metabolite production. All the elicitors have shown a positive response in terms of gymnemic acid, with the highest response induced by A. niger [98.65 ± 0.93 mg/gram dry cell weight (gDCW)], 11.2-fold, and the lowest by E. coli (33.25 ± 1.38 mg/gDCW), 3.8-fold, in comparison to the untreated cultures (8.79 ± 0.82 mg/gDCW). The suspension cultures of G. sylvestre can serve as a continuous source of gymnemic acids throughout the year, irrespective of the climatic and geographical barriers.     

Enhanced intracellular Ca<Superscript>2+</Superscript> concentrations in <Emphasis Type="Italic">Escherichia coli</Emphasis> and <Emphasis Type="Italic">Bacillus subtilis</Emphasis> after addition of oligosaccharide elicitors

Elicitation can lead to overproduction of secondary metabolites in plants and microbes. Potential changes in cytosolic Ca²⁺ levels in bacteria were studied in response to elicitation. We report, for the first time, the effect of oligosaccharide elicitors on intracellular Ca²⁺ levels. The apoaequorin gene was cloned into Escherichia coli DH5α and Bacillus subtilis 1604 cultures. Addition of elicitors, oligoguluronate and mannan oligosaccharides, to the cultures caused up to 11-fold increase in cytosolic Ca²⁺ in E. coli and tenfold increase in B. subtilis. These increases in Ca²⁺ levels could therefore contribute to the enhancement of secondary metabolite levels.