Increased lignan biosynthesis in the suspension cultures of Linum album by fungal extracts

Linum album accumulates anti-tumor podophyllotoxin (PTOX) and its related lignans, which were originally isolated from an endangered species Podophyllum. In the present study, we examined the effects of five fungal extracts on the production of lignans in L. album cell cultures. Fusarium graminearum extract induced the highest increase of PTOX [143 μg g⁻¹ dry weight (DW) of the L. album cell culture], while Rhizopus stolonifer extract enhanced the accumulation of lariciresinol up to 364 μg g⁻¹ DW, instead of PTOX. Typical elicitors, such as chitin, chitosan, or methyl jasmonate (MeJA), were shown to be less effective in lignan production in L. album cell cultures. These results verified the advantages of fungal extracts to increase lignan production in L. album cell culture, and suggested potential on-demand metabolic engineering of lignan biosynthesis using differential fungal extracts.     

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.     

Lignans in plant cell and organ cultures: An overview

Lignans are found in a wide variety of plant species. The lignan podophyllotoxin is of special interest, since its derivatives like e.g. etopophos® are used in anticancer therapy. As chemical synthesis of podophyllotoxin is not yet economic, it still has to be isolated from wild growing Podophyllum species, some of which are considered to be endangered species. Therefore plant in vitro cultures may serve as alternative sources for podophyllotoxin and for other types of lignans as well. This review describes the establishment of plant cell and tissue cultures for lignan production and the experiments to improve product yields by changing the cultivation parameters, addition of elicitors and feeding of precursors. It also summarizes the use of plant cell and organ cultures to study the biosynthesis of lignans on enzymological level. Abbreviations: DOP – deoxypodophyllotoxin; LARI – lariciresinol; MATAI – matairesinol; 6MPTOX – 6-methoxypodophyllotoxin; PINO – pinoresinol; PTOX – podophyllotoxin; SECO – secoisolariciresinol     

Time-course changes in fungal elicitor-induced lignan synthesis and expression of the relevant genes in cell cultures of Linum album

Linum album has been shown to accumulate anti-tumor podophyllotoxin (PTOX) and its related lignans. In the present study, we examined the effects of five fungal extracts on the production of lignans in L. album cell cultures. Fusarium graminearum extract induced the highest increase of PTOX [140μgg(-1) dry weight (DW) of the L. album cell culture] which is seven-fold greater than the untreated control, while Rhizopus stolonifer extract enhanced the accumulation of lariciresinol, instead of PTOX, up to 365μgg(-1) DW, which was 8.8-fold greater than the control. Quantitative PCR analyses showed that expression of the enzyme genes responsible for the PTOX biosynthesis cascade, such as pinoresinol-lariciresinol reductase (PLR), phenylalanine ammonia-lyase (PAL), cinnamoyl-CoA reductase (CCR) and cinnamyl-alcohol dehydrogenase (CAD) genes, were also up-regulated in a fungal extract-selective fashion. These results provide evidence that the fungal extracts used in this study differentially increase the production of PTOX or larisiresinol via the up-regulation of the genes in lignan biosynthesis in L. album cell cultures, and suggest that such selective actions of fungal elicitors on the lignan synthesis will lead to more efficient metabolic engineering-based production of PTOX and other beneficial lignans using L. album cell cultures.     

Aspects of cytotoxic lignan biosynthesis in suspension cultures of Linum nodiflorum

Plant cell suspension cultures of Linum flavum, Linum nodiflorum and Linum album have been used to characterize the growth and production of cytotoxic lignans as well as to study the biosynthesis of these lignans. A cell culture of Linum nodiflorum accumulated up to 1.7% of the cell dry weight as 6-methoxypodophyllotoxin in only nine days of cultivation. The biosynthesis of podophyllotoxin and 6-methoxypodophyllotoxin follows the formation of the first aryltetralin lignan deoxypodophyllotoxin. Hydroxylation in position 7 by deoxypodophyllotoxin 7-hydroxylase leads to podophyllotoxin. Hydroxylation in position 6 by the cytochrome P450 monooxygenase deoxypodophyllotoxin 6-hydroxylase yields -peltatin which is further methylated by S-adenosylmethionine:-peltatin 6-O-methyltransferase to -peltatin-A methylether and then hydroxylated to 6-methoxypodophyllotoxin. Both, podophyllotoxin as well as 6-methoxypodophyllotoxin are stored as glucosides in the vacuole. Certain enzymes of these transformations have been isolated and characterized from Linum cell cultures.     

Aryltetralin-lignan formation in two different cell suspension cultures of Linum album: deoxypodophyllotoxin 6-hydroxylase, a key enzyme for the formation of 6-methoxypodophyllotoxin

Suspension cultures initiated from two different Linum album seedlings accumulate either podophyllotoxin (PTOX, 2.6 mg/g DW) or 6-methoxypodophyllotoxin (6MPTOX, 5.4 mg/g DW) as main lignans. Two molecules of coniferyl alcohol are dimerized to pinoresinol which is converted via several steps into deoxypodophyllotoxin (DOP) which seems to be the branching point to PTOX or 6MPTOX biosynthesis. DOP is hydroxylated at position 7 to give PTOX by deoxypodophyllotoxin 7-hydroxylase (DOP7H). In contrast, 6MPTOX biosynthesis is achieved by DOP hydroxylation at position 6 to beta-peltatin by the cytochrome P450 enzyme deoxypodophyllotoxin 6-hydroxylase (DOP6H). The following methylation to beta-peltatin-A-methylether is catalyzed by beta-peltatin 6-O-methyltransferase (betaP6OMT) from which 6MPTOX is formed by hydroxylation at position 7 by beta-peltatin-A-methylether 7-hydroxylase (PAM7H). DOP6H and betaP6OMT could be characterized in protein extracts from cell cultures of L. flavum and L. nodiflorum, respectively, and here in L. album for the first time. DOP7H and PAM7H activities could not yet be detected with protein extracts. Experiments of feeding DOP together with inhibitors of cytochrome P450 depending as well as dioxygenase enzymes were performed in order to shed light on the type of DOP7H and PAM7H. Growth parameters and specific activities of enzymes from the phenylpropane as well as the lignan specific biosynthetic pathway were measured during a culture period of 16 days. From the enzymes studied only the DOP6H showed a differential activity sustaining the hypothesis that this enzyme is responsible for the differential lignan accumulation in both cell lines.     

Extracts of Marine cyanobacteria stimulated somatic embryogenesis of Daucus carota L.

Twenty five strains of marine cyanobacteria were screened for their ability to promote carrot somatic embryogenesis. Hot water extracts prepared from 21 of these strains promoted plantlet formation. Extracts from four strains increased plantlet numbers to an average of over 3.7-fold. Dialysates and nondialysates of each of these extracts also increased plantlet formation. For extracts from filamentous cyanobacteria, Nostoc sp. and Anabaena sp., dialysate was more effective (4.2-fold increase) than nondialysate (3.0-fold increase), whereas for unicellular strains Synechococcus sp. and Xenococcus sp., nondialysate was more effective (5.2-fold increase) than the dialysate (3.2-fold increase). These cyanobacterial extracts also promoted embryolike structure formation from two-year old carrot cell cultures which were unable to produce plantlets using the usual methods. Here, we demonstrate the existence in marine cyanobacterial extracts of low and high molecular weight factors which strongly promote somatic embryogenesis in carrot cell cultures.Abbreviations MS Murashige and Skoog medium - 2, 4-D 2, 4-dichlorophenoxyacetic acid - PCV packed cell volume     

Linum persicum: Lignans and placement in Linaceae†

Aryltetralin lignans (podophyllotoxin type) are the main lignan constituents of species belonging to Linum section Syllinum (Linaceae). Linum persicum, a perennial plant native to Iran closely related to L. album, has not yet been studied. To evaluate the lignan profile, fresh plants of L. persicumwere collected and divided into different parts and analyzed by HPLC. The main aryltetralin lignans found inL. persicumplant parts, callus and cell cultures were podophyllotoxin (PTOX), 6-methoxypodophyllotoxin (MPTOX) and - and -peltatin. Furthermore, the systematic relationship between L. persicum and other Linum species are discussed in the light of morphological and phytochemical aspects. Abbreviations: MPTOX – 6-methoxypodophyllotoxin; PTOX – podophyllotoxin; DOP – deoxypodophyllotoxin.     

Differential accumulation of monolignol-derived compounds in elicited flax (Linum usitatissimum) cell suspension cultures

Lignin and lignans share monolignols as common precursors and are both potentially involved in plant defence against pathogens. In this study, we investigated the effects of fungal elicitors on lignin and lignan metabolism in flax (Linum usitatissimum) cell suspensions. Cell suspension cultures of flax were treated with elicitor preparations made from mycelium extracts of Botrytis cinerea, Phoma exigua and Fusarium oxysporum F ssp lini. Elicitors induced a rapid stimulation of the monolignol pathway, as confirmed by the increase in PAL (phenylalanine ammonia-lyase, EC 4.1.3.5), CCR (cinnamoyl-CoA reductase EC 1.2.1.44) and CAD (cinnamyl alcohol dehydrogenase EC 1.1.1.195) gene expression and PAL activity. At the same time, CCR activity only increased significantly in F. oxysporum-treated cells 24 h post elicitation. On the other hand, CAD activity measured for coniferyl alcohol formation was transiently decreased but a substrate-specific activation of CAD activity was observed in F. oxysporum-treated cells when using sinapyl alcohol as substrate. The accumulation of monolignol-derived products varied according to the elicitor used. B. cinerea or P. exigua-elicited cell cultures were characterised by a reinforcement of the cell wall by a deposit of 8-O-4′-linked non-condensed lignin structures and phenolic monomers, while at the same time no stimulation of 8-8′-linked lignan or 8-5′-linked phenylcoumaran lignan accumulation was observed. Additionally, elicitation of cell cultures with F. oxysporum extracts even triggered a strong incorporation of monolignols in the non condensed labile ether-linked lignin fraction concomitantly with a decrease in lignan and phenylcoumaran lignan accumulation. Several hypotheses are proposed to explain the putative role of these compounds in the defence response of flax cells against pathogens. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users. C. Hano and M. Addi contributed equally to this work.     

Accumulation of lignans in suspension cultures of Linum mucronatum ssp. armenum (Bordz.) Davis

For the first time callus and suspension cultures of Linum mucronatum ssp. annenum were initiated, grown in darkness at 25 degrees C and analyzed for lignans. 6-Methoxypodophyllotoxin was the main lignan besides smaller amounts of podophyllotoxin isolated and identified by chromatographic methods as well as by 1H NMR.     

Glucosylation of cyclodextrin-complexed podophyllotoxin by cell cultures of Linum flavum L.

The glucosylation of the cytotoxic lignan podophyllotoxin by cell cultures derived from Linum flavum was investigated. Four cyclodextrins: -cyclodextrin, -cyclodextrin, dimethyl--cyclodextrin and hydroxypropyl--cyclodextrin were used to improve the solubility of podophyllotoxin by complexation. Dimethyl--cyclodextrin met our needs the best and the solubility of podophyllotoxin could be enhanced from 0.15 to 1.92 mM, using a podophyllotoxin/cyclodextrin ratio of 1:1. Growth parameters of the cell suspensions were not affected neither by the addition of cyclodextrins alone, nor when complexed podophyllotoxin was dissolved in the medium.The complexed lignan disappeared rapidly from the culture medium, within 24h, under all experimental conditions. Almost simultaneously, between 73 and 100% of detectable podophyllotoxin was bioconverted into podophyllotoxin--d-glucoside. A maximal bioconversion rate of 0.51 mmol l^-1 suspension day^-1 was calculated for the L. flavum cells growing in a medium which included the podophyllotoxin/dimethyl--cyclodextrin complex at a final concentration of 1.35 mM.     

Isolation and identification of an endophytic strain of Fusarium oxysporum producing podophyllotoxin from Juniperus recurva

Podophyllotoxin, a well-known naturally occurring aryltetralin lignan occurs in few plant species that is used as a precursor for the chemical synthesis of the anticancer drugs like etoposide, teniposide and etopophose phosphate. The availiability of this lignan is becoming increasingly limited because of the scarce occurance of its natural sources and also because synthetic approaches for its production are still commercially unacceptable. This paper reports first time the production of podophyllotoxin by an endophytic fungus Fusarium oxysporum isolated from the medicinal plant Juniperus recurva. Further confirmation and quantification of podophyllotoxin was performed by HPLC, LC-MS, and LC-MS/MS.     

Biocompatibility assessment of perfluorochemical oils in microbial and plant cell cultures

Summary The effects of various perfluorochemical (PFC) oils on growth and structure of microbial and plant cell cultures have been studied. Growth of microbial cells was unaffected by culture with PFCs and no obvious deleterious effects on cell structure or alterations in polypeptide profiles of cell extracts were observed. Incubation of S. dulcamara cells with FDC oil produced an increase in culture growth rate, as measured by changes in wet and dry cell weights, probably by providing protection against hydrodynamic damage.     

Culture filtrate of root endophytic fungus Piriformospora indica promotes the growth and lignan production of Linum album hairy root cultures

The effect of addition of autoclaved and filter-sterilized culture filtrate of Piriformospora indica (a root endophytic fungus) to the growing Linum album hairy root cultures on growth and lignan production was investigated. The addition resulted in a significant enhancement in lignan production and growth. The podophyllotoxin and 6-methoxypodophyllotoxin (the lignans) concentrations were maximally improved by 3.8 times (233.8 mg/L) and 4.4 times (131.9 mg/L) in comparison to control cultures, respectively, upon addition of 3.0% (v/v) filter-sterilized culture filtrate of P. indica to the hairy root cultures of L. album for exposure time of 48 h. This increase in the lignan content also coincided with the increase in phenylalanine ammonia lyase activity, which was 3.1-fold (371.4 μkat/kg protein) higher compared to control cultures under the same conditions. The maximal increase in hairy root biomass was, however, obtained under different conditions; it was enhanced by 1.4 times (21.8 g/L) in comparison to control cultures, when 2% (v/v) filter-sterilized culture filtrate was in contact with L. album cultures for 96 h.     

Induction of lignans and phenolic compounds in cell culture of Linum album by culture filtrate of Fusarium graminearum

Cell suspension cultures of Linum album Kotschy ex Boiss. have been reported to produce anticancer podophyllotoxin and its related lignans. In the present study, we investigated the effect of culture filtrate of Fusarium graminearumon growth, and lignan and phenolic compounds in L. album cell culture. After 7 days of pre-culture, the cells were treated with 1% (v/v) of the culture filtrate. Cell growth was reduced, while phodophyllotoxin and lariciresinol production was stimulated reaching a maximum 0.0187 mg/g fresh weight (FW) and 0.0136 mg/g FW 5 days after the treatment, respectively. Also, our results provide evidence that the culture filtrate of F. graminearum can be effective on phenylalanine ammonia-lyase activity and phenolic compounds.     

Elicitation of anthocyanin production in cell cultures of carrot (Daucus carota L) by using elicitors and abiotic stress

Summary A cell line of carrot (Daucus carota L) which produces anthocyanin was subjected to various elicitors and abiotic stresses: The elicitors tested were culture filtrates (CF) and cell extracts (CE) of certain bacteria and yeasts. The abiotic stresses were salts of certain metal ions. The production increase obtained with cell extracts of Bacillus cereus. Pseudomonas aeruginosa, Escherichia coli and Staphylococcus aureus were 49, 72, 45 and 41% respectively over the control. Maximum elicitation was obtained with elicitor derived from cell extract of the yeast Rhodotorula rubra where it enhanced anthocyanin production by two fold. The abiotic stress agents Ca, Mn, Zn, Co, Fe & V enhanced anthocyanin production. Of all the metal ions tested Ca was the most effective. The elicitation process was governed by the type and level of elicitor.     

The American mayapple revisited—podophyllum peltatum—still a potential cash crop?

Podophyllum peltatum, was reexamined for its potential use in the commercial production of podophyllotoxin, a lignan used in the semisynthesis of important anticancer drugs. A survey of the natural population of the American mayapple, Podophyllum peltatum, was conducted in order to identify high-yielding genotypes. Plants were collected from the eastern and central United States. The lignan content of leaf blades and rhizome material of the collected specimens was characterized by aqueous extraction followed by HPLC analysis. Podophyllotoxin and α-peltatin appeared most prominently among the lignans obtained. Leaf blades were generally richer in podophyllotoxin than rhizomes. Several high-yielding accessions were identified, the blades of which contained 4.0–5.6% podophyllotoxin. A negative correlation was observed between podophyllotoxin and peltatin content in the blades. The combination of high biosynthetic capacity and preferential accumulation of podophyllotoxin in leaves of mayapple makesthis plant an excellent candidate for agricultural production of podophyllotoxin.     

UDP-glucose:(6-methoxy)podophyllotoxin 7-O-glucosyltransferase from suspension cultures of Linum nodiflorum

Cell cultures of Linum species store 6-methoxypodophyllotoxin (MPTOX), podophyllotoxin (PTOX) and related lignans as O-glucosides. UDP-glucose:(M)PTOX 7-O-glucosyltransferase has been detected and characterised in protein preparations of suspension-cultured cells of Linum nodiflorum L. (Linaceae). The maximal lignan glucoside contents in the cells are preceded by a rapid increase of the specific glucosyltransferase activity on day six of the culture period. MPTOX glucoside is the major lignan with up to 1.18 mg g(-1) of the cell dry wt which is more than 30-fold of the PTOX glucoside content. Of the three aryltetralin lignans tested as substrates, PTOX and MPTOX display comparable apparent K(m) values of 4.7 and 5.4 microM, respectively. 5'-Demethoxy-6-methoxypodophyllotoxin is converted with the highest velocity of 25.2 pkat mg(-1) while also possessing a higher K(m) of 14.7 microM. Two-substrate test series indicate that all three compounds compete for the active site of a single protein. The structurally similar lignan beta-peltatin acts as competitive inhibitor as well. However, the 6-O-glucosidation is most likely catalysed by a separate enzyme. The (M)PTOX 7-O-glucosyltransferase works best at a pH around 9 and a temperature around 35 degrees C. A 15-30% increase of the reaction rate is effected by the addition of 0.9 mM Mn(2+).     

Phenylalanine ammonia-lyase activity in suspension cultures of Ulmus pumila and U. campestris treated with spores of Ceratocystis ulmi

Summary Cell suspension cultures of a Ceratocystis ulmi-resistant (Ulmus pumila) and a -susceptible elm (U.campestris) were established from leaf callus tissue. Treatment of cultures with spores of C.ulmi induced a large increase in the activity of phenylalanine ammonialyase, only in the cells of the resistant species U.pumila with a maximum after 24 h. Inoculated U.pumila cells also excreted a red unidentified chemical into the culture medium. Neither responses were induced in inoculated U.campestris cultures. The results are discussed in relation to the development of the elm cell culture system as a model for studying the differential biochemical mechanisms of disease resistance in elms.     

Low temperature enhanced the podophyllotoxin accumulation vis-a-vis its biosynthetic pathway gene(s) expression in Dysosma versipellis (Hance) M. Cheng – A pharmaceutically important medicinal plant

Dysosma versipellis (Hance) M. Chang is an endemic and endangered Chinese medicinal herb. Podophyllotoxin, a lead compound for the semi-synthesis of clinically useful anticancer compounds, is the main active aryltetralin lignan accumulated in D. versipellis. In this study, morphology and physiology traits in response to podophyllotoxin accumulation and its biosynthetic pathway genes expression were investigated in D. versipellis plants grown at low temperature (4∼6 °C) and greenhouse (25∼30 °C) temperature. Our study found that low temperature significantly increased plant biomass (2.7-fold), chlorophyll, and carotenoid content compared to greenhouse temperature. The mRNA expression analysis of podophyllotoxin pathway genes secoisolariciresinol dehydrogenase and pinoresionol lariciresinol reductase expression levels were also up-regulated by low temperature. In addition, plants grown at low temperature markedly increased podophyllotoxin accumulation to 3.49-fold in rhizome of D. versipellis than the greenhouse temperature. These results suggest that plants at low temperature enhance the accumulation of podophyllotoxin in rhizome of D. versipellis by over-expressing podophyllotoxin pathway genes. This study finding could be useful in the producing pharmaceutically important podophyllotoxin without overexploiting this endangered species.