Alkaloid spectrum in diploid and tetraploid hairy root cultures of Datura stramonium

Hairy root cultures were obtained from diploid and induced tetraploid plants of Datura stramonium and analyzed by gas chromatography/mass spectrometry. Twenty alkaloids (19 for diploid and 9 for tetraploid hairy root cultures) were identified. A new tropane ester 3-tigloyloxy-6-propionyloxy-7-hydroxytropane was identified on the basis of mass spectral data. Hyoscyamine was the main alkaloid in both diploid and tetraploid cultures. In contrast to diploid hairy roots, the percentage contributions of the alkaloids, with exceptions for hyoscyamine and apoatropine, were higher in the total alkaloid mixture of tetraploid hairy roots.     

Induction of tropane alkaloid formation in transformed root cultures of Brugmansia suaveolens (Solanaceae)

Hairy root cultures of Brugmansia suaveolens were set up by infection of root tips with Agrobacterium rhizogenes. The successful transformation was confirmed by analysing rolC and virC genes using polymerase chain reaction (PCR). Hairy root cultures were employed to study the formation of tropane alkaloids, such as hyoscyamine. The transformed cultures were incubated with potential elicitors, such as methyljasmonate, quercetin and salicylic acid in order to stimulate the biosynthesis of tropane alkaloids. Profile and amounts of tropane alkaloids were analysed using capillary GLC-MS. At least 18 different tropane alkaloids could be identified. Treatment of the cultures with 200 microM methyljasmonate increased the alkaloid accumulation 25-fold up to a level of 1 mg/g fresh weight as compared to untreated controls. Quercetin enhanced the alkaloid production 10 fold (0.4 mg/g fresh weight) within 24 h. In contrast 100 microM salicylic acid decreased alkaloids to a level of 1 microg/g fresh weight.     

Calystegines in Calystegia sepium derive from the tropane alkaloid pathway.

Calystegines were measured in roots and aerial parts of Calystegia sepium. The accumulation appears developmentally regulated. Calystegine accumulation in hairy root cultures follows growth and reaches maximal values of 1,5 mg/g dry mass. 15N-Labelled tropinone was fed to root cultures and the incorporation of label into calystegines and further metabolites of the tropane alkaloid pathway was measured after 2, 4 and 6 days. Pseudotropine was completely labelled after 2 days, and calystegine A(3) was labelled faster than the calystegines of the B-group. 2,7-Dihydroxynortropane also incorporated 15N from tropinone and is suggested to be a by-product of the tropane alkaloid pathway leading to calystegines.     

Tropane alkaloid production in Datura stramonium suspension cultures: elicitor and precursor effects

The effects of elicitation, carbon, and nitrogen sources, and precursors on cell growth and tropane alkaloid production in Datura stramonium cell cultures were studied. D. Stramonium cell cultures responded very well to elicitors in the late exponential phase. Addition of cell wall fragments of Phytophotora megasperma (Pmg) enhanced the final tropane alkaloid yield by fivefold compared with control culture. Supply of carbon culture. Supply of carbon and nitrogen sources, at a ratio (C/N) of up to 70, to cell cultures in the early stationary phase, suppressed tropane alkaloid production; whereas C/N rations beyond about 100 increased the final product yield by more than 100% compared to that of the control experiment. Total alkaloid production in the cell culture supplemented with phenylalanine and ornithine was five times higher that that in the control culture. Higher rations of tropine to tropic acid also stimulated alkaloid production. At a ratio of 20, the productivity was seven times higher that that in the control culture. Adding precursors at high concentrations (e.g., 3 to 10 mM) to the cell culture reduced the final cell yield by less than 40%, while elicitation did not affect the cell yield. On the other hand, cell yield in the cultures supplemented with carbon and nitrogen sources was influenced by the C/N ratio. The highest cell yield was obtained at C/N = 70. (c) 1993 Wiley & Sons, Inc.     

Phytohormone-induced GABA production in transformed root cultures of Datura stramonium: an in vivo 15N NMR study

Primary nitrogen metabolism in transformed root cultures ofDatura stramonium was observed by in vivo ¹⁵N NMR. Treatmentof the root cultures with the plant growth regulators -naphthaleneaceticacid (NAA) and kinetin caused a de-differentiation of the roottissue, together with perturbation of primary and secondarynitrogen metabolism. The levels of newly-synthesized glutamineand glutamate during ammonium assimilation were depleted relativeto control cultures, whereas GABA biosynthesis was enhanced.Although GABA production could be stimulated by a decrease incytoplasmic pH (whether imposed artificially or induced by hypoxia),observation of the roots during phytohormone treatment by ³¹PNMR showed that the cytoplasmic pH remained stable, indicatingthat the perturbation of nitrogen metabolism in the de-differentiatedroots must be due to other causes. Key words: Datura, -aminobutyric acid, nitrogen metabolism, NMR, root cultures     

An in vivo 15 N NMR study of agropine synthesis in transformed root cultures of Nicotiana tabacum

The biosynthesis of the opine agropine in transformed Nicotiana tabacum L. root cultures was studied using in vivo 15 N nuclear magnetic resonance (NMR) spectroscopy. Roots were incubated with [ 15 N]ammonium and/or [ 15 N]nitrate, and the incorporation of the label into agropine, conjugated polyamines, Γ -aminobutyric acid (GABA), glutamate (Glu), glutamine (Gln) and nicotine was monitored by NMR. The largest labelled pool was agropine in cells grown on a 15 N-enriched medium and its synthesis was maintained, to the detriment of the Gln pool, under conditions of nitrogen (N) starvation. These observations indicate that the synthesis of agropine is not tightly regulated and that it represents a significant sink for carbon (C) and N in the plant. The addition of α -naphthaleneacetic acid (NAA) and kinetin to the growth medium caused de-differentiation of the root cultures and perturbation of secondary N metabolism. The amount of agropine relative to Gln increased but the total accumulation of agropine decreased, in part because of the increase in the synthesis of conjugated polyamines. These results show that agropine biosynthesis perturbs both primary and secondary N metabolism, and that the perturbation differs according to the culture conditions and the imposed stress.     

The formation of 3 alpha- and 3 beta-acetoxytropanes by Datura stramonium transformed root cultures involves two acetyl-CoA-dependent acyltransferases

Tropine (tropan-3 alpha-ol) is an intermediate in the formation of hyoscyamine. An acyltransferase activity that can acetylate tropine using acetylcoenzyme A as cosubstrate has been found in transformed root cultures of Datura stramonium. A further acyltransferase activity that acetylates pseudotropine (tropan-3 beta-ol) with acetyl-coenzyme A is also present. These two activities can be partially resolved by anion-exchange chromatography, some fractions containing only the pseudotropine-utilizing activity. The basic properties of these two enzymes are reported and their roles in forming the observed alkaloid spectrum of D. stramonium roots discussed.     

Effect of pmt gene overexpression on tropane alkaloid production in transformed root cultures of Datura metel and Hyoscyamus muticus

In order to increase the production of the pharmaceuticals hyoscyamine and scopolamine in hairy root cultures, a binary vector system was developed to introduce the T-DNA of the Ri plasmid together with the tobacco pmt gene under the control of CaMV 35S promoter, into the genome of Datura metel and Hyoscyamus muticus. This gene codes for putrescine:SAM N-methyltransferase (PMT; EC. 2.1.1.53), which catalyses the first committed step in the tropane alkaloid pathway. Hairy root cultures overexpressing the pmt gene aged faster and accumulated higher amounts of tropane alkaloids than control hairy roots. Both hyoscyamine and scopolamine production were improved in hairy root cultures of D. metel, whereas in H. muticus only hyoscyamine contents were increased by pmt gene overexpression. These roots have a high capacity to synthesize hyoscyamine, but their ability to convert it into scopolamine is very limited. The results indicate that the same biosynthetic pathway in two related plant species can be differently regulated, and overexpression of a given gene does not necessarily lead to a similar accumulation pattern of secondary metabolites.     

Growth patterns and alkaloid accumulation in hairy root and untransformed root cultures of Datura stramonium

The aim of this work was to study the possible relationship between alkaloid production and growth measured as: biomass increase and cellular division frequency, in Datura stramonium in vitro root cultures (hairy root and normal cultures). A comparison of growth values on a fresh and dry weight basis showed that there were differences between transformed and non-transformed lines. The differential growth between lines occurred due to a real biomass increase and not because of water accumulation. On the other hand, the rate of cell division showed a similar pattern for all lines studied. Therefore, the differences in growth are not due to different cell division rates, nor to the presence of larger meristems, but to the development and growth of lateral roots and the presence of active intercalary meristematic zones in each line. The maximum alkaloid production occurred when the cultures were not growing. This suggests an inverse relationship. Finally, the data support a specific model of growth at the level of cell division in root cultures which has not been described before in the literature. This revised version was published online in June 2006 with corrections to the Cover Date.     

Alkaloids in plants and root cultures of Atropa belladonna overexpressing putrescine N-methyltransferase

Putrescine N-methyltransferase (PMT) is the first alkaloid-specific enzyme for nicotine and tropane alkaloid formation. The pmt gene from Nicotiana tabacum was fused to the CaMV 35S promoter and integrated into the Atropa belladonna genome. Transgenic plants and derived root cultures were analysed for gene expression and for levels of alkaloids and their precursors. Scopolamine, hyoscyamine, tropine, pseudotropine, tropinone, and calystegines were found unaltered or somewhat decreased in pmt-overexpressing lines compared to controls. When root cultures were treated with 5% sucrose, calystegine levels were elevated in control roots, but were not affected in pmt-overexpressing roots. 1 microM auxin reduced calystegine levels in control roots, while in pmt-overexpressing roots all alkaloids remained unaltered. Expression level of pmt alone is apparently not limiting for tropane alkaloid formation in A. belladonna.     

Production of tropane alkaloids in diploid and tetraploid plants and in vitro hairy root cultures of Egyptian henbane (Hyoscyamus muticus L.)

In this study, the effects of ploidy level and culture medium were studied on the production of tropane alkaloids. We have successfully produced stable tetraploid hairy root lines of Hyoscyamus muticus and their ploidy stability was confirmed 30?months after transformation. Tetraploidy affected the growth rate and alkaloid accumulation in plants and transformed root cultures of Egyptian henbane. Although tetraploid plants could produce 200% higher scopolamine than their diploid counterparts, this result was not observed for corresponding induced hairy root cultures. Culture conditions did not only play an important role for biomass production, but also significantly affected tropane alkaloid accumulation in hairy root cultures. In spite of its lower biomass production, tetraploid clone could produce more scopolamine than the diploid counterpart under similar growth conditions. The highest yields of scopolamine (13.87?mg?l^?1) and hyoscyamine (107.7?mg 1^?1) were obtained when diploid clones were grown on medium consisting of either Murashige and Skoog with 60?g/l sucrose or Gamborg??s B5 with 40?g/l sucrose, respectively. Although the hyoscyamine is the main alkaloid in the H. muticus plants, manipulation of ploidy level and culture conditions successfully changed the scopolamine/hyoscyamine ratio towards scopolamine. The fact that hyoscyamine is converted to scopolamine is very important due to the higher market value of scopolamine.     

GC-MS investigation of tropane alkaloids in Datura stramonium

Alkaloids, GS-MS, Datura stramonium The alkaloid spectrum in roots, leaves and seeds of Datura stramonium L. was investigated by GC-MS. Twenty-nine tropane alkaloids are detected. Twelve of them are new constituents for the species and the two tropane esters 3-(3'-acetoxytropoyloxy)tropane (21) and 3-(2'-hydroxytropoyloxy)tropane (26) are described for the first time.     

Calystegines as a new group of tropane alkaloids in Solanaceae

Calystegines are a new group of polyhydroxy alkaloids with a nortropane skeleton. They were detected in Atropa belladonna root cultures by chromatographic methods (TLC, GC) and identified by NMR and mass spectroscopy. Their occurrence was examined in several species of the Solanaceae. The biosynthesis of these compounds is suggested to proceed via the tropane alkaloid pathway, the first metabolite being pseudotropine. A pseudotropine-forming tropinone reductase was isolated and characterized from Atropa belladonna root cultures. Further evidence is given for the significance of tropinone and pseudotropine in calystegine formation by feeding experiments that increased calystegine formation. ¹⁵N-tropinone was shown to be incorporated into calystegines.Abbreviations GC gas chromatography - TBON 8-thiabicyclo[3.2.1]octan-3-one - TLC thin-layer chromatography     

Production of tropane alkaloids by small-scale bubble column bioreactor cultures of Scopolia parviflora adventitious roots

The mass production of tropane alkaloids from adventitious root cultures of Scopolia parviflora, in small-scale bubble column bioreactor (BCB) was attempted. Adventitious roots of S. parviflora produced relatively enhanced levels of scopolamine and hyoscyamine in bioreactor compared to flask type cultures, and rapidly produced root clumps, with continuously increasing biomass throughout the culture period. The production of scopolamine and hyoscyamine in the top and bottom regions of root clumps were higher than in the core region. The adventitious root cultures of S. parviflora in the BCB required a relatively high level of aeration. The optimized conditions for the bioreactor culture growth and alkaloid production were found to be 3g of inoculum, on a fresh weight basis, a 15-day culture period and 0.4vvm of airflow. The elicitation by Staphylococus aureus increased the specific compound of scopolamine, while the production of hyoscyamine was slightly inhibited in BCB cultures.     

Antisense RNA-mediated suppression of benzophenanthridine alkaloid biosynthesis in transgenic cell cultures of California poppy

California poppy (Eschscholzia californica Cham.) cell cultures produce several benzophenanthridine alkaloids, such as sanguinarine, chelirubine, and macarpine, with potent pharmacological activity. Antisense constructs of genes encoding two enzymes involved in benzophenanthridine alkaloid biosynthesis, the berberine bridge enzyme (BBE) and N-methylcoclaurine 3'-hydroxylase (CYP80B1), were introduced separately into California poppy cell cultures. Transformed cell lines expressing antisense BBE or antisense CYP80B1 constructs and displaying low levels of BBE or CYP80B1 mRNAs, respectively, showed reduced accumulation of benzophenanthridine alkaloids compared with control cultures transformed with a beta-glucuronidase gene. Pathway intermediates were not detected in any of the transformed cell lines. The suppression of benzophenanthridine alkaloid biosynthesis using BBE or CYP80B1 antisense RNA constructs also reduced the growth rate of the cultures. Two-dimensional (1)H-nuclear magnetic resonance and in vivo (15)N-nuclear magnetic resonance spectroscopy showed no difference in the abundance of carbohydrate metabolites in the various transgenic cell lines. However, transformed cells with reduced benzophenanthridine alkaloid levels contained larger cellular pools of several amino acids including alanine, leucine, phenylalanine, threonine, and valine compared with controls. The relative abundance of tyrosine, from which benzophenanthridine alkaloids are derived, was less than 2-fold higher in antisense-suppressed cells relative to controls. These results show that alterations in the metabolic flux through benzophenanthridine alkaloid biosynthesis can affect the regulation of amino acid pools. These data provide new insight into the metabolic engineering of benzophenanthridine alkaloid pathways.     

Modulation of berberine bridge enzyme levels in transgenic root cultures of California poppy alters the accumulation of benzophenanthridine alkaloids

California poppy (Eschscholzia californica Cham.) root cultures produce a variety of benzophenanthridine alkaloids, such as sanguinarine, chelirubine and macarpine, with potent biological activity. Sense and antisense constructs of genes encoding the berberine bridge enzyme (BBE) were introduced into California poppy root cultures. Transgenic roots expressing BBE from opium poppy (Papaver somniferum L.) displayed higher levels of BBE mRNA, protein and enzyme activity, and increased accumulation of benzophenanthridine alkaloids compared to control roots transformed with a -glucuronidase gene. In contrast, roots transformed with an antisense-BBE construct from California poppy had lower levels of BBE mRNA and enzyme activity, and reduced benzophenanthridine alkaloid accumulation, relative to controls. Pathway intermediates were not detected in any transgenic root lines. Suppression of benzophenanthridine alkaloid biosynthesis using antisense-BBE also reduced the growth rate of the root cultures. Two-dimensional ¹H-NMR spectroscopy showed no difference in the abundance of carbohydrate metabolites in the various transgenic roots lines. However, transformed roots with low levels of benzophenanthridine alkaloids contained larger cellular pools of certain amino acids compared to controls. In contrast, cellular pools of several amino acids were reduced in transgenic roots with elevated benzophenanthridine alkaloid levels relative to controls. The relative abundance of tyrosine, from which benzophenanthridine alkaloids are derived, was only marginally altered in all transgenic root lines; thus, altering metabolic flux through benzophenanthridine alkaloid pathways can affect cellular pools of specific amino acids. Consideration of such interactions is important for the design of metabolic engineering strategies that target benzophenanthridine alkaloid biosynthesis.     

Establishment and characterization of photosynthetic hairy root cultures of Datura stramonium

Twelve different lines of Datura stramonium (normal and hairy) root cultures were subjected to conditions which induce photoautotrophy. Two of the hairy root lines responded to induction, showing clearly a diminished growth rate when compared to heterotrophic cultures, an increase in chlorophyll, a net O₂ evolution, CO₂ fixation, and de novo synthesis of the ribulose 1,5 biphosphate carboxylase enzyme. A time course of growth and tropane alkaloid levels in the tissue and medium, revealed a correlation between the development of the photosynthetic apparatus and the increase in scopolamine. Although normal cultures did not grow photosynthetically, they showed some greening response under the first step of the induction. The correlation between development of photosynthesis and increase in scopolamine synthesis were corroborated with normal root cultures. This experimental model is used for the basic study of the regulatory enzymes involved in the biosynthesis of tropane alkaloids, as well as for the study of their mechanisms of transport.     

Traits of transgenic Atropa belladonna doubly transformed with different Agrobacterium rhizogenes strains

Hairy root cultures of Atropa belladonna L. were established by infection either with Agrobacterium rhizogenes ATCC 15834 or MAFF 03-01724, and transgenic plants were obtained from both hairy root cultures. Doubly transformed roots were induced by re-infection of the leaf segments of transgenic Atropa belladonna plants (A. rhizogenes 15834) with MAFF 03-01724. Shoots and viviparous leaves were regenerated from the doubly transformed roots. The genetic transformation was determined by the opine assay (agropine, mannopine and/or mikimopine) and polymerase chain reaction. Physiological changes and tropane alkaloid biosynthesis in the hairy roots (singly and doubly transformed) were investigated. The alkaloid content in the doubly transformed root strain was intermediate as compared to the root strains which were singly transformed. On the other hand endogenous IAA levels in doubly transformed roots were significantly decreased compared to both singly transformed roots.Abbreviations BA benzyladenine - IAA indoleacetic acid - NAA naphthaleneacetic acid - PCR polymerase chain reaction - t-ZR trans-zeatin     

Production of tropane alkaloids by transformed root cultures of Atropa belladonna in stirred bioreactors with a stainless steel net

A scale up of transformed root cultures of Atropa belladonna from a 300-ml flask to a 30-l tank was accomplished without any reduction in alkaloid productivity. Cutting treatment of seed cultures showed no distinct effect on root growth, morphology, and alkaloid content in conical flasks during 1 month of culture. Randomly cut roots thus grown were further cultivated in 3-l and 30-l modified stirred bioreactors for a scale-up culture. After 1 month of culture, 1490 mg of tropane alkaloids was produced by a 30-l culture of A. belladonna transformed roots. These roots contained the same level of atropine (5.4 mg/ g dw) as the roots of this plant grown in the field for 12 months and still contained a considerable amount of other alkaloids including 1.6 mg/g dw of 6-β-hydroxyhyoscyamine, 0.9 mg/g dw of scopolamine, and 2.0 mg/g dw of littorine. Received: 12 June 1998 / Revision received: 31 August 1998 / Accepted: 27 October 1998