Some morphological and biochemical peculiarities of Datura innoxia callus- and regenerated cultures

Five nutrient media were tested for expression of morphological pathway in Datura innoxia callus cultures. Regenerants-rooted plants and non-rooted shoots obtained from three subsequent subcultures of callus cultures were assayed for tropane alkaloid content and composition. Although no wide variation of bio-chemical traits of regenerants was observed. For a given number of plants decrease of hyoscyamine in their roots was detected. Alkaloid content and composition of upper parts of plants having roots and shoots or lacking roots was studied-receiving an idea about biosynthesis of these organs.     

Analysis of the Potential Use of Androgenic Datura innoxia for the Development of Cell Cultures Producing High Amounts of Tropane Alkaloids

Normal and androgenic diploid Datura innoxia plants were selfedand the progeny was analysed for its leaf alkaloid content.Since the androgenic lines had originally produced very differentamounts of the tropane alkaloids, scopolamine and hyoscyamine,we were interested in determining whether this trait is transmittedby self-fertilization. The alkaloid content of the progeny wasfound to correlate well with that of the parental plants. Also,calli were initiated from leaf discs derived from plants withdifferent capacities for alkaloid biosynthesis. These were furthersubcultured for 2 years. Again, the same correlations in hyoscyamineand scopolamine content were observed. This indicates that itis possible to initiate callus with a high alkaloid contentstarting from actively alkaloid-producing androgenic Daturainnoxia plants. Key words: Datura innoxia, tropane alkaloids, androgenic plants, callus culture     

Overexpression of <Emphasis Type="Italic">odc</Emphasis> (ornithine decarboxylase) in <Emphasis Type="Italic">Datura innoxia</Emphasis> enhances the yield of scopolamine

Scopolamine is widely used for its anticholinergic properties. Because of higher physiological activity and less side effects the world demand of scopolamine is estimated to be ten times greater than other anticholinergic agents, hyoscyamine and atropine. Since natural production is limited, alternatives are required to boost the production. We report the introduction of mouse odc gene of polyamine biosynthesis pathway which is also the primary pathway of tropane alkaloids in Datura innoxia. Polyamines, mainly putrescine, serve as the common metabolite for tropane alkaloids and nicotine. We have overexpressed odc gene to modulate the metabolic flux downstream and eventually achieved higher accumulation of scopolamine in transgenic plants. Among six independent transformed lines one line (O10) produced scopolamine (0.258 μg/g dry weight) almost six times higher than that produced by control plants (0.042 μg/g DW). To our knowledge, this is the first report of odc overexpression in D. innoxia leading to higher scopolamine yield.     

Effects of calcium,alginate, and calcium-alginate immobilization on growth and tropane alkaloid levels of a stable suspension cell line of Datura innoxia Mill

Summary A stabilized two-year old suspension of a Datura innoxia cell line, producing small amounts of tropane alkaloids (scopolamine and hyoscyamine) was used in this study. Calcium alginate immobilization has been shown to be able to increase secondary metabolite (i. e. alkaloid) production. The effects of calcium and ungellified alginate were both beneficial for tropane alkaloid synthesis; a 10mM calcium chloride supply gave the best results, with a 10-fold yield increase.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - S standard cell culture medium - HPLC high performance liquid chromatography - FW fresh weight - FDA fluorescein diacetate - FW fresh weight     

Norlittorine and norhyoscyamine identified as products of littorine and hyoscyamine metabolism by 13C-labeling in Datura innoxia hairy roots

The presence of two compounds, norlittorine and norhyoscyamine, has been reported in leaves and roots of Datura innoxia; however their metabolic origin in the tropane alkaloid pathway has remained unknown. Precise knowledge of this pathway is a necessary pre-requisite to optimize the production of hyoscyamine and scopolamine in D. innoxia hairy root cultures. The exact structure of norlittorine and norhyoscyamine was confirmed by LC–MS/MS and NMR analyses. Isotopic labeling experiments, using [1-¹³C]-phenylalanine, [1′-¹³C]-littorine and [1′-¹³C]-hyoscyamine, combined with elicitor treatments, using methyl jasmonate, coronalon and 1-aminocyclopropane-1-carboxylic acid, were used to investigate the metabolic origin of the N-demethylated tropane alkaloids. The results suggest that norlittorine and norhyoscyamine are induced under stress conditions by conversion of littorine and hyoscyamine. We propose the N-demethylation of tropane alkaloids as a mechanism to detoxify cells in overproducing conditions.     

Organogenesis, Differentiation and Histolocalization of Alkaloids in Cultured Tissues and Organs of Duboisia myoporoides R. Br.

Duboisia myoporoides R. Br. shoots were regenerated from non-organogenicand organogenic calli induced with nine different cytokinin/auxincombinations. Alkaloid colour reagents localized tropane alkaloidsin the vascular regions which had large cells in the secondaryxylem of the basal stem sections of the non-rooted shoots. Tropanealkaloids were localized in shoots regenerated from calli inducedwith two different cytokinin/auxin combinations. No alkaloidswere localized in shoots regenerated from calli induced withother cytokinin/auxin combinations. However, only nicotine wasdetected by GC-MS in the non-rooted shoots regenerated fromcalli induced with three different cytokinin/auxin combinations.Tropane alkaloids were also localized in xylem cells of rootsregenerated from calli induced with two different cytokininand auxin combinations independently. The presence or absenceof nicotine, hyoscyamine and scopolamine in different culturedplant materials was confirmed by GC-MS, indicating that althoughthe root is the main site for alkaloid biosynthesis, with suitablecell differentiation, alkaloid biosynthesis may take place incultured shoots without root initiation. Copyright 2000 Annalsof Botany Company Duboisia myoporoides, Corkwood tree, Solanaceae, tropane alkaloid, alkaloid localization, shoot culture, root culture, iodoplatinate     

Coculture of genetically transformed roots and shoots for synthesis, translocation, and biotransformation of secondary metabolites

Genetically transformed shooty teratomas of Atropa belladonna and a Duboisia leichhardtii x D. myoporoides hybrid were studied for biotransformation of tropane alkaloids in shake flasks and bioreactors. Although de novo synthesis of hyoscyamine and scopolamine was limited, shoots of both species were able to translocate and accumulate significant quantities of exogenous alkaloid. The maximum yield of scopolamine from hyoscyamine fed to the Duboisia hybrid shoots was 35% w/w; the yield of the scopolamine precursor, 6beta-hydroxyhyoscyamine, was 37% w/w. Biotransformation activity was poor in A. belladonna shooty teratomas provided with exogenous hyoscyamine; however, scopolamine levels comparable with those in leaves of the whole plant accumulated in shoots fed with hairy root extract. Coculture of A. belladonna shooty teratomas and hairy roots in the same hormone-free medium was investigated as a means of providing a continuous source of hyoscyamine for conversion to scopolamine. Of the biotransformation systems tested with A. belladonna, coculture produced the highest levels of scopolamine and the highest scopolamine: hyoscyamine ratios. Cocultured shoots accumulated up to 0.84 mg g(-1) dry weight scopolamine, or 3-11 times the average concentrations found in leaves of the whole plant. The scopolamine: hyoscyamine ratio in coculture ranged from 0.07 to 1.9, a significant improvement over levels of 0-0.03 normally found in A. belladonna hairy roots. Addition of Pluronic F-68 or copper sulfate to the medium and variation in initial medium pH did not improve hyoscyamine release from hairy roots. Scopolamine levels were increased using 1 muM copper sulfate or initial medium pH between 6.0 and 8.0; however, results from elicitation of hairy roots could not match the beneficial effect on scopolamine synthesis of root-shoot coculture. Addition of 0.001-1.0% (w/v) Pluronic F-68 to the roots reduced hyoscyamine release but postponed necrosis in the root tissue for up to 60 d. (c) 1996 John Wiley & Sons, Inc.     

Effects of Oxygen on Nicotine and Tropane Alkaloid Production in Cultured Roots Duboisia myoporoides

The effects of oxygen on nicotine and tropane alkaloid production in root cultures of Duboisia myoporoides were investigated. Duboisia roots cultured in air produced both nicotine and tropane alkaloids equally. However, when roots were cultured in pure oxygen, the metabolic flux to tropane alkaloids increased, and that to nicotine alkaloids decreased. Intermediate product analysis by GC-MS showed an increase in tropine, but decreases in acetyl derivatives of tropane alkaloids and tropine esters with low-class fatty acids. Furthermore, hyoscyamine 6β-hydroxylase (H6H, EC 1.14.11.11, the key enzyme in the pathway from hyosyamine to scopolamine) also increased. These results suggest that pure oxygen contributes to scopolamine production not only by activating the biosynthetic steps for scopolamine, but also by inactivating the biosynthetic steps for nicotine and other tropine derivatives.     

Immunolocalisation of two tropinone reductases in potato (Solanum tuberosum L.) root, stolon, and tuber sprouts

Tropinone reductases (TRs) are essential enzymes in the tropane alkaloid biosynthesis, providing either tropine for hyoscyamine and scopolamine formation or providing pseudotropine for calystegines. Two cDNAs coding for TRs were isolated from potato (Solanum tuberosum L.) tuber sprouts and expressed in E. coli. One reductase formed pseudotropine, the other formed tropine and showed kinetic properties typical for tropine-forming tropinone reductases (TRI) involved in hyoscyamine formation. Hyoscyamine and tropine are not found in S. tuberosum plants. Potatoes contain calystegines as the only products of the tropane alkaloid pathway. Polyclonal antibodies raised against both enzymes were purified to exclude cross reactions and were used for Western-blot analysis and immunolocalisation. The TRI (EC 1.1.1.206) was detected in protein extracts of tuber tissues, but mostly in levels too low to be localised in individual cells. The function of this enzyme in potato that does not form hyoscyamine is not clear. The pseudotropine-forming tropinone reductase (EC 1.1.1.236) was detected in potato roots, stolons, and tuber sprouts. Cortex cells of root and stolon contained the protein; additional strong immuno-labelling was located in phloem parenchyma. In tuber spouts, however, the protein was detected in companion cells.     

Enhanced production of tropane alkaloids in <Emphasis Type="Italic">Scopolia parviflora</Emphasis> by introducing the <Emphasis Type="Italic">PMT</Emphasis> (putrescine <Emphasis Type="Italic">N</Emphasis>-methyltransferase) gene

Summary In wild-type Scopolia parvilfora (Solanaceae) tissues, only the roots express the enzyme putrescine N-methyltransferase (PMT; EC 2.1.1.53), which is the first specific precursor of the tropane alkaloids. Moreover, the tropanane alkaloid levels were the highest in the root (0.9 mg g⁻¹ on a dry weight basis), followed by the stem and then the leaves. We metabolically engineered S. parviflora by introducing the tobacco pmt gene into its genome by a binary vector system that employs disarmed Agrobacterium rhizogenes. The kanamycin-resistant hairy root lines were shown to bear the pmt gene and to overexpress its mRNA and protein product by at least two-fold, as determined by polymerase chain reaction (PCR) and Northern and Western blottings, respectively. The transgenic lines also showed higher PMT activity and were morphologically aberrant in terms of slower growth and the production of lateral roots. The overexpression of pmt markedly elevated the scopolamine and hyoscyamine levels in the transgenic lines that showed the highest pmt mRNA and PMT protein levels. Thus, overexpression of the upstream regulator of the tropane alkaloid pathway enhanced the biosynthesis of the final product. These observations may be useful in establishing root culture systems that generate large yields of tropane alkaloids. These authors contributed equally to this paper (co-first authors).     

Inducer effect of Tween 20 permeabilization treatment used for release of stored tropane alkaloids inDatura innoxia Mill. hairy root cultures

Summary The effects of Tween 20 as permeabilizing agent on tropane alkaloids fromDatura innoxia Mill. hairy root cultures have been studied. The kinetics of the alkaloid release is detailed and shows three different stages: an initial rapid increase of the alkaloid level within the roots and in the culture medium, followed by a slower but higher increase of the alkaloid concentration in the medium. During this phase, the alkaloid concentration within the roots returned to a lower value. Finally, after a longer time, the quantity of hyoscyamine in the medium decreased significantly with a variable rate. According to the total alkaloid content per flask determinations under different conditions, it is clearly demonstrated that Tween treatment permeabilized the roots, but also acted as an inducer.     

Incorporation of arginine, ornithine and phenylalanine into tropane alkaloids in suspension-cultured cells and aseptic roots of intact plants oi Atropa belladonna

Label from U-¹⁴C-arginine (Arg), -ornithine (Orn) and -phenylalanine(Phe) was incorporated into hyoscyam-ine and scopolamine byboth dissected roots of intact plants and homogeneous or aggregatingsuspension cultures of Atropa belladonna L. The early biosyntheticcompounds (hygrine, tropinone, tropanol) were found only inthe roots, and alkaloid synthesis proceeded as far as to scopolaminethere. In the synthesis of the tropane skeleton, Orn was usedmore efficiently than Arg. Phe was quickly metabolized bothin roots and suspension cultures, and the label was incorporatedinto both ethanol-insoluble compounds, particularly proteinsand different ethanol-soluble compounds, especially phenolics. When the callus, used to initiate suspension cultures, was repeatedlysubcultured, the degree of organization of the suspension-culturedcells (second suspension passage) grown in the presence of 2.5µM 2-naphthaleneacetic acid (NAA), changed first fromhomogeneous to aggregating and later to heavily rooty. Simultaneouslywith an increasing degree of organization, alkaloid synthesisdecreased. At first, the rate of incorporation of Arg and Phe,and later Orn into alkaloids decreased. In heavily rooty suspensionsneither hyoscyamine nor scopolamine were found, but traces oftropanol were detected. Hence, the synthesis of tropane alkaloidsseems to be regulated at the later biosynthetic steps. Key words: Arginine, Atropa, hyoscyamine, omithine, phenylalanine, roots, scopolamine, suspension culture, tropane alkaloids     

Enhancement of scopolamine production in Hyoscyamus muticus L. hairy root cultures by genetic engineering

 In order to test the possibility of enhancing the production of pharmaceutically valuable scopolamine in transgenic cultures, the 35S-h6h transgene that codes for the enzyme hyoscyamine-6β-hydroxylase (EC 1.14.11.11) was introduced into Hyoscyamus muticus L. strain Cairo (Egyptian henbane). This plant was chosen for its capability to produce very high amounts of tropane alkaloids (up to 6% of the dry weight in the leaves of mature plant). To our knowledge, this is the first time such a large population of transgenic cultures has been studied at the morphological, chemical and genetic levels. A great variation was observed in the tropane alkaloid production among the 43 positive transformants. The best clone (KB7) produced 17 mg/l scopolamine, which is over 100 times more than the control clones. However, conversion of hyoscyamine to scopolamine was still incomplete. The expression of h6h was found to be proportional to the scopolamine production, and was the main reason behind the variation in the scopolamine/hyoscyamine ratio in the hairy-root clones. These results indicate that H. muticus strain Cairo has a potential for even more enhanced scopolamine production with more efficient gene-expression systems. Received: 24 December 1998 / Accepted: 13 January 1999     

Tailoring Tropane Alkaloid Accumulation in Transgenic Hairy Roots of Atropa baetica by Over-expressing the Gene Encoding Hyoscyamine 6β-hydroxylase

Atropa baetica hairy roots, over-expressing cDNA from Hyoscyamus niger encoding the gene for hyoscyamine 6β-hydroxylase (H6H), were produced by Agrobacterium rhizogenes infection. The transgenic roots over-expressing h6h had an altered alkaloid profile in which hyoscyamine was entirely converted into scopolamine. In the best h6h clone, scopolamine accumulation increased 9-fold compared to plants, amounting to 5.6 mg g dry wt⁻¹, some of which was released into the liquid medium. Only negligible amounts of hyoscyamine were detected. In contrast, the gus control culture contained a much higher amount of hyoscyamine than scopolamine, mimicking the situation in the plant. At the molecular level, a higher conversion of hyoscyamine into scopolamine was related to a higher level of h6h mRNA; in some instances this was 5–10-fold higherThis article is dedicated to the memory of Professor Antonio G. González     

Enhanced production of scopolamine by bacterial elicitors in adventitious hairy root cultures of Scopolia parviflora

In an attempt to increase productivity, the effect of elicitation on tropane alkaloids (TA) biosynthesis was studied in adventitious hairy root cultures of Scopolia parviflora. Two Gram-positive strains and one Gram-negative strain of bacteria were used as biotic elicitors. The raw bacterial elicitors affected the tropane alkaloid profile by increasing the scopolamine concentration, while the autoclaved bacterial elicitors produced similar effects on the control. The conversion ratio of hyoscyamine to scopolamine was increased following elicitation using raw bacterial elicitors. The bacterial elicitor inhibited the expression of H6H (hyoscyamine 6β-hydoxylase) whereas the expression of PMT (putrescine N-methyltransferase) was raised by elicitation. These results have important implications for the large-scale production of tropane alkaloids.     

Effects of gibberellin GA7 on kinetics of growth and tropane alkaloid accumulation in hairy roots of Brugmansia candida

Summary Brugmansia candida, an indigenous South American plant, produces the tropane alkaloids scopolamine and hyoscyamine, which are widely employed in medicine as anticholinergic agents. In this research, hairy roots of Brugmansia candida, obtained through infection with Agrobacterium rhizogenes LBA 9402, were employed to produce these tropane alkaloids in vitro. The effects of different concentrations of GA₇ on kinetics of growth and alkaloid accumulation on two different hairy root clones of B. candida were analyzed, and the influence of GA₇ on the number of new branches and rates of elongation was also studied. On clone 7A, GA₇ at concentrations of 10⁻⁴, 10⁻¹, and 1 mg/l increased the exponential growth rate. Levels of 10⁻¹ and 10⁻⁴ mg/l GA₇ elevated the scopolamine/hyoscyamine (S/H) ratios in the early phases of growth, but the sum of scopolamine plus hyoscyamine per flask (S + H) decreased during that period. When 1 mg/l GA₇ was used, the highest S/H ratios were observed in late exponential/early stationary phases, but the highest S + H totals were obtained in mid-exponential phase. GA₇ at levels of 10⁻¹ and, especially, 1 mg/l exerted a positive effect on formation, emergence, and rate of elongation of lateral roots (clone 7A). On clone 7B, levels of 10⁻¹ and 1 mg/l GA₇ did not alter significantly the exponential growth rate. GA₇ in concentrations of 10⁻¹ mg/l induced increases in both S/H ratio and S + H totals in late phases of growth.     

High-yield production of tropane alkaloids by hairy-root cultures of aDatura candida hybrid

Hairy root cultures were obtained following inoculation of the stems of sterile plantlets of aDatura candida hybrid withAgrobacterium rhizogenes. The scopolamine and hyoscyamine content was quantified by HPLC and compared with the non-transformed plants. The alkaloid yield (0.68% dry weight) obtained with the hairy roots was 1.6 and 2.6 times the amount found in the aerial parts and in the roots of the parent plants, respectively. Only a small proportion of alkaloids was released into the growth medium. Scopclamine was the principal alkaloid and the scopolamine/hyoscyamine ratio of ca. 5:1 makes these hairy roct cultures worthy of consideration as a source of scopolamine.