Enantiomeric differentiation of atropine/hyoscyamine by 13C NMR spectroscopy and its application to Datura stramonium extract

Introduction – The two enantiomers of hyoscyamine, an alkaloid found in many plant species, have distinct pharmacological and biological properties. Methods for the discrimination of both enantiomers are almost exclusively based on chiral HPLC/UV. Determination of the enantiomeric ratio (e.r.) of hyoscyamine is a challenging problem since this compound tends to racaemise, forming atropine during acid–base extraction. Objective – To develop a protocol for the calculation of enantiomeric ratio of hyoscyamine in a plant extract using a ¹³C NMR method. Methodology – Samples were prepared by extraction of dried Datura stramonium seeds. Observation of C12 and C15 NMR signals of hyoscyamine in the presence of one equivalent of TFA and sub‐stoichiometric amount of Yb(hfc)₃ allowed the calculation of the e.r. of S‐(?) and R‐(+)‐hyoscyamine. Results – The method was optimised with various mixtures of (+) and (?)‐hyoscyamine ranging from 50:50 (racaemic mixture, i.e. atropine) to 98.5:1.5. The e.r. measured by NMR on the signals of aromatic C12 and C15 were in agreement with the gravimetrically prepared samples. The method was then applied to an extract of Datura stramonium and S‐(?)‐hyoscyamine was the unique enantiomer. Conclusion – The study showed that the e.r. determination of atropine/hyoscyamine was achieved with a routine NMR spectrometer, using CLSR/TFA on pure compounds as well as on the crude extract of Datura stramonium. Copyright © 2010 John Wiley & Sons, Ltd.     

Hyoscyamine N-oxide in Atropa belladonna

Separated organs of Atropa belladonna have been examined for their total alkaloid, hyoscyamine and hyoscyamine N-oxide contents during ontogenesis. Marked fluctuations in N-oxide content were observed, the highest being found in the ripe fruit. [G-³H]-atropine was fed to A. belladonna fruits and radioactively labelled hyoscyamine N-oxide isolated.     

Les alcaloides tropaniques des feuilles du Duboisia myoporoides neocaledonien

Leaves of Duboisia myoporoïdes growing in New-Caledonia or cultivated in a phytotron, have the same alkaloids: nicotine, nornicotine, scopolamine and hyoscyamine. Scopolamine is the major component of the tropane alkaloids. This alkaloidal content is very different of D. myoporoïdes growing in Australia     

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.     

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.     

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.     

The biosynthetic relationship between littorine and hyoscyamine in transformed roots of Datura stramonium

The metabolic relationship between littorine and hyoscyamine has been monitored in transformed roots of Datura stramonium. Quantification by GC of unlabelled littorine and by GCMS of ¹³C-labelled littorine demonstrated that exogenously added littorine (0.1 mm) was significantly metabolised (35%) to hyoscyamine. In contrast, exogenously added hyoscyamine was not metabolised to littorine, indicating that this conversion is irreversible. The conversion of littorine to hyoscyamine was suppressed by P-450 oxidase inhibitors (particularly clotrimazole), implicating the involvement, at least in part of a cytochrome P-450 activity operating hyoscyamine biosynthesis. Received: 15 September 1997 / Revision received: 14 February 1998 / Accepted: 10 March 1998     

Alkaloids of Duboisia hopwoodii

Leaf and root collections of Duboisia hopwoodii were made from Alice Springs in central and Western Australia. From D. hopwoodii collected at Alice Springs were isolated nornicotine, nicotine, myosmine and N-formylnornicotine; cotinine, N-acetylnornicotine, anabasine, anatabine, anatalline and bipyridyl were detected by GC/MS. Root material contained hyoscyamine, scopolamine, nicotine and nornicotine; N-formylnornicotine was detected by GC/MS. D. hopwoodii from Western Australia yielded nicotine, nornicotine, hyoscyamine and metanicotine. Root material contained nornicotine, hyoseyamine, myosmine and N-formylnornicotine, GC/MS detected cotinine and N-acetylnornicotine.     

Les Spatangus du Miocène et du Pliocène de l’Ouest de la France

Numerous fragments of spatangoid echinoids have been discovered in the Pliocene deposits of Challans, in Vendée (western France). In spite of the fragmentary data of the samples, a reconstitution of a complete test could be realized using the different fragments and their symetrization. The general shape of the test, and its architectural and ornemental characters allow establishing the presence of the genus Spatangus in western France during the end of Neogene. It allows to precise the biogeography of the genus Spatangus and of the morphological group S. (S.) purpureus on the Atlantic coast after the Messinian crisis. The Pliocene species is compared to the Miocene Spatangus (Phymapatagus) brittanus, abundant in Anjou, Brittany and Touraine. This older species was refered to the subgenus Phymapatagus according to the presumed lack of primary tubercles on its posterior interambulacrum. The discovery of well-preserved specimens, with primary tubercles on every parts of the test, in the Middle Miocene of Brittany allows to refute this subgeneric distinction and to refer the species brittanus to the subgenus Spatangus (Spatangus). The presence of this subgenus in western France is finally confirmed from Middle Miocene to Pliocene.     

Hyoscyamine 6beta-hydroxylase, a 2-oxoglutarate-dependent dioxygenase, in alkaloid-producing root cultures

Root cultures of various solanaceous plants grow well in vitro and produce large amounts of tropane alkaloids. Enzyme activity that converts hyoscyamine to 6β-hydroxyhyoscyamine is present in cell-free extracts from cultured roots of Hyoscyamus niger L. The enzyme hyoscyamine 6β-hydroxylase was purified 3.3-fold and characterized. The hydroxylation reaction has absolute requirements for hyoscyamine, 2-oxoglutarate, Fe²⁺ ions and molecular oxygen, and ascorbate stimulates this reaction. Only the l-isomer of hyoscyamine serves as a substrate; d-hyoscyamine is nearly inactive. Comparisons were made with a number of root, shoot, and callus cultures of the Atropa, Datura, Duboisia, Hyoscyamus, and Nicotiana species for the presence of the hydroxylase activity. Decarboxylation of 2-oxoglutarate during the conversion reaction was studied using [1-¹⁴C]-2-oxoglutarate. A 1:1 stoichiometry was shown between the hyoscyamine-dependent formation of CO₂ from 2-oxoglutarate and the hydroxylation of hyoscyamine. Therefore, the enzyme can be classified as a 2-oxoglutarate-dependent dioxygenase (EC 1.14.11.-). Both the supply of hyoscyamine and the hydroxylase activity determine the amounts of 6β-hydroxyhyoscyamine and scopolamine produced in alkaloid-producing cultures.     

Action de l'acide 2,4 dichlorophenoxyacetique (2,4-D) sur la migration du42K fourni par voie foliaire chez la laitue et le maïs

The 2,4 dichlorophenoxyacetic acid (2,4-D) applied in solution (10μg per plant) on a leaf of lettuce plants (Lactuca sativa, cv. Grosse Blonde Paresseuse) decrease the translocation of⁴²K from the treated leaf, both in pretreatment and in simultaneous action if the interval of time is sufficiently long between the foliar applications. The metabolic action of 2,4-D seems to be located in the treated leaf. The results may be explained by a stimulation of the metabolic activity and consequently of the retention, already observed by several authors, with 2,4-D and other phytohormones. The 2,4-D had not a comparable effect on translocation of⁴²K from the leaves of maize plants (Zea mays Dekalb 202) even if the amount applied is higher and the duration of the pretreatment more important than previously. However, it must be noted for this species a light stimulation with 2,4-D on the retention of⁴²K in the sheath of the treated leaf. The results obtained with lettuce and maize might be fitted in a pattern of selectivity which appears for other aspects of the metabolism.     

Hyoscyamine and proline accumulation in water-stressed Hyoscyamus muticus ‘hairy root’ cultures

Summary The patterns of hyoscyamine and proline accumulation were studied in Agrobacterium-transformed ‘hairy root’ cultures of Hyoscyamus muticus to determine if proline is a metabolic precursor of hyoscyamine. Root cultures were stressed osmotically with mannitol and the subsequent growth, hyoscyamine levels, and proline levels were measured after each transfer to fresh experimental medium for a total of four transfers. H. muticus ‘hairy roots’ were also treated with [U-¹⁴C] proline or [1,4-¹⁴C] putrescine and analyzed for radioactive hyoscyamine. Growth of ‘hairy root’ cultures was reduced by up to 90% in 0.4 M mannitol, and this inhibition persisted for at least four transfers. ‘Hairy root’ cultures of H. muticus accumulated hyoscyamine and free proline (up to 6-fold and 25-fold, respectively) when osmotically stressed with mannitol, and this effect also persisted for four transfers when grown in the same mannitol concentration. Because the total production of hyoscyamine was also increased by twofold, we conclude that the elevated hyoscyamine concentration results from increased hyoscyamine synthesis and not from reduced growth. H. muticus ‘hairy roots’ incorporated radioactivity from [1,4-¹⁴C] putrescine efficiently into hyoscyamine in both treatments, but failed to convert [U-¹⁴C] proline into hyoscyamine. We thus conclude that accumulated proline does not serve as a precursor for hyoscyamine.     

Tropane alkaloid production in cultured cells of Duboisia leichhardtii

Calluses were derived from explants of aerial parts of a Duboisia leichhardtii F. Muell. plant. After 3 months of culture we detected small amounts of hyoscyamine and scopolamine in the unorganized calluses, but the amounts decreased until they were undetectable with successive subculture. When shoots were produced from the unorganized calluses, the ability to convert hyoscyamine added into media to scopolamine appeared; when roots were initiated from the shoot-organizing calluses, hyoscyamine, scoporamine, and nicotine were synthesized. Cultured adventitious roots produced these alkaloids and converted exogenous hyoscyamine to scopolamine.Abbreviations NAA 1-naphthaleneacetic acid - BA benzyladenine - IBA indole-3-butyric acid     

Alkaloid production in cultured roots of three species of Duboisia

Cultured roots were obtained from calluses of Duboisia leichhardtii, D. myoporoides and D. hopwoodii. Cultured roots of all these species produced both tropane and pyridine-type alkaloids. The selected cultured roots of D. leichhardtii showed high contents of tropane alkaloids (hyoscyamine 0.53%, scopolamine 1.16%, on a dry weight basis).     

Distribution of alkaloids in Anthocercis littorea and A. viscosa

The distribution of tropane alkaloids in organs of Anthocercis littorea and A. viscosa is reported. The following alkaloids have been isolated: atropine (hyoscyamine), apoatropine, noratropine (norhyoscyamine), littorine, hyoscine, norhyoscine, meteloidine, 3α, 6β-ditigloyloxytropan-7β-ol, 6β-tigloyloxytropan-3α-ol, 3α-tigloyloxytropane, tigloidine, tropine, ψ-tropine, (?)-tropan-3α-6β-diol, cuscohygrine and unknown bases.     

UV-B辐射对颠茄氮代谢及次生代谢产物含量的影响

有害的中波紫外线（ultraviolet B,UV-B;280～320 nm）辐射影响植物的生长与发育。但也有研究证明,UV-B辐射可诱导生物碱合成。然而,UV-B辐射能否提高颠茄(Atropa belladonna L.)中托品烷类生物碱（tropane alkaloids,TAs）的含量尚未见报道。本研究以颠茄实生苗为材料,研究UV-B不同照射度强、时间（d数）对颠茄的氮代谢、生物碱含量及TAs代谢途径中的几个关键酶基因表达量的影响。结果表明,随着辐射天数的增加（5～30 d）,低强度（LU,5 μW/cm2）UV-B处理与对照（无辐射）比较,硝态氮、莨菪碱、东莨菪碱含量无显著差异。然而,中等强度（MU,10 μW/cm2）和高强度（HU,15 μW/cm2）UV-B辐射,明显增加硝态氮含量,谷氨酰胺合成酶（glutamine synthetase,GS）、谷氨酸脱氢酶（glutamine dehydrogenase,GDH）活性明显高于对照。重要的是,中、高强度UV-B辐射显著降低了颠茄的叶片与茎中莨菪碱和东莨菪碱含量。荧光定量PCR揭示,莨菪碱合成的关键酶腐胺N 甲基转移酶（putrescine N methyltransferase,PMT）编码基因、莨菪碱-6-β-羟化酶（hyoscyamine-6-β-hydroxylase,H6H）基因表达呈高度组织特异性,主要是在根部表达。与对照比较,低强度照射25 d引起pmt在根部的表达量显著上调,而中、高强度照射导致其下调;h6h在根部的相对表达量随着处理强度的增加逐渐降低;托品酮还原酶Ⅰ（tropinone reductaseⅠ, TRⅠ）编码基因在叶片中的表达量较高,随照射强度的增加而升高。上述结果表明,低强度UV-B辐射促进氮代谢,有利于莨菪碱合成;而长期中、高强度UV-B辐射,尽管促进了谷氨酸代谢,但却使pmt和h6h表达降低,不利于莨菪碱和东莨菪碱的积累。总之,本研究结果显示,不同UV-B辐射强度和时间,对颠茄合成TAs的影响不同,可为大田试验生产莨菪碱提供有益的参考。     

Molecular cloning and catalytic characterization of a recombinant tropine biosynthetic tropinone reductase from Withania coagulans leaf

Tropinone reductases (TRs) are small proteins belonging to the SDR (short chain dehydrogenase/reductase) family of enzymes. TR-I and TR-II catalyze the conversion of tropinone into tropane alcohols (tropine and pseudotropine, respectively). The steps are intermediary enroute to biosynthesis of tropane esters of medicinal importance, hyoscyamine/scopolamine, and calystegins, respectively. Biosynthesis of tropane alkaloids has been proposed to occur in roots. However, in the present report, a tropine forming tropinone reductase (TR-I) cDNA was isolated from the aerial tissue (leaf) of a medicinal plant, Withania coagulans. The ORF was deduced to encode a polypeptide of 29.34 kDa. The complete cDNA (WcTRI) was expressed in E. coli and the recombinant His-tagged protein was purified for functional characterization. The enzyme had a narrow pH range of substantial activity with maxima at 6.6. Relatively superior thermostability of the enzyme (30% retention of activity at 60 °C) was catalytic novelty in consonance with the desert area restricted habitat of the plant. The in vitro reaction kinetics predominantly favoured the forward reaction. The enzyme had wide substrate specificity but did not cover the substrates of other well-known plant SDR related to menthol metabolism. To our knowledge, this pertains to be the first report on any gene and enzyme of secondary metabolism from the commercially and medicinally important vegetable rennet species.     

Influence du milieu de culture sur la composition en sterols de Leptosphaeria typhae

C₂₇, C₂₈ and C₂₉ sterols have been isolated from a Leptosphaeria typhae culture grown in vitro in light on a synthetic medium. These products were characterized by GLC and MS. Saturated and mono-, di- and tri-unsaturated sterols are present, both free and esterified. There are significant differences between these sterols and those in the same fungus grown on “oat water”. Unexpectedly, cholesterol was detected in the latter case.     

Métabolisme du chloro-2 (p-chlorophényl)-3 propionate de méthyle et problème de sélectivité

The product of hydrolysis of the active principle of the herbicide Bidisine® is degraded in at least two different ways. One way gives p-chlorobenzoic acid. The other, more important one, gives a conjugate with l-cysteine, which is further oxidized. The ability to oxidize the conjugate provided a means of distinguishing between susceptible and resistant plant species.     

Enhanced production of hyoscyamine and scopolamine from genetically transformed root culture of <Emphasis Type="Italic">Hyoscyamus reticulatus</Emphasis> L. elicited by iron oxide nanoparticles

The medicinal plant Hyoscyamus reticulatus L. is a rich source of hyoscyamine and scopolamine, the tropane alkaloids. The use of hairy root cultures has focused significant attention on production of important metabolites such as stable tropane alkaloid production. Elicitation is an effective approach to induce secondary metabolite biosynthetic pathways. Hairy roots were derived from cotyledon explants inoculated with Agrobacterium rhizogenes and elicited by iron oxide nanoparticles (FeNPs) at different concentrations (0, 450, 900, 1800, and 3600 mg L^?1) for different exposure times (24, 48, and 72 h). The highest hairy root fresh and dry weights were found in the medium supplemented with 900 mg L^?1 FeNPs. Antioxidant enzyme activity was significantly increased in induced hairy roots compared to non-transgenic roots. The highest hyoscyamine and scopolamine production (about fivefold increase over the control) was achieved with 900 and 450 mg L^?1 FeNPs at 24 and 48 h of exposure time, respectively. This is the first report of the effect of FeNP elicitor on hairy root cultures of a medicinal plant. We suggest that FeNPs could be an effective elicitor in hairy root cultures in order to increase tropane alkaloid production.