The role of strictosidine in monoterpenoid indole alkaloid biosynthesis

In contrast to previous reports that vincoside was the sole precursor for indole alkaloids in Vinca rosea, the 3α epimer strictosidine has been incorporated into tetrahydroalstonine, ajmalicine, catharanthine and vindoline; the anomalous 3β to 3α inversion is no longer required.     

Regulation of secondary metabolism in higher plants. Effect of alkaloids on a cytochrome P-450 dependent monooxygenase.

An end-product indole alkaloid, catharanthine, inhibits a membrane-bound cytochrome P-450 dependent monooxygenase of the higher plant, $\text{Vinca rosea}$. Kinetic analysis revealed the alkaloid to be a reversible, linear, non-competitive inhibitor (K_i=1 mM) with respect to its substrates, geraniol and NADPH. Comparable inhibition of the solubilized monooxygenase by catharanthine tends to exclude a mechanism based upon disruption of membrane organization. On the basis of its inhibition of solubilized hydroxylase in the presence and absence of sodium cholate, it is also unlikely that catharanthine competes for putative phospholipid binding site(s). Two additional end-product alkaloids, vinblastine and vindoline were less inhibitory. Since the hydroxylase catalyzes one of the first committed steps in the biosynthesis of indole alkaloids, these observations suggest feedback control of the pathway by catharanthine.     

Identification of a low vindoline accumulating cultivar of Catharanthus roseus (L.) G. Don by alkaloid and enzymatic profiling

The Madagascar periwinkle [Catharanthus roseus (L.) G. Don] is a commercially important horticultural flower species and is the only source of the monoterpenoid indole alkaloids (MIAs), vinblastine and vincristine, key pharmaceutical compounds used to combat a number of different cancers. The present study uses high performance liquid chromatography for metabolic profiling of the MIAs extracted from seedlings and young leaves of 50 different flowering cultivars of C. roseus to show that, except for a single low vindoline cultivar (Vinca Mediterranean DP Orchid), they accumulate similar levels of MIAs. Further enzymatic studies with extracts from young leaves and from developing seedlings show that the low vindoline cultivar has a 10-fold lower tabersonine-16-hydroxylase activity than those of C. roseus cv. Little Delicata. It is concluded that rapid metabolic and more selective enzymatic profiling of Catharanthus mutants could be useful for the identification of a range of altered MIA biosynthesis lines.     

Characterization of Alkaloid Uptake by Catharanthus roseus (L.) G. Don Protoplasts

The accumulation of alkaloids by protoplasts of Catharanthus roseus (L.) G. Don var. Little Bright Eye was studied to determine the specificity of uptake and the role of ion trapping in the storage of alkaloids. Accumulation of the indole alkaloids vindoline, ajmalicine, tabersonine, and vinblastine was found to be biphasic, with an initial burst of uptake followed by a slow, prolonged phase of accumulation. The concentration and pH dependence of the initial burst of uptake for vindoline suggested that uptake occurred by simple diffusion. Uptake of nicotine was monophasic, with a half life of 5.2 minutes. The accumulation ratio (Ci/Ce) for nicotine at steady state and for the initial burst of uptake for vindoline and ajmalicine suggested that accumulation was driven by the pH gradient between the vacuole and the external assay medium. The second, sustained phase of uptake of vindoline was sensitive to inhibition by either 20 millimolar NaN₃ or 0.5 millimolar Cu²⁺. In azide-treated protoplasts, the uptake for vindoline conformed to the kinetics of simple diffusion, with a half life of 4 minutes. The second phase of uptake for ajmalicine, although sensitive to inhibition by Cu²⁺, was insensitive to inhibition by NaN₃. The biphasic uptake of the indole alkaloids was not due to any significant metabolism. It is concluded that accumulation and storage of the indole alkaloids is due only partly to ion trapping of the alkaloids by the low pH of the vacuole lumen. In the case of vindoline, there appears to be a specific energy-requiring uptake that is not seen with nicotine (which is not endogenous to Catharanthus). Accumulation of ajmalicine appears to involve both ion trapping and an azide-insensitive component, which may be due to complexation with organic counterions and phenolics.     

Metabolism of purine bases, nucleosides and alkaloids in theobromine-forming Theobroma cacao leaves

We examined the purine alkaloid content and purine metabolism in cacao (Theobroma cacao L.) plant leaves at various ages: young small leaves (stage I), developing intermediate size leaves (stage II), fully developed leaves (stage III) from flush shoots, and aged leaves (stage IV) from 1-year-old shoots. The major purine alkaloid in stage I leaves was theobromine (4.5 μmol g^–1 fresh weight), followed by caffeine (0.75 μmol g^–1 fresh weight). More than 75% of purine alkaloids disappeared with subsequent leaf development (stages II–IV). In stage I leaves, ¹⁴C-labelled adenine, adenosine, guanine, guanosine, hypoxanthine and inosine were converted to salvage products (nucleotides and nucleic acids), to degradation products (ureides and CO₂) and to purine alkaloids (3- and 7-methylxanthine, 7-methylxanthosine and theobromine). In contrast, ¹⁴C-labelled xanthine and xanthosine were not used for nucleotide synthesis. They were completely degraded, but nearly 20% of [8-¹⁴C]Xanthosine was converted in stage I leaves to purine alkaloids. These observations are consistent with the following biosynthetic pathways for theobromine: (a) AMP → IMP → 5′-xanthosine monophosphate → xanthosine → 7-methylxanthosine → 7-methylxanthine → theobromine; (b) GMP → guanosine → xanthosine → 7-methylxanthosine → 7-methylxanthine → theobromine; (c) xanthine → 3-methylxanthine → theobromine. Although no caffeine biosynthesis from ¹⁴C-labelled purine bases and nucleosides was observed during 18 h incubations, exogenously supplied [8-¹⁴C]Theobromine was converted to caffeine in young leaves. Conversion of theobromine to caffeine may, therefore, be slow in cacao leaves. No purine alkaloid synthesis was observed in the subsequent growth stages (stages II–IV). Significant degradation of purine alkaloids was found in leaves of stages II and III, in which [8-¹⁴C]Theobromine was degraded to CO₂ via 3-methylxanthine, xanthine and allantoic acid. [8-¹⁴C]Caffeine was catabolised to CO₂ via theophylline (1,3-dimethylxanthine) or theobromine.     

Cytokinin biosynthesis in crown gall tissue of Vinca rosea: Metabolism of isopentenyladenine

When isopentenyl[8-¹⁴C]adenine was incubated with crown gall tumour tissue of Vinca rosea, it was stereospecifically hydroxylated to trans-zeatin and its derivatives, which are the endogenous free cytokinins in this tissue. Adenine, adenosine and adenine nucleotides were the major degradation products.     

Effects of light and plant growth regulators on the biosynthesis of vindoline and other indole alkaloids in Catharanthus roseus callus cultures

A callus strain with stable ability for vindoline synthesis was selected from many prepared Catharanthus roseus leaf calli to study the regulation of vindoline biosynthesis as well as other indole alkaloids. It was shown that light and plant growth regulators significantly influenced the biosynthesis of vindoline and other alkaloids as well as acidic and basic peroxidase activities. Light promoted vindoline and serpentine biosynthesis, and stimulated plastid development and peroxidase activity. However, 2,4-D suppressed the biosynthesis of all indole alkaloids and peroxidase activity. Our results suggest that light or plant hormones regulate vindoline, serpentine and other alkaloid biosynthesis and accumulation by influencing peroxidase activity and the differentiation status of callus cultures, especially chloroplast development. Some possible relationships between serpentine or vindoline biosynthesis and peroxidase activity are proposed.     

Implication of tyramine in the biosynthesis of morphinan alkaloids in Papaver

Doubly-labeled [³H, ¹⁴C]tyrosines, [1-¹³C-]tyramine or [2-¹⁴C]tyramine, administered to the stems of intact Papaver somniferum L. plants, were found to be incorporated into the morphinan alkaloids of the plant with comparable efficiency. ³H/¹⁴C ratios of alkaloids from plants fed the tyrosines were consistent with an almost equal conversion of this amino acid into the tetrahydroisoquinoline (TIQ) and benzyl-derived segments. Nuclear magnetic resonance (NMR) analyses of morphine isolated after administration of [1-¹³C]tyramine demonstrated selective labeling of C-16 of the alkaloid, indicating the conversion of this amine primarily into the TIQ-derived moiety. Morphine and thebaine labeled by [2-¹⁴C]tyramine were degraded to phenanthridines and N,N-dimethyl ethylamines. Of the total radioactivity in the alkaloids 97% was found to be associated with the ethylamines, a distribution consistent with the NMR data. This preferential utilization of tyramine in the biosynthesis of morphinan alkaloids can be explained by the compartmentalization of intermediates and enzymes of the pathway.Abbreviations L-dopa L-3,4-dihydroxyphenylalanine - HPLC high-pressure liquid chromatography - NMR nuelear magnetic resonance - TIQ tetrahydroisoquinoline     

Cytokinin biosynthesis in crown-gall tissue ofVinca rosea

When care was taken to minimise the effects of phosphatase activity during extraction ofVinca rosea crown-gall tumour tissue, a large proportion of extractable cytolinin activity was present in the nucleotide fraction. Analysis using ion-exchange chromatography followed by enzymic or chemical degradation and subsequent identification of the biologically active material indicated that this activity was due to zeatin riboside 5′-monophosphate. This was also the major radiolabelled cytokinin formed when this tissue was supplied with [¹⁴C]adenine. The incorporation of radioactivity from [¹⁴C]adenosine into free cytokinins was also shown, but no incorporation of radioactivity was found when [³H]mevalonic acid lactone was supplied to this tissue under the same conditions. In parallel experiments using normal stem callus tissue ofV. rosea, no incorporation of [¹⁴C]adenine into free cytokinins was observed. The significance of these results is discussed in relation to a possible transfer-RNA-independent pathway of cytokinin biosynthesis, operating primarily at the mononucleotide level.     

Catharanthus roseus: micropropagation and in vitro techniques

Different methods of in vitro culture of Catharanthus roseus provide new sources of plant material for the production of secondary metabolites such as indole alkaloids. Callus, cell suspension, plantlets, and transgenic roots cultured in the bioreactor are used in those experiments. The most promising outcomes include the production of the following indole alkaloids: ajmalicine in unorganised tissue, catharanthine in the leaf and cell culture in the shake flask and airlift bioreactor, and vinblastine in shoots and transformed roots. What is very important, enzymatic coupling of monomeric indole alkaloids, vindoline and catharanthine, is possible to form vinblastine in cell cultures. The method of catharanthine and ajmalicine production in the suspension culture in bioreactors has been successful. In this method, elicitation may be used acting on different metabolic pathways. Also of interest is the method of obtaining arbutin from the callus culture of C. roseus conducted with hydroquinone. The transformed root culture seems to be the most promising for alkaloid production. The genetically transformed roots, obtained by the infection with Agrobacterium rhizogenes, produce higher levels of secondary metabolites than intact plants. Also, whole plants can be regenerated from hairy roots. The content of indole alkaloids in the transformed roots was similar or even higher when compared to the amounts measured in studies of natural roots. The predominant alkaloids in transformed roots are ajmalicine, serpentine, vindoline and catharanthine, found in higher amounts than in untransformed roots. Transformed hairy roots have been also used for encapsulation in calcium alginate to form artificial seeds.     

Composition of the cell wall formed by protoplasts isolated from cell suspension cultures of Vinca rosea

The biochemistry of cell-wall regeneration in protoplasts obtained from Vinca rosea L. (Catharanthus roseus (L.) G. Don) cells grown in suspension culture by isolating the regenerated wall and the extracellular polysaccharides of protoplasts cultured for various periods, and investigating their composition. Gas-liquid chromatography and tracer studies with D-[U-¹⁴C]glucose showed that the sugar composition of the extracellular polysaccharides was similar to that of the original cell culture, consisting mainly of polyuronide and 3,6-linked arabinogalactan. the regenerated cell wall was composed of non-cellulosic glucans having 1,3- and 1,4-linkages, while its content in pectic and hemicellulosic components was very low.     

A virus-induced gene silencing approach to understanding alkaloid metabolism in Catharanthus roseus

The anticancer agents vinblastine and vincristine are bisindole alkaloids derived from coupling vindoline and catharanthine, monoterpenoid indole alkaloids produced exclusively by the Madagascar periwinkle (Catharanthus roseus). Industrial production of vinblastine and vincristine currently relies on isolation from C. roseus leaves, a process that affords these compounds in 0.0003–0.01% yields. Metabolic engineering efforts to either improve alkaloid content or provide alternative sources of the bisindole alkaloids ultimately rely on the isolation and characterization of the genes involved. Several vindoline biosynthetic genes have been isolated, and the cellular and subcellular organization of the corresponding enzymes has been well studied. However, due to the leaf-specific localization of vindoline biosynthesis, and the lack of production of this precursor in cell suspension and hairy root cultures of C. roseus, further elucidation of this pathway demands the development of reverse genetics approaches to assay gene function in planta. The bipartite pTRV vector system is a Tobacco Rattle Virus-based virus-induced gene silencing (VIGS) platform that has provided efficient and effective means to assay gene function in diverse plant systems. A VIGS method was developed herein to investigate gene function in C. roseus plants using the pTRV vector system. The utility of this approach in understanding gene function in C. roseus leaves is demonstrated by silencing known vindoline biosynthetic genes previously characterized in vitro.     

Manipulating indole alkaloid production by Catharanthus roseus cell cultures in bioreactors: from biochemical processing to metabolic engineering

Catharanthus roseus plants produce many pharmaceutically important indole alkaloids, of which the bisindole alkaloids vinblastine and vincristine are antineoplastic medicines and the monoindole alkaloids ajmalicine and serpentine are antihypertension drugs. C. roseus cell cultures have been studied for producing these medicines or precursors catharanthine and vindoline for almost four decades but so far without a commercially successful process due to biological and technological limitations. The research thus focused on the one hand on engineering the bioreactor process on the other engineering the cell factory itself. This review mainly summarizes the progress made on biochemical engineering aspects of C. roseus cell cultures in bioreactors in the past decades and metabolic engineering of indole alkaloid production in recent years. The paper also attempts to highlight new strategies and technologies to improve alkaloid production and bioreactor performance. Perspectives of metabolic engineering to create new cell lines for large-scale production of indole alkaloids in bioreactors and effective combination of these up- and down-stream processing are presented.     

Effect of plant growth regulators on the biosynthesis of vinblastine,vindoline and catharanthine in <Emphasis Type="Italic">Catharanthus roseus</Emphasis>

Catharanthuse roseus is a well-known medicinal plant for its two valuable anticancer compounds: vinblastine and vincristine, which belongs to terpenoid indole alkaloids. Great efforts have been made to study the principles of its secondary metabolic pathways to regulate the alkaloids biosynthesis. In this article, different plant growth regulators were shortly applied to Catharanthus roseus plants during the blooming period to study their effects on the biosynthesis of vinblastine, vindoline and catharanthine. Salicylic acid and ethylene (ethephon) treatments resulted in a significant increase of vinblastine, vindoline and catharanthine while abscisic acid and gibberellic acid had a strongly negative influence on the accumulation of the three important alkaloids. Methyl jasmonate showed no great effect on the production of these valuable alkaloids. Chlormequat chloride highly enhanced the accumulation of vinblastine but greatly decreased the contents of vindoline and catharanthine.     

Uptake and metabolism of pyrrolizidine alkaloids in<Emphasis Type="Italic"> Longitarsus</Emphasis> flea beetles (Coleoptera: Chrysomelidae) adapted and non-adapted to alkaloid-containing host plants

Several Longitarsus flea beetle species sequester pyrrolizidine alkaloids acquired from their Asteraceae and Boraginaceae host plants. We carried out feeding and injection experiments using radioactively labeled pyrrolizidine alkaloids to investigate the physiological mechanisms of uptake, metabolism and storage of alkaloids in adult beetles. We examined six Longitarsus species belonging to different phylogenetic clades in a comparative approach. All species that accepted pyrrolizidine alkaloids in a preceding food choice study showed the ability both to store pyrrolizidine alkaloid N-oxides and to metabolize tertiary pyrrolizidine alkaloids into their N-oxides. Regardless of whether the beetles' natural host plants contain pyrrolizidine alkaloids or not, these species were found to possess an oxidizing enzyme. This oxygenase appears to be specific to pyrrolizidine alkaloids: [³H]Atropine and [¹⁴C]nicotine, two alkaloids not related to pyrrolizidine alkaloids, were neither stored nor N-oxidized by any of the tested species. One species, L. australis, that strictly avoids pyrrolizidine alkaloids behaviorally, exhibited a lack of adaptations to pyrrolizidine alkaloids on a physiological level as well. After injection of tertiary [¹⁴C]senecionine, beetles of this species neither N-oxidized nor stored the compounds, in contrast to L. jacobaeae, an adapted species that underwent the same treatment. L. jacobaeae demonstrated the same efficiency in N-oxidation and storage when fed or injected with tertiary [¹⁴C]senecionine.Communicated by G. Heldmaier     

Formation of catharanthine,akuammicine and vindoline in Catharanthus roseus suspension cells

Catharanthine and akuammicine, together with ajmalicine and strictosidine, were isolated from a culture strain of Catharanthus roseus suspension cells. The biosynthetic capability of the cultured cells to produce akuammicine, catharanthine and vindoline was confirmed by feeding experiments with dl-tryptophan-[3-¹⁴C] to yield the radioactive alkaloids.     

13C-NMR studies on griseofulvin biosynthesis and acetate metabolism in Penicillium patulum

Incorporations of singly and doubly-labelled acetate-[¹³C] into griseofulvin by a mutant strain of Penicillium patulum confirm its origin from simple folding of a single heptaketide chain. An acetate ‘starter’ effect is observed in the ¹³C-NMR spectra of griseofulvin enriched from acetate-[¹³C], and analysis of the ¹³C—¹³C spin—spin couplings observed indicate a rapid metabolic turnover of added acetate. Methyl, but not carboxyl, of acetate is efficiently metabolised into the C₁ pool.     

INTERACTION OF LEUCINE, GLUCOSE, AND KETONE METABOLISM IN RAT BRAIN IN VITRO

Brain cortex slices from fed, 48 h and 120 h fasted rats were incubated and ¹⁴CO₂ was measured from (a) [U-¹⁴C]glucose (5 mm ) either alone or in the presence of l -lcucine (0.1 or 1 mm ), and (b) [U-¹⁴C]leucine or [l-¹⁴C]leucine at 0.1 or 1 mm with or without glucose (5 mm ). In other experiments, sodium dl -3-hydroxybutyrate (3-OHB) or acetoacetate (AcAc) at 1 or 5 mm were added in the above incubation mixture. The rate of conversion of [U¹⁴C]glucose to CO₂ was decreased 20% by leucine at 1 mm and 30–50% by 3-OHB at 1 or 5 mm but not by leucine at 0.1 mm . The effects of 3-OHB and of leucine (1 mm ) were not additive. The effects of leucine were similar in the fed and fasted rats. The rate of conversion of [U-¹⁴C]leucine or [l-^,4C]leucine to ¹⁴CO₂ at 0.1 mm and 1.0 mm was increased by glucose (35%) in the fed or fasted rats. Ketone bodies in the absence of glucose had no effect on leucine oxidation. However, the stimulatory effect of glucose on the rate of conversion of leucine to CO₂ was inhibited by 3-OHB at 5 mm . These results suggest that (a) leucine in increased concentrations (1 mm ) may reduce glucose oxidation by brain cortex while itself becoming an oxidative fuel for brain, and (b) leucine oxidation by brain may be influenced by the prevailing glucose and ketone concentrations.     

Stabilität des Phagen PS8 in Crown-Gall-Gewebekulturen von Vinca rosea L.

Zusammenfassung Aus einem A. tumefaciens, B6, infizierten Sproß von Vinca rosea wurde eine Tumorgewebekultur hergestellt, die in 2 verschiedenen Tests bakterienfrei war. Beim Plattieren von Homogenaten dieser Kultur gegen den phagensensitiven Stamm B6-806 von A. tumefaciens wurden keine Phagen gefunden. Auch Hitzeschock, Bestrahlung mit UV oder Behandlung mit Mitomycin induzierten keinen Phagen. Das Homogenat selbst inaktiviert zugefügten Phagen PS8 nicht.Bei 26° C verliert PS8 seine Aktivität in 13 Wochen (von 10⁷PS8/ml auf 0). Wenn PS8 einer wachsenden Tumor-Gewebekultur zugefügt wird, verliert er rascher an Aktivität. Dies ist z. T. Folge der Verdünnung des Phagen durch die wachsende Gewebekultur, z. T. Folge einer Wechselwirkung zwischen Phage und Gewebe. In der Tumorkultur wurde keine Vermehrung des Phagen PS8 beobachtet.Die Ergebnisse werden im Hinblick auf tumorigene Eigenschaften von PS8 diskutiert.

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Stability of phage PS8 in crown-gall tissue cultures of Vinca rosea L.

From Vinca rosea shoots a tumor tissue culture (Agrobacterium tumefaciens B6) was prepared which was bacteria-free in 2 experimental tests. This culture did not contain any phages when homogenates of the tissue were plated against the phage-sensitive strain B6-806 of Agrobacterium tumefaciens. Also heat shock, UV irradiation or treatment with mitomycin C did not induce any phage.The homogenate itself did not interfere with the activity of added phage PS8. At room temperature the bacteriophage PS8 looses activity within 13 weeks (10⁷ PS8/ml to 0).If PS8 is added to a growing tumor tissue culture the loss of activity is more rapid, partly because the phage is diluted by the growing culture, partly because some interaction between tissue culture and phage activity. No propagation of PS8 in the tumor tissue culture was observed.These results are discussed in relation to the hypothesis of PS8 as the tumor inducing principle.

     

Biosynthesis of the tigloyl esters of Datura: Cis-trans isomerism

Datura innoxia plants were wick fed with angelic acid-[1-¹⁴C] and l-isoleucine-[U-¹⁴C] to act as a positive control. After 7 days the root alkaloids 3α-tigloyloxytropane, 3α,6β-ditigloyloxytropane, and 3α,6β-ditigloyloxytropan-7β-ol were isolated and it was determined that angelic acid is not a precursor for the tigloyl moiety of these alkaloids. Tiglic acid-[1-¹⁴C] which was fed via the roots to hydroponic cultures of Datura innoxia, was incorporated to a considerable degree after 8 days.