In‐depth proteome mining of cultured Catharanthus roseus cells identifies candidate proteins involved in the synthesis and transport of secondary metabolites

Madagascar periwinkle (Catharanthus roseus) is the major source of terpenoid indole alkaloids, such as vinblastine or vincristine, used as natural drugs against various cancers. In this study, we have extensively analyzed the proteome of cultured C. roseus cells. Comparison of the proteomes of two independent cell lines with different terpenoid indole alkaloid metabolism by 2D‐DIGE revealed 358 proteins that differed quantitatively by at least a twofold average ratio. Of these, 172 were identified by MS; most corresponded to housekeeping proteins. Less abundant proteins were identified by LC separation of tryptic peptides of proteins from one of the lines. We identified 1663 proteins, most of which are housekeeping proteins or involved in primary metabolism. However, 63 enzymes potentially involved in secondary metabolism were also identified, of which 22 are involved in terpenoid indole alkaloid biosynthesis and 16 are predicted transporters putatively involved in secondary metabolite transport. About 30% of the proteins identified have an unclear or unknown function, indicating important gaps in knowledge of plant metabolism. This study is an important step toward elucidating the proteome of C. roseus, which is critical for a better understanding of how this plant synthesizes terpenoid indole alkaloids.     

Regulation of 3-hydroxy-3-methylglutaryl-coenzyme A reductase by wounding and methyl jasmonate

HMGR (3-hydroxy-3-methylglutaryl-coenzyme A reductase; E.C.1.1.1.34) supplies mevalonate for the synthesis of many plant primary and secondary metabolites, including the terpenoid component of indole alkaloids. Suspension cultures of Camptotheca acuminata and Catharanthus roseus, two species valued for their anticancer indole alkaloids, were treated with the elicitation signal transducer methyl jasmonate (MeJA). RNA gel blot analysis from MeJA treated cultures showed a transient suppression of HMGR mRNA, followed by an induction in HMGR message. Leaf disks from transgenic tobacco plants containing a chimeric hmgl::GUS construct were also treated with MeJA and showed a dose dependent suppression of wound-inducible GUS activity. The suppression of the wound response by MeJA was limited to the first 4 h post-wounding, after which time MeJA application had no effect. The results are discussed in relation to the differential regulation of HMGR isogenes in higher plants.Abbreviations GUS -glucuronidase - hmg gene of hmgr - HMGR 3-hydroxy-3-methylglutaryl-coenzyme A reductase - JA jasmonic acid - MeJA methyl jasmonate - MUG methylumbelliferyl--d-glucuronide - TDC tryptophan decarboxylase - SDS sodium dodecyl sulfate - SS strictosidine synthase     

Precursor limitations in methyl jasmonate-induced Catharanthus roseus cell cultures

Jasmonates enhance the expression of various genes involved in terpenoid indole alkaloid (TIA) biosynthesis in Catharanthus roseus. We applied precursor feeding to our C. roseus suspensions to determine how methyl jasmonate (MJ) alters the precursor availability for TIA biosynthesis. C. roseus suspensions were induced with MJ (100 μM) on day 6 and fed loganin (0.30 mM), tryptamine (0.15 mM), loganin plus tryptamine, or geraniol (0.1–1.0 mM) on day 7. While MJ increased ajmalicine production by 3-fold, induced cultures were still limited by terpenoid precursors. However, both induced and non-induced cultures became tryptamine-limited with excess loganin. Geraniol feeding also increased ajmalicine production in non-induced cultures. But MJ appeared to increase geraniol availability in induced cultures, due presumably to the increased expression of Dxs with MJ addition.     

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.     

Peroxidase and the biosynthesis of terpenoid indole alkaloids in the medicinal plant Catharanthus roseus (L.) G. Don

The leaves of Catharanthus roseus (L.) G. Don produce the first natural drugs used in cancer therapy – the dimeric terpenoid indole alkaloids vinblastine and vincristine. The study of C. roseus further revealed two other terpenoid indole alkaloids with important pharmacological activity: ajmalicine, used as an antihypertensive, and serpentine, used as sedative. The biosynthetic pathway of the medicinal alkaloids has been investigated in much detail and a number of steps are now well characterized at the enzyme and gene level and, recently, several regulatory genes have also been isolated and characterized. Since early studies of the biosynthesis of vinblastine, during the 1970s and 1980s, the dimerization reaction has attracted much attention due to its possible regulatory importance and potential application for the semi synthetic production of the dimeric alkaloids. After initial, inconclusive work suggesting the involvement of peroxidase-like enzymes, the search for the dimerization enzyme in leaf tissue detected a single dimerization activity credited to the single class III plant peroxidase present in the leaves of the plant – the basic isoenzyme CRPRX1. The enzyme was purified to homogeneity, the respective cDNA and genomic sequences were characterized, and a channeling mechanism was proposed for the peroxidase-mediated-vacuolar synthesis of the first dimeric alkaloid intermediate, α-3′,4′-anhydrovinblastine. On the other hand, the oxidation of ajmalicine into serpentine has been attributed to basic peroxidase isoenzymes localized in the vacuole of C. roseus cells. An overview of the work implying class III plant peroxidases in the biosynthesis of terpenoid indole alkaloids in C. roseus is presented here. Abbreviations: CRPRX1 –Catharanthus roseus peroxidase 1; DAB – diaminobenzidine; IEF – isoelectric focusing; UV – ultraviolet.     

Transient gene expression of recombinant terpenoid indole alkaloid enzymes in<Emphasis Type="Italic">Catharanthus roseus</Emphasis> leaves

We developed a transient expression assay for Madagascar periwinkle (Catharanthus roseus [L.] G. Don.) that is based on vacuum infiltration of intact leaves with recombinantAgrobacterium tumefaciens. This simple and rapid technique was used to overexpresstryptophan decarboxylase (tdc) andstrictosidine synthase (str1) genes, which encode 2 key enzymes of the terpenoid indole alkaloid (TIA) biosynthesis pathway. Immunoblot analysis of crude leaf extracts demonstrated that recombinant TDC and STR1 accumulated to detectable levels when targeted to their native subcellular compartments (i.e., the cytosol and vacuole, respectively) or to the chloroplast. In this article, we discuss possible applications of the transient assay in studies on the overexpression of enzymes of the TIA pathway in intactC. roseus leaves.     

Geraniol 10-hydroxylase, a cytochrome P450 enzyme involved in terpenoid indole alkaloid biosynthesis.

Geraniol 10-hydroxylase (G10H) is a cytochrome P450 monooxygenase involved in the biosynthesis of iridoid monoterpenoids and several classes of monoterpenoid alkaloids found in a diverse range of plant species. Catharanthus roseus (Madagascar periwinkle) contains monoterpenoid indole alkaloids, several of which are pharmaceutically important. Vinblastine and vincristine, for example, find widespread use as anti-cancer drugs. G10H is thought to play a key regulatory role in terpenoid indole alkaloid biosynthesis. We purified G10H from C. roseus cells. Using degenerate PCR primers based on amino acid sequence information we cloned the corresponding cDNA. The encoded CYP76B6 protein has G10H activity when expressed in C. roseus and yeast cells. The stress hormone methyljasmonate strongly induced G10h gene expression coordinately with other terpenoid indole alkaloid biosynthesis genes in a C. roseus cell culture.     

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.     

The effects of phenobarbital and ketoconazole on the alkaloid biosynthesis in Catharanthus roseus cell suspension cultures

The cytochrome P450 enzyme geraniol 10-hydroxylase plays an important role in the biosynthesis of terpenoid indole alkaloids in suspension cultures of Catharanthus roseus. The activity of this enzyme was induced by the treatment of cells with phenobarbital, and inhibited by treatment with ketoconazole. The alkaloid accumulation increased after phenobarbital treatment whereas it decreased after ketoconazole treatment. Phenobarbital and ketoconazole did not affect the in vivo conversion rate of loganin to secologanin, a reaction proposed to be catalyzed by a cytochrome P450 enzyme.     

Nuclear factors GT-1 and 3AF1 interact with multiple sequences within the promoter of the Tdc gene from Madagascar periwinkle: GT-1 is involved in UV light-induced expression

Plant secondary metabolites of the terpenoid indole alkaloid (TIA) class comprise several compounds with pharmaceutical applications. A key step in the TIA biosynthetic pathway is catalysed by the enzyme tryptophan decarboxylase (TDC), which channels the primary metabolite tryptophan into TIA metabolism. In Catharanthus roseus (Madagascar periwinkle), the Tdc gene is expressed throughout plant development. Moreover, Tdc gene expression is induced by external stress signals, such as fungal elicitor and UV light. In a previous study of Tdc promoter architecture in transgenic tobacco it was shown that the ?538 to ?112 region is a quantitative determinant for the expression level in different plant organs. Within this sequence one particular region (?160 to ?99) was identified as the major contributor to basal expression and another region (?99 to ?37) was shown to be required for induction by fungal elicitor. Here, the in vitro binding of nuclear factors to the ?572 to ?37 region is described. In extracts from tobacco and C. roseus, two binding activities were detected that could be identified as the previously described nuclear factors GT-1 and 3AF1, based on their mobility and binding characteristics. Both factors appeared to interact with multiple regions in the Tdc promoter. Mutagenesis of GT-1 binding sites in the Tdc promoter did not affect the basal or elicitor-induced expression levels. However, induction of the Tdc promoter constructs by UV light was significantly lower, thereby demonstrating a functional role for GT-1 in the induction of Tdc expression by UV light.     

Putative sites of cytokinin action during their enhancing effect on indole alkaloid accumulation in periwinkle cell suspensions

Summary The effects of cytokinins on the different branches of the indole alkaloid pathway were investigated in Catharanthus roseus cell cultures. Addition of zeatin to a 2,4-dichlorophenoxyacetic acid-containing medium decreased tryptamine levels and increased the bioconversion of secologanin to ajmalicine. Zeatin also enhanced the geraniol-10 hydroxylase activities and modified the indole alkaloid pattern. The results are discussed in the light of previous works showing that cytokinins have a positive effect on indole alkaloid accumulation in some lines of C. roseus.Abbreviations BSTFA bis(trimethylsilyl) trifluoroacetamide - CK cytokinin - 2,4-D 2,4-dichlorophenoxyacetic acid - dw dry weight - G-10H geraniol-10 hydroxylase - NAA naphthaleneacetic acid - SE standard error - TDC tryptophan decarboxylase - Z zeatin     

A 7-Deoxyloganetic Acid Glucosyltransferase Contributes a Key Step in Secologanin Biosynthesis in Madagascar Periwinkle

Iridoids form a broad and versatile class of biologically active molecules found in thousands of plant species. In addition to the many hundreds of iridoids occurring in plants, some iridoids, such as secologanin, serve as key building blocks in the biosynthesis of thousands of monoterpene indole alkaloids (MIAs) and many quinoline alkaloids. This study describes the molecular cloning and functional characterization of three iridoid glucosyltransfeases (UDP-SUGAR GLYCOSYLTRANSFERASE6 [UGT6], UGT7, and UGT8) from Madagascar periwinkle (Catharanthus roseus) with remarkably different catalytic efficiencies. Biochemical analyses reveal that UGT8 possessed a high catalytic efficiency toward its exclusive iridoid substrate, 7-deoxyloganetic acid, making it better suited for the biosynthesis of iridoids in periwinkle than the other two iridoid glucosyltransfeases. The role of UGT8 in the fourth to last step in secologanin biosynthesis was confirmed by virus-induced gene silencing in periwinkle plants, which reduced expression of this gene and resulted in a large decline in secologanin and MIA accumulation within silenced plants. Localization studies of UGT8 using a carborundum abrasion method for RNA extraction show that its expression occurs preferentially within periwinkle leaves rather than in epidermal cells, and in situ hybridization studies confirm that UGT8 is preferentially expressed in internal phloem associated parenchyma cells of periwinkle species.     

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.     

Agrobacterium-mediated transformation of the terpenoid indole alkaloid-producing plant species Tabernaemontana pandacaqui

Plants of the Apocynaceae family produce a wide range of terpenoid indole alkaloids (TIAs) which have important pharmaceutical applications. Studies of the molecular mechanisms controlling TIA biosynthesis may eventually provide possibilities to improve product yield by genetic modification of plants or cell cultures. However, these studies suffer from the lack of transformation/regeneration protocols for Apocynaceae plants. We chose to study the feasibility of Agrobacterium tumefaciens-mediated transformation of Tabernaemontana pandacaqui, because of the availability of an efficient regeneration procedure for this member of the Apocynaceae family. A procedure to produce transgenic T. pandacaqui plants was established, albeit with low efficiency. Transgenic expression was demonstrated of an intron-containing β-glucuronidase reporter gene and of a gene coding for the TIA biosynthetic enzyme strictosidine synthase from Catharanthus roseus, another Apocynaceae species. Received: 16 June 1997 / Revision received: 12 July 1997 / Accepted: 13 July 1997     

Bioreactor studies on hairy root cultures of Catharanthus roseus: Comparison of three bioreactor types

Summary Hairy roots of Catharanthus roseus were cultivated in three different types of bioreactors. The best growth and indole alkaloid production was achieved in an airsparged bioreactor with no other mixing. In the stirred bioreactor or in the bioreactor with medium circulation the roots did not grow, suggesting that hairy roots of C. roseus are more sensitive to stress than root cultures of many other plant species.     

Phenolic compounds in Catharanthus roseus

Besides alkaloids Catharanthus roseus produces a wide spectrum of phenolic compounds, this includes C6C1 compounds such as 2,3-dihydoxybenzoic acid, as well as phenylpropanoids such as cinnamic acid derivatives, flavonoids and anthocyanins. The occurrence of these compounds in C. roseus is reviewed as well as their biosynthesis and the regulation of the pathways. Both types of compounds compete with the indole alkaloid biosynthesis for chorismate, an important intermediate in plant metabolism. The biosynthesis C6C1 compounds is induced by biotic elicitors.     

Effect of phytohormones on growth and alkaloid accumulation by a Catharanthus roseus cell suspension cultures fed with alkaloid precursors tryptamine and loganin

This work presents a study of the effect of different phytohormones on growth and accumulation of terpenoid indole alkaloids in a Catharanthus roseus cell suspension culture upon feeding with the precursors loganin and tryptamine. The phytohormones tested were 2,4-dichlorophenoxyacetic acid, salicylic acid, methyl jasmonate and abscisic acid. Among these only methyl jasmonate enhanced the accumulation of alkaloids. Abscisic acid did not enhance the accumulation of alkaloids but delayed the catabolism of strictosidine.     

Impact of hypoxia on the growth and alkaloid accumulation in <Emphasis Type="Italic">Catharanthus roseus</Emphasis> cell suspension

The Madagascar periwinkle (Catharanthus roseus) produces numerous indole alkaloids, several of which have an important pharmaceutical uses such as ajmalicine, vinblastine and vincristine. The relationship between hypoxia and ajmalicine production in a cell suspension culture of C. roseus were investigated during the cycle of cell culture, in correlation with the effects on growth. The results show that the lack of oxygenation in C20D cells provokes a very strong inhibition in accumulation of the alkaloids and of other possible substances. Moreover, the addition of loganin, a metabolic intermediate of the biosynthetic pathway, in the culture medium of cells subjected to hypoxia restored the alkaloid production. Also, the results showed that the addition of benzyladenine (BA) to the culture medium increased the ajmalicine production and that the inhibitory effect of hypoxia was almost absent in these conditions. Therefore, it could be suggested that BA can without doubt decrease the effects of the hypoxia and increase the ajmalicine production in periwinkle cell suspensions.