Expression of deacetylvindoline-4-O-acetyltransferase in Catharanthus roseus hairy roots

Madagascar periwinkle [Catharanthus roseus (L.) G Don] is a pantropical plant of horticultural value that produces the powerful anticancer drugs vinblastine and vincristine that are derived from the dimerization of the monoterpenoid indole alkaloids (MIAs), vindoline and catharanthine. The present study describes the genetic engineering and expression of the terminal step of vindoline biosynthesis, deacetylvindoline-4-O-acetyltransferase (DAT) in Catharanthus roseus hairy root cultures. Biochemical analyses showed that several hairy root lines expressed high levels of DAT enzyme activity compared to control hairy root cultures expressing β-gulucuronidase activity (GUS) activity. Metabolite analysis using high performance liquid chromotagraphy established that hairy root extracts had an altered alkaloid profile with respect to hörhammericine accumulation in DAT expressing lines in comparison to control lines. Further analyses of one hairy root culture expressing high DAT activity suggested that DAT expression and accumulation of hörhammericine (9) were related. It is concluded that expression of DAT in hairy roots altered their MIA profile and suggests that further expression of vindoline pathway genes could lead to significant changes in alkaloid profiles. Evidence is provided that hörhammericine (9) accumulates via a DAT interaction with the root specific minovincinine-19-O-acetyltransferase (MAT) that inhibits the MAT mediated conversion of hörhammericine (9) into 19-O-acetyl-hörhammericine (12).     

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.     

Vindoline formation in shoot cultures of Catharanthus roseus is synchronously activated with morphogenesis through the last biosynthetic step

Background and Aims

The Madagascar periwinkle (Catharanthus roseus) produces the monoterpenoid alkaloid vindoline, which requires a specialized cell organization present only in the aerial tissues. Vindoline content can be affected by photoperiod and this effect seems to be associated with the morphogenetic capacity of branches; this association formed the basis of the study reported here.

Methods

Vindoline-producing in vitro shoot cultures were exposed either to continuous light or a 16-h photoperiod regime. New plantlet formation and alkaloid biosynthesis were analysed throughout a culture cycle.

Key Results

In cultures under the photoperiod, the formation of new plantlets occurred in a more synchronized fashion as compared to those under continuous light. The accumulation of vindoline in cultures under the photoperiod occurred in co-ordination with plantlet formation, in constrast to cultures under continuous light, and coincided with a peak of activity of deacetylvindoline acetyl CoA acetyltransferase (DAT), the enzyme that catalyses the last step in vindoline biosynthesis. When new plantlet formation was blocked in cultures under the photoperiod by treatment with phytoregulators, vindoline synthesis was also reduced via an effect on DAT activity. No association between plantlet formation and other biosynthetic enzymes, such as tryptophan decarboxylase (TDC) and deacetoxyvindoline 4-hydroxylase (D4H), was found. Effects of light treatment on vindoline synthesis were not mediated by ORCA-3 proteins (which are involved in the induction of alkaloid synthesis in response to elicitation), suggesting that the presence of a different set of regulatory proteins.

Conclusions

The data suggest that vindoline biosynthesis is associated with morphogenesis in shoot cultures of C. roseus.Key words: Catharanthus roseus, deacetylvindoline acetyl CoA acetyltransferase, DAT, in vitro shoot cultures, morphogenesis, vindoline     

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.     

Phytochrome is involved in the light-regulation of vindoline biosynthesis in catharanthus

The enzyme acetylcoenzyme A:deacetylvindoline 4-O-acetyl-transferase (DAT) catalyzes the final step in the biosynthesis of the monoterpenoid indole alkaloid, vindoline. Previous studies have shown that the appearance of DAT activity in etiolated seedlings of Catharanthus roseus is induced by exposure of seedlings to light and that enzyme activity is restricted principally to the cotyledons. Evidence is now presented that phytochrome is involved in the light-mediated induction of DAT activity in Catharanthus cotyledons.     

Root, Callus, and Cell Suspension Cultures, from Atropa belladonna, L. and Atropa belladonna, Cultivar lutea Doll

Root, callus, and cell suspension cultures have been establishedfrom seedlings of Atropa belladonna, L. and Atropa belladonna,cultivar lutea Döll. The growth of these cultures is described.Callus cultures transferred to auxin (-naphthaleneacetic acid)-freemedium initiated roots and shoots. Excised root cultures havebeen established from such roots and plants from such shoots.Extracts of the cultures have been submitted to the Vitali—Morinreaction and following chromatography, to the Dragendorff reaction.Cultured excised roots and plants raised from shoots initiatedon cultured callus were shown to contain atropine (hyoscyamine)and reactive substances corresponding in Rf to hyoscine andcuscohygrine. These alkaloids were absent from cultured callusand cultured cell suspensions and from leaves when initiatedwithout roots on callus. The cultured calluses and cell suspensionscontained choline (0.022–0.027 g per 100 g dry weightof root callus). The growth of cell suspension cultures wasnot inhibited by incorporating atropine sulphate, L-hyoscyamine,L-hyoscine hydrobromide, or DL-scopoline nitrate in the culturemedium at 250 mg/I. These alkaloids were absorbed by the cells,a high proportion of the added alkaloid could be recovered fromthe cultures even after 4 weeks' growth and no evidence wasobtained of the presence of degradation products of the alkaloids.The suppression of alkaloid formation in actively growing callusand cell suspension cultures is discussed.     

Effects of sodium orthovanadate on benzophenanthridine alkaloid formation and distribution in cell suspension cultures of Eschscholtzia californica

Cell suspension cultures of Eschscholtzia californica produce relatively large amounts of benzophenanthridine alkaloids upon elicitation. Sodium orthovanadate is used as an abiotic elicitor to induce alkaloid biosynthesis in cultures of E. californica. The response of the cell culture to this abiotic elicitor is very similar to that observed after elicitation with a biotic elicitor (a carbohydrate fraction from yeast extract). Treatment with orthovanadate leads to alkalinization of the growth medium, a 20-fold induction of the key enzyme tyrosine decarboxylase and increased alkaloid formation (up to 40 mg.L^–1). Cells treated with the yeast elicitor excrete a large portion of alkaloids produced into the growth medium (up to 50 % of total alkaloids) while cells treated with orthovanadate release very small amounts of alkaloids into the medium (less than 10 % of total alkaloids). These results suggest that an active transport system, possibly specific for benzophenanthridine alkaloids, is present in the plasma membrane of E. californica cells. The nature of this putative vanadate-sensitive transporter is not known at present.     

Alkaloid formation by habituated and tumorous cell suspension cultures of Catharanthus roseus

Habituated and tumorous Catharanthus roseus cells grown in the absence of hormones accumulated indole alkaloids. Total alkaloids and alkaloid pattern were the same when cells were cultured in medium without hormones or in alkaloid production medium with and without indole acetic acid. Treatment of cells with Pythium homogenate as elicitor did not increase total alkaloids or change the pattern of alkaloids produced. When either habituated or tumorous cells were grown in 1B5 medium after Gamborg et al (1968) containing 2,4-dichlorophenoxyacetic acid (2,4-D), their capacity to accumulate alkaloids decreased with time. The levels of tryptophan decarboxylase (TDC) and strictosidine synthase (SS) specific activities were constant throughout growth except when cells were exposed to 2,4-D in 1B5 medium, where enzyme activities declined in step with the decrease in alkaloid accumulation. Neither habituated nor tumorous cell suspension cultures accumulated vindoline, nor could they be induced to produce this alkaloid by any of the given treatments.NRCC No. 27514     

Molecular and biochemical analysis of a Madagascar periwinkle root-specific minovincinine-19-hydroxy-O-acetyltransferase

The terminal steps in the biosynthesis of the monoterpenoid indole alkaloids vindoline and minovincinine are catalyzed by separate acetyl coenzyme A-dependent O-acetyltransferases in Madagascar periwinkle (Catharanthus roseus G. Don). Two genes were isolated that had 63% nucleic acid identity and whose deduced amino acid sequences were 78% identical. Active enzymes that were expressed as recombinant His-tagged proteins in Escherichia coli were named minovincinine-19-O-acetyltransferase (MAT) and deacetylvindoline-4-O-acetyltransferase (DAT) because they catalyzed the 19-O-acetylation of indole alkaloids such as minovincinine and h?rhammericine and the 4-O-acetylation of deacetylvindoline, respectively. Kinetic studies showed that the catalytic efficiency of recombinant MAT (rMAT) was very poor compared with that of recombinant DAT (rDAT), whose turnover rates for Acetyl-coenzyme A and deacetylvindoline were approximately 240- and 10,000-fold greater than those of rMAT. Northern-blot analyses showed that MAT is expressed in cortical cells of the root tip, whereas DAT is only expressed in specialized idioblast and laticifer cells within light exposed tissues like leaves and stems. The coincident expression of trytophan decarboxylase, strictosidine synthase, and MAT within root cortical cells suggests that the entire pathway for the biosynthesis of tabersonine and its substituted analogs occurs within these cells. The ability of MAT to catalyze the 4-O-acetylation of deacetylvindoline with low efficiency suggests that this enzyme, rather than DAT, is involved in vindoline biosynthesis within transformed cell and root cultures, which accumulate low levels of this alkaloid under certain circumstances.     

The influence of salicylic acid elicitation of shoots, callus, and cell suspension cultures on production of naphtodianthrones and phenylpropanoids in Hypericum perforatum L.

Hypericum perforatum is a well known medicinal plant. The main pharmacological properties are due to the presence of naphtodianthrones such as hypericin and pseudohypericin. Unfortunately the levels of these compounds vary under different environmental conditions. Elicitation of in vitro cultures is a useful approach to enhance and extend production of desirable products. Therefore, the effects of salicylic acid were characterized on different explants of H. perforatum L. (cells, calli and shoots) cultured in vitro. It appears at first that salicylic acid did not affect growth and development of these explants. In addition, the production of both hypericin and pseudohypericin has doubled in elicited cell suspension cultures but not in the two other cultures. Furthermore, phenylpropanoids that are among the most frequently observed metabolites affected upon treatment of in vitro culture material with elicitors, were produced and the enzymatic activities of phenylalanine ammonia lyase and of chalcone isomerase were stimulated upon elicitation. These effects were dependant of the type of in vitro culture, the concentration of salicylic acid and the duration post-elicitation. The H. perforatum cells were globally more sensitive to salicylic acid elicitation when maintained in an undifferentiated state and particularly in cell suspension cultures. In the absence of glands considered as the sites of naphtodianthrones biosynthesis, cells and calli were capable of producing these compounds. This implies that salicylic acid could act at biosynthesis level but not for the accumulation of both hypericin and pseudohypericin. Consequently, the regulation of this process is more complex than cited in the literature involving the responsibility of only Hyp-1 gene, encoding a hypericin biosynthetic enzyme, cloned and characterized from H. perforatum.     

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.     

Two-phase airlift fermentor operation with elicitation for the enhanced production of enzophenanthridine alkaloids in cell suspensions of Escherichia californica

Approaches to increasing the productivity of benzophenanthridine alkaloids in suspension cultures in Escherichia californica were made in an airlift fermentor under different culture conditions. Elicitation with yeast extract elicitor reduced the time required to obtain a certain amount of alkaloid production. In a two-phase airlift fermentor with compounded silicone fluid, total alkaloid concentration in silicone fluid was 153.1 mg/L and that in the aqueous cellular phase was 8.2 mg/L at day 21 from inoculation. The large accumulation capacity of silicone fluid made it possible to store correspondingly large amounts of total alkaloid and increased the alkaloid production. Act day 21 from inoculation, the volumetric alkaloid productivity and the netproduction in a two-phase airlift fermentor were 1.4 and 1.5 times higher than those of normal airlift fermentor operation. This performance was furthermore enhanced by elicitation. Elicitation in two-phase airlift fermentor operation increased the volumetric productivity and the new production 3.3- and 3.5-fold compared to those of normal airlift fermentor operation. (c) 1994 John Wiley & Sons, Inc.     

Multicellular compartmentation of catharanthus roseus alkaloid biosynthesis predicts intercellular translocation of a pathway intermediate

In situ RNA hybridization and immunocytochemistry were used to establish the cellular distribution of monoterpenoid indole alkaloid biosynthesis in Madagascar periwinkle (Catharanthus roseus). Tryptophan decarboxylase (TDC) and strictosidine synthase (STR1), which are involved in the biosynthesis of the central intermediate strictosidine, and desacetoxyvindoline 4-hydroxylase (D4H) and deacetylvindoline 4-O-acetyltransferase (DAT), which are involved in the terminal steps of vindoline biosynthesis, were localized. tdc and str1 mRNAs were present in the epidermis of stems, leaves, and flower buds, whereas they appeared in most protoderm and cortical cells around the apical meristem of root tips. In marked contrast, d4h and dat mRNAs were associated with the laticifer and idioblast cells of leaves, stems, and flower buds. Immunocytochemical localization for TDC, D4H, and DAT proteins confirmed the differential localization of early and late stages of vindoline biosynthesis. Therefore, we concluded that the elaboration of the major leaf alkaloids involves the participation of at least two cell types and requires the intercellular translocation of a pathway intermediate. A basipetal gradient of expression in maturing leaves also was shown for all four genes by in situ RNA hybridization studies and by complementary studies with dissected leaves, suggesting that expression of the vindoline pathway occurs transiently during early leaf development. These results partially explain why attempts to produce vindoline by cell culture technology have failed.     

Effect of terpenoid precursor feeding and elicitation on formation of indole alkaloids in cell suspension cultures of Catharanthus roseus

The effects of terpenoid precursor feeding and elicitation by a biotic elicitor on alkaloid production of Catharanthus roseus suspension cultures were studied. After addition of secologanin, loganin or loganic acid an increase in the accumulation of ajmalicine and strictosidine and a decrease of tryptamine level was observed in non-elicited cells. Elicitation increased tryptamine accumulation in non-fed cells but it did not further increase alkaloid accumulation in precursor-fed cells. A decrease of tryptamine level was also observed, despite the induction of the tryptamine pathway after elicitation. Feeding mevalonic acid did not increase alkaloid accumulation in any studied case.     

Characterization of a novel N-methyltransferase (NMT) from Catharanthus roseus plants

Young leaves from Catharanthus roseus plants contain a novel N-methyltransferase which transfers the methyl group from S-adenosyl-L-methionine specifically to position 1 of (2R, 3R)-2,3-dihydro-3-hydroxytabersonine, producing the N-methylated product. The enzyme shows a high degree of specificity toward substrates containing a reduced double bond at position 2,3 of tabersonine derivatives but the more substituted N-desmethyldeacetylvindoline did not act as a substrate. The enzyme catalyses the third last step in vindorosine and vindoline biosynthesis, and is associated with chlorophyll-containing fractions in partially purified enzyme preparations. The lack of vindoline accumulation in cell suspension cultures is correlated with the lack of expression of this enzyme activity as well as that of an acetyltransferase which catalyses the last step in vindoline biosynthesis. Neither fungal elicitor treatment of cell line #615 nor transfer to alkaloid production medium resulted in expression of these two enzyme activities, nor was either enzyme activity detected in photoautotrophic or hormone autotrophic cultures. Cell lines #200, 615–767 and 916 could not be induced to produce DAT or NMT enzyme activities.     

Accumulation of beta-Carboline Alkaloids and Serotonin by Cell Cultures of Peganum harmala L: I. CORRELATION BETWEEN PLANTS AND CELL CULTURES AND INFLUENCE OF MEDIUM CONSTITUENTS

A number of cell cultures of Peganum harmala were initiated to check for a correlation between the harman alkaloid content of seedlings and cell lines derived therefrom. Despite a poor correlation between callus or suspension culture lines and parent plants, the mean alkaloid contents of strains derived from seedlings with higher alkaloid yields were nevertheless higher than the mean contents of strains derived from low yield plants. Generally, alkaloid accumulation decreased with the numbers of transfers. By permanent visual selection for fluorescent areas of the calluses, however, a mean content of 0.1% harman alkaloids and 0.1% serotonin could be maintained, which was 10 times higher than in unselected callus cultures.