The development of a single-stage growth and indole alkaloid production medium for Catharanthus roseus (L.) G. Don suspension cultures

By modification of a standard Murashige and Skoog plant tissue culture maintenance medium, a system has been developed for Catharanthus roseus cell suspension cultures in which both growth and indole alkaloid accumulation can occur in a single-stage culture of 14–21 days. Precise optimization of the medium depends upon the cell line under investigation, but the inclusion of lactose as the carbohydrate source, and NAA and kinetin as growth regulators, will generally increase yields of the indole alkaloid catharanthine. Treatment of cells growing in this optimized medium with agents that stimulate the accumulation of secondary metabolites both increases the yield of catharanthine and reduces the time required for production. We believe that this process could be useful for the commercial production of plant secondary metabolites.     

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.     

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     

Secondary metabolite biosynthesis in cultured cells of Catharanthus roseus (L.) G. Don immobilized by adhesion to glass fibres

Summary Suspension-cultured cells of Catharanthus roseus (L.) G. Don were immobilized on glass fibre mats and cultivated in shake flasks. The highly-aggregated immobilized cells exhibited a slower growth rate and accumulated reduced levels of tryptamine and indole alkaloids, represented by catharanthine and ajmalicine, in comparison to cells in suspension. The increased total protein synthesis in immobilized cells suggests a diversion of the primary metabolic flux toward protein biosynthetic pathways and away from other growth processes. In vitro assays for the specific activity of tryptophan decarboxylase (TDC) and tryptophan synthase (TS) suggest that the decreased accumulation of tryptamine in immobilized cells was due to reduced tryptophan biosynthesis. The specific activity of TDC was similar in immobilized and suspension-cultured cells. However, the expression of TS activity in immobilized cells was reduced to less than 25% of the maximum level in suspension-cultured cells. The reduced availability of a free tryptophan pool in immobilized cells is consistent with the reduced TS activity. Reduced tryptamine accumulation, however, was not responsible for the decreased accumulation of indole alkaloids in immobilized cells. Indole alkaloid accumulation increased to a similar level in immobilized and suspension-cultured cells only after the addition of exogenous secolaganin to the culture medium. The addition of tryptophan resulted in increased accumulation of tryptamine, but had no effect on indole alkaloid levels. Reduced biosynthesis of secologanin, the monoterpenoid precursor to indole alkaloids, in immobilized cells is suggested. Immobilization does not appear to alter the activity of indole alkaloid biosynthetic enzymes in our system beyond, and including, strictosidine synthase. Offprint requests to: P. J. Facchini     

Production of Lysergic Acid Derivatives in Submerged Culture: IV. Inorganic Nutrition Studies with Claviceps paspali

The inorganic requirements for growth and alkaloid production by submerged cultures of a lysergic acid alkaloid-producing isolate of Claviceps paspali were determined in a defined medium. The requirement for peak growth was essentially the same as the requirement for maximal alkaloid production in the case of potassium and magnesium. With phosphorus, however, maximal growth was reached at lower levels than those required for maximal alkaloid production. Sulfur was required in smaller amounts for peak alkaloid production than for maximal growth. In the case of iron and zinc, the requirement for maximal alkaloid production was greater than for growth. Manganese and copper could be sufficiently depleted to demonstrate their essentiality for alkaloid production, but their requirements for growth could not be demonstrated.     

Triggered efflux of protoberberine alkaloids from cell suspension cultures ofThalictrum rugosum

Cell cultures ofThalictrum rugosum released their protoberberine alkaloids into the medium, when cells were transferred to fresh medium lacking phosphate. The nutritional factors required and the impact of the cells' physiological state for the alkaloid excretion were analyzed. Cell cultures, having released their alkaloids into the medium, continued to grow when the alkaloid containing medium was replaced by fresh growth medium.     

The effect of initial phosphate and sucrose levels on nicotine accumulation in batch suspension cultures of Nicotiana tabacum L.

A system of liquid batch culture of tobacco (Nicotiana tabacum cv NC2512) is described in which up to 2% nicotine accumulates on a dry weight basis. Nicotine accumulation is first detected in cultures when medium phosphate is completely depleted. By reducing initial medium phosphate to 1/10th levels normally employed, alkaloid accumulation is accelerated while the raising of initial medium sucrose (30–50 g 1^?1) results in a five-fold increase in peak accumulation of nicotine. The roles of medium phosphate and sucrose levels in culture growth and nicotine production are discussed.     

The Relationship between Growth Rate, Differentiation and Alkaloid Accumulation in Cell Cultures

The relationship between alkaloid content, growth rate and differentiationwas investigated in seven solanaceous species in culture. Evidencewas obtained for an inverse correlation between the growth phaseon the one hand and alkaloid content and cell organization (aggregation)on the other. Linear phase and stationary phase cells of Daturainnoxia Mill, incorporated DL-(1_–14C)ornithine-HCl differentiallyinto protein and alkaloids with proportionately more label foundin alkaloids in the stationary phase cells. On transferringcallus of D. innoxia from high auxin medium (containing 10–6M 2, 4–D) to low auxin medium (containing 10–6 M,2, 4–D), the alkaloid content dropped concomitant witha decrease in chlorophyll content and an increase in growthrate and friability. The nature of the interrelationships betweengrowth, differentiation and accumulation are considered. Key words: Tropane alkaloids, Accumulation, Growth, Differentiation     

The effect of temperature on hairy root cultures of Catharanthus roseus: Growth,indole alkaloid accumulation and membrane lipid composition

Cultivation of Catharanthus roseus hairy root cultures at different temperatures was found to have an effect on growth rate and indole alkaloid content as well as lipid composition. When lowering the temperature, the roots responded by increasing the degree of unsaturation of cellular lipids, which was mainly due to an increased proportion of linolenic acid in the main lipid classes. The modifications in lipid composition were obviously necessary for the roots to retain the proper cell membrane fluidity at each temperature. Despite of changes in membrane lipids, no effect on the distribution of indole alkaloids between the roots and the medium could be detected. Instead, the level of alkaloid accumulation showed a clear increase with lowering temperature.Abbreviations PC phosphatidylcholine - PE phosphatidylethanolamine - PI phosphatidylinositol - PS phosphatidylserine - PG phosphatidylglycerol - CL cardiolipin - DGD digalactosyldiglyceride - MGD monogalactosyldiglyceride - NL neutral lipids - DU degree of fatty acid unsaturation     

Intracellular Accumulation of Polyphosphate by the Yeast Candida humicola G-1 in Response to Acid pH

Cells of a newly isolated environmental strain of Candida humicola accumulated 10-fold more polyphosphate (polyP), during active growth, when grown in complete glucose-mineral salts medium at pH 5.5 than when grown at pH 7.5. Neither phosphate starvation, nutrient limitation, nor anaerobiosis was required to induce polyP formation. An increase in intracellular polyP was accompanied by a 4.5-fold increase in phosphate uptake from the medium and sixfold-higher levels of cellular polyphosphate kinase activity. This novel accumulation of polyP by C. humicola G-1 in response to acid pH provides further evidence as to the importance of polyP in the physiological adaptation of microbial cells during growth and development and in their response to environmental stresses.     

Alkaloid accumulation in Ca-alginate entrapped cells of Catharanthus roseus: Using a limiting growth medium

The limitation of growth of Catharanthus roseus cells was investigated with a view to their entrapment in a Ca-alginate matrix. An examination of the effects of lowered 2,4-D and phosphate concentrations on cell viability and indole alkaloid biosynthesis enabled a growth limiting and product formation stimulating medium to be designed. Entrapped cells showed a retention of both respiratory activity and biosynthetic capacity over an extended period of time compared with free cells. Evidence is presented which suggests that immobilization in Ca-alginate beads acts to stabilize cells, resulting in enhanced product accumulation.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - d.w. dry weight     

Influence of phosphate on the formation of the indole alkaloids and phenolic compounds in cell suspension cultures of Catharanthus roseus I. Comparison of enzyme activities and product accumulation

In cell suspension cultures of Catharanthus roseus a rapid accumulation of secondary compounds (tryptamine, indole alkaloids, phenolics) was observed after transfer of the cells into special ‘induction’-media devoid of phosphate and other essential growth factors [11, 14]. The increase of product levels was suppressed in the presence of phosphate which was almost completely taken up from the medium and accumulated by the cells within 48 h after inoculation. The activities of tryptophan decarboxylase (TDC), the first enzyme in indole alkaloid biosynthesis, and of phenyl-alanine ammonia-lyase (PAL), the key enzyme of phenylpropanoid biosynthesis, were influenced differently by phosphate. Whereas the accumulation of phenolics and PAL activity were similarly inhibited by low concentration of phosphate, the medium-induced enhanced activity of TDC was not affected although the product pools were considerably reduced. Some consequences for the regulation of secondary metabolism will be discussed.     

Accumulation of Cyanophycin Granules as a Result of Phosphate Limitation in Agmenellum quadruplicatum

Phosphate-limited growth of the blue-green alga Agmenellum quadruplicatum resulted in the accumulation of cyanophycin granule polypeptide (CGP), which is a 1:1 co-polymer of aspartic acid and arginine. The progressive accumulation of CGP began after depletion of phosphate from the medium. CGP increased in concentration much faster than the increase in cell number. Electron microscopy indicated that both the number of cyanophycin granules per cell section and the diameter of each granule increased as phosphate starvation progressed. A marked decrease in the electron density of the inter-thylakoidal areas took place concurrently with the accumulation of CGP. At the same time a progessive decrease in the pigment concentration of cells and in the rate of nitrate uptake was observed. Thirty-two hours after phosphate depletion from the medium up to 28% of total cellular nitrogen was found in CGP.     

Indole alkaloid production by hairy root cultures of Catharanthus roseus

Hairy root cultures of Catharanthus roseus were established by infection with six different Agrobacterium rhizogenes strains. Two plant varieties were used and found to exhibit significantly different responses to infection. Forty-seven hairy root clones derived from normal plants and two derived from the flowerless variety were screened for their growth and indole alkaloid production. The growth rate and morphological appearance showed wide variations between the clones. The alkaloid spectra observed were qualitatively but not quantitatively very similar to that of the corresponding normal plant roots. No vindoline or deacetyltransferase activity could be detected in any of the cultures studied. O-acetylval-lesamine, an alkaloid which has not been previously observed in C. roseus was identified from extracts of hairy root clone No. 8. Two root clones were examined for their growth and alkaloid accumulation during a 26-day culture period. Alkaloid accumulation parallelled growth in both clones with ca. 2 mg ajmalicine and catharanthine per g dry weight being observed.Dedicated to Dr. Friedrich Constabel on the occasion of his 60th birthday     

Product enhancement and recovery from transformed root cultures of Nicotiana glauca

Transformed roots of Nicotiana glauce synthesize the alkaloids nicotine and anabasine at levels reflecting the parent plants. Media composition, strength, and pH were evaluated with respect to biomass yield and productivity. Full-strength Gamborg's B5 medium proved the best for biomass yield while half-strength, or low-salt, medium enhanced alkaloid accumulation. A detailed investigation of media nitrate levels demonstrated how these may be manipulated to promote growth and intracellular or extracellular alkaloid levels. High nitrate concentrations were found to significantly enhance media alkaloid levels at the end of the growth phase. Media pH is also important, although transformed roots will grow in Gamborg's B5 medium between pH 3 and 9, root biomass is favored by an increase in medium alkalinity, while alkaloid release is encouraged by mildly acidic pH.Transformed roots release a proportion of their secondary metabolites into the growth medium. By continually removing root products, any feedback inhibition on enzymatic reactions is reduced, as are the toxic effects resulting from product accumulation. In this article we describe the use of Amberlite resins (XAD-2 and XAD-4) to enhance alkaloid levels (nicotine and anabasine) of hairy root cultures of Nicotiana glauca by a factor of 10 with no adverse effect on root growth. The performance of the Amberlite columns was subsequently investigated with respect to alkaloid adsorption and desorption, including an evaluation of the effects of pH and loading capacity. The resins also adsorb media constituents which are identified and quantified as part of this work. Resulting nutritional stresses are thought to be partly responsible for enhancing secondary metabolism at the expense of biomass yield. However, the net effects of using Amberlite resins as a means of product removal significantly increases the overall product yield and the extent to which products are released into the growth medium.     

Tryptophan over-producing cell suspensions of Catharanthus roseus (L) G. Don and their up-scaling in stirred tank bioreactor: detection of a phenolic compound with antioxidant potential

Five cell suspension lines of Catharanthus roseus resistant to 5-methyl tryptophan (5-MT; an analogue of tryptophan) were selected and characterized for growth, free tryptophan content and terpenoid indole alkaloid accumulation. These lines showed differential tolerance to analogue-induced growth inhibition by 30 to 70 mg/l 5-MT supplementation (LD₅₀?=?7–15 mg/l). Lines P40, D40, N30, D50 and P70 recorded growth indices (i.e. percent increment over the initial inoculum weight) of 840.9, 765.0, 643.9, 585.7 and 356.5 in the absence and, 656.7, 573.9, 705.8, 489.0 and 236.0 in the presence of 5-MT after 40 days of culture, respectively. A corresponding increment in the free tryptophan level ranging from 46.7 to 160.0 μg/g dry weight in the absence and 168.0 to 468.0 μg/g dry weight in the presence was noted in the variant lines. Higher tryptophan accumulation of 368.0 and 468.0 g/g dry weight in lines N30 and P40 in 5-MT presence also resulted in higher alkaloid accumulation (0.65 to 0.90 % dry weight) in them. High-performance liquid chromatography (HPLC) analysis of the crude alkaloid extracts of the selected lines did not show the presence of any pharmaceutically important monomeric or dimeric alkaloids except catharanthine in traces in the N30 line that was also unique in terms of a chlorophyllous green phenotype. The N30 line under optimized up-scaling conditions in a 7-l stirred tank bioreactor using Murashige and Skoog medium containing 2 mg/l α-naphthalene acetic acid and 0.2 mg/l kinetin attained 18-folds biomass accumulation within 8 weeks. Interestingly, the cell biomass yield was enhanced to 30-folds if 30 mg/l 5-MT was added in the bioreactor vessel one week prior to harvest. Crude alkaloid extract of the cells grown in shake flask and this bioreactor batch also showed the formation of yellow-coloured crystals which upon ¹HNMR and ESI-MS analysis indicated a phenolic identity. This crude alkaloid extract of bioreactor-harvested cells containing this compound at 50 μg/ml concentration registered 65.21, 17.75, 97.0, 100 % more total antioxidant capacity, reducing power, total phenolic content, and ferric-reducing antioxidant power, respectively, when compared with that of extracts of cells grown in shake flask cultures. The latter, however, showed 57.47 % better radical scavenging activity (DPPH) than the bioreactor-harvested cells.     

Effect of the cultivation conditions on alkaloid biosynthesis by Penicillium gorlenkoanum

The effect of a carbohydrate component of the medium, trace elements and aeration on biosynthesis of the alkaloids costaclavine and epicostaclavine was studied with Penicillium gorlenkoanum. Alkaloid biosynthesis was shown to depend on the nature of a carbohydrate component: virtually no alkaloids were accumulated in media with glucose and fructose although these were synthesized at a high rate in a medium with mannitol. The quantity of synthesized alkaloids and the dynamics of the biosynthesis depended on carbohydrate concentration. The growth and alkaloid synthesis were influenced by traces of zinc, iron, copper and manganese. A more intensive aeration stimulated biomass accumulation but suppressed alkaloid biosynthesis.     

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.     

BIOCHEMICAL CHANGES DURING GROWTH AND ENCYSTMENT OF THE CELLULAR SLIME MOLD POLYSPHONDYLIUM PALLIDUM

The growth of the cellular slime mold, Polysphondylium pallidum, was studied on a semidefined medium in shaken suspension. When the medium contained large quantities of particulate material, growth was more rapid and the cellular size and protein content were smaller than when growth occurred on a medium containing less particulate material. The cellular levels of DNA, RNA, and protein; of lysosomal enzymes (acid phosphatase, acid proteinase); and of peroxisomal enzymes (catalase) were assayed during growth and the subsequent stationary phase that led eventually to encystment. Only DNA remained at a constant cellular level. Encystment of exponentially growing cells could also be initiated by washing them and introducing them into a soluble peptone medium. The rate of encystment was proportional to the osmolarity of this medium. The encystment process was followed with respect to the cellular levels of DNA, RNA, protein, carbohydrates, acid phosphatase, acid β-N-Ac-glucosaminidase, and catalase. The most dramatic change occurred in the cellular cellulose content, which increased by at least an order of magnitude by the time encystment was morphologically complete. It was concluded that the encystment of this slime mold in suspension exhibits a number of biochemical similarities to the development of this and other cellular slime molds on a surface.     

Metabolic flux distribution and thermodynamic analysis of green fluorescent protein production in recombinant Escherichia coli: The effect of carbon source and CO 2 partial pressure

Increasing recombinant protein production yields from bacterial cultures remains an important challenge in biotechnology. Acetate accumulation due to high dissolved carbon dioxide (pCO₂) concentrations in the medium has been identified as a factor that negatively affects such yields. Under appropriate culture conditions, acetate could be re-assimilated by bacterial cells to maintain heterologous proteins production. In this work, we developed a simplified metabolic network aiming to establish a reaction rate analysis for a recombinant Escherichia coli when producing green fluorescent protein (GFP) under controlled pCO₂ concentrations. Because E. coli is able to consume both glucose and acetate, the analysis was performed in two stages. Our results indicated that GFP synthesis is an independent process of cellular growth in some culture phases. Additionally, recombinant protein production is influenced by the available carbon source and the amount of pCO₂ in the culture medium. When growing on glucose, the increase in the pCO₂ concentration produced a down-regulation of central carbon metabolism by directing the carbon flux toward acetate accumulation; as a result, cellular growth and the overall GFP yield decreased. However, the maximum specific rate of GFP synthesis occurred with acetate as the main available carbon source, despite the low activity in the other metabolic pathways. To maintain cellular functions, including GFP synthesis, carbon flux was re-distributed toward the tricarboxylic acid cycle and the pentose phosphate pathway to produce ATP and NADH. The thermodynamic analysis allowed demonstrating the feasibility of the simplified network for describing the metabolic state of a recombinant system.