Stimulation of the growth and solamargine production by Solanum paludosum multiple shoot cultures using a new culture medium

Organogenic callus cultures of Solanum paludosum were obtained from root, hypocotyle and cotyledon explants of plantlets cultured in sterile conditions. These callus cultures developed multiple shoots which proliferated in Murashige and Skoog basal liquid medium. These multiple shoots produced solamargine, the main steroidal glycoalkaloid present in the unripe fruits.The optimization of the macronutrient composition of the liquid medium was performed by a method derived from the plant composition. This approach results in the establishment of an appropriate medium (SPOM medium) suitable for the improvement of both growth and solamargine production by multiple shoot cultures of S. paludosum.     

Effects of glycoalkaloids from Solanum plants on cucumber root growth

The phytotoxic effect of four glycoalkaloids and two 6-O-sulfated glycoalkaloid derivatives were evaluated by testing their inhibition of cucumber root growth. The bioassays were performed using both compounds singly and in equimolar mixtures, respectively. Cucumber root growth was reduced by chaconine (C), solanine (S), solamargine (SM) and solasonine (SS) with IC₅₀ values of 260 (C), 380 (S), 530 (SM), and 610 μM (SS). The inhibitory effect was concentration-dependent. 6-O-sulfated chaconine and 6-O-sulfated solamargine had no inhibitory effects, which indicated that the carbohydrate moieties play an important role in inhibiting cucumber root growth. The equimolar mixtures of paired glycoalkaloids, both chaconine/solanine and solamargine/solasonine, produced synergistic effects on inhibition of cucumber root growth. By contrast, mixtures of unpaired glycoalkaloids from different plants had no obviously synergistic effects. The growth inhibited plant roots lacked hairs, which implied that inhibition was perhaps at the level of root hair growth.     

五种茄科糖苷生物碱及其混合物的抗真菌活性研究

本文研究了五种茄科糖苷生物碱(茄碱、查茄碱、边缘茄碱、澳洲茄碱和番茄碱)对两种植物病原真菌白菜白斑病菌和葱紫斑病菌的抑制活性.结果表明番茄碱的抗真菌活性最强,其后依次是查茄碱、边缘茄碱和澳洲茄碱,茄碱的活性最弱;不同浓度茄碱和查茄碱(马铃薯中的两种糖苷生物碱)的混合物均具有协同抗真菌作用,且低浓度的混合物产生的协同作用效果较大;边缘茄碱和澳洲茄碱(龙葵中的两种糖苷生物碱)的混合物基本没有协同抗真菌作用;边缘茄碱和查茄碱的混合物以及澳洲茄碱和茄碱的混合物(均为来自不同植物的糖苷生物碱的混合物)在抗真菌活性上都呈现了相加关系.     

Production of solamargine by in vitro cultures of Solanum paludosum

Callus cultures of Solanum paludosum were established from roots, hypocotyles, cotyledons and leaf limbs of plantlets cultivated in sterile conditions on a Murashige and Skoog's modified medium. Non organogenous calluses were obtained with addition of BA or kinetin (10^-5M to 10^-6M) as the cytokinin and 2,4-d or NAA (10^-5M to 10^-6M) as the auxin. These calluses permitted the establishment of a cell suspension culture with BA (10-6M) and 2,4-d (10^-6M). Zeatin (10^-6M) with IAA (10^-6M) gave rise to organogenous calluses. These organogenous callus cultures developed multiple shoots which either proliferated if they were cultivated on a medium containing zeatin with IAA or IBA or were able to regenerate into whole plants when zeatin was used as the only hormone. The different plant material produced solamargine, the main steroidal glycoalkaloid present in the unripe fruits. The best production was obtained with the fruits of regenerated plants from organogenous callus cultures after reintroduction of these plants in their brasilian biotope. The solamargine content of the two types of plant materials was about 0.06% and 2.5% (dry weight) respectively for the callus cultures and the fruits from in vitro plants. The fruits were harvested a year after the beginning of the plantlet regeneration step.Abbreviations HPTLC high performance thin layer chromatography - HPLC high performance liquid chromatography - 2,4-d 2,4-dichlorophenoxyacetic acid - BA benzylaminopurine - IAA 3-indolebutyric acid - NAA -naphthaleneacetic acid - IBA 3-indolebutyric acid - IPA isopentenyladenine     

Natural products and enzymes from plant cell cultures

Plants represent an unlimited source of natural products. Many of the recently detected phytochemicals exhibit remarkable bioactivities, ranging from anticancer activity, phosphodiesterase inhibition to cytotoxicity against HIV-infected cells. Cultivated plant cells produce at their unorganized, dedifferentiated stage secondary metabolites, but in very different amounts in so far as new compounds are concerned. In fact, more than 140 novel natural products are presently known from plant cell cultures, which also include new metabolites formed by biotransformation. The biotransformation capacity of suspended cells is described and recent high yielding transformations, like the formation of arbutin by hydroquinone-transformation withRauwolfia cells are discussed. As an example of alkaloid production by cell suspensions, the pattern of monoterpenoid indole alkaloids of the Indian medicinal plantRauwolfia serpentina Benth. is described and the so far 30 identified compounds are divided into eight groups which are biosynthetically closely related. Some of the key biosynthetic reactions leading to theRauwolfia alkaloids are discussed and an overview of the enzymes involved in the formation of the alkaloid ajmaline and proteins catalyzing side reactions of the ajmaline pathway are given.     

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     

Production of monoclonal antibodies and development of an ELISA for solamargine

The ratio of hapten and bovine serum albumin in an antigen conjugate was determined by matrix-assisted laser desorption/ionization mass spectrometry. A hybridoma secreting monoclonal antibodies against solamargine was produced by fusing splenocytes immunized with a solamargine-bovine serum albumin conjugate with HAT-sensitive mouse myeloma cell line, P3-X63-Ag8-653. Extensive cross-reaction of anti-solamargine antibodies against solasonine appeared. Aglycone of solamargine, solasodine cross-reacted with anti-solamargine antibodies resulting in a 43.8% cross-reaction. Insignificant cross-reaction appeared with tomatine (2.06%). The full measuring range of the assay extends from 57.5 pmol ml^–1 to 11.5 nmol ml^–1 of solamargine.     

In vitro Leishmanicidal and Cytotoxic Activities of the Glycoalkaloids from Solanum lycocarpum (Solanaceae) Fruits

Leishmaniasis is an infection caused by a protozoan parasite of the genus Leishmania and is the second most prevalent parasitic protozoal disease after malaria in the world. We report the in vitro leishmanicidal activity on promastigote forms of Leishmania amazonensis and cytotoxicity, using LLCMK₂ cells, of the glycoalkaloids from the fruits of Solanum lycocarpum, determined by colorimetric methods. The alkaloidic extract was obtained by acid‐base extraction; solamargine and solasonine were isolated by silica‐gel chromatography, followed by reversed‐phase HPLC final purification. The alkaloidic extract, solamargine, solasonine, as well as the equimolar mixture of the glycoalkaloids solamargine and solasonine displayed leishmanicidal activity against promastigote forms of L. amazonensis, whereas the aglycone solasodine was inactive. After 24 and 72 h of incubation, most of the samples showed lower cytotoxicities (IC₅₀ 6.5 to 124 μM ) as compared to leishmanicidal activity (IC₅₀ 1.1 to 23.6 μM ). The equimolar mixture solamargine/solasonine was the most active with an IC₅₀ value of 1.1 μM , after 72 h. Likewise, solamargine was the most active after 24 h with an IC₅₀ value of 14.4 μM , both in comparison with the positive control amphotericin B.     

Transgenic periwinkle tissues overproducing cytokinins do not accumulate enhanced levels of indole alkaloids

Cytokinins play a critical role in several aspects of plant growth, metabolism and development. We previously reported that adding cytokinins to the culture medium of a suspension-cultured cell line of periwinkle increased the accumulation of indole alkaloids, and our aim was to compare the effect of exogenously-applied cytokinins with that of elevated levels of endogenous cytokinins on indole alkaloid production. We used an Agrobacterium tumefaciens strain yielding a plasmid with the isopentenyl transferase gene under control of its own promoter. Co-culture of suspension cells with the bacteria caused a severe stress response leading to cell necrosis. Therefore, we failed to transform this material but we succeeded in transforming periwinkle cotyledons. We verified that callus cultures generated from the isopentenyl transferase-transgenic cotyledons accumulated high cytokinin concentrations. Treating normal callus cultures (generated from untransformed cotyledons) with cytokinins enhanced their alkaloid production. By contrast, the enhanced concentration of endogenous cytokinins in transgenic calli did not increase indole alkaloid production, and thus did not mimic the effect of exogenously-applied cytokinins. Hypothesis to explain this discrepancy are discussed.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - DW dry cell mass - ipt isopentenyl transferase gene     

Tropane alkaloid production inDatura stramonium root cultures

Summary Tropane alkaloid production was studied in different root cultures ofDatura stramonium. Cultured roots were obtained with 10⁻⁶ M of indolbutyric acid. Their doubling times were from 6 to 19 days. Hyoscyamine content varied from 0.17 to 0.62% dry weight, and scopolamine content from 0.08 to 0.33% dry weight, depending on the lines. A comparison of the bioproductivity of these compounds in the pot-grown plant roots showed that it was two to three orders lower than cultured roots, and it increased one order of magnitude considering the productivity on the whole plant. Bioproductivity, growth capacity and alkaloid production stability during subsequent transfers (more than 2 yr) are reported. Only one root line (N5) showed excretion of the alkaloids to the culture medium. Characterization of three selected lines (N1, N5, and N9) showed that the highest alkaloid production is reached at the stationary phase of growth, with the exception of line N9.     

Hairy root and tissue cultures of <Emphasis Type="Italic">Leucojum aestivum</Emphasis> L.—relationships to galanthamine content

Galanthamine, an isoquinoline alkaloid acetylcholinesterase inhibitor, is an important agent used all around the world for the symptomatic treatment of senile dementia of the Alzheimer’s type. The production of this metabolite and the availability of the plant are limited and prompted the search for an alternative way to obtain this valuable metabolite using in vitro cultures of Leucojum aestivum L. It is known that cell differentiation level shows a major influence upon the accumulation of alkaloids. For this reason, tissue cultures of L. aestivum showing different stages of morphogenesis controlled by exogenous growth regulators were established. Agrobacterium rhizogenes strain LBA 9402 has been tested for its capacity to induce hairy roots of this monocotyledonae plant.     

Alkaloid production in elicited cell suspension cultures of Erythrina americana Miller

A number of species of the genus Erythrina are rich in secondary metabolites, particularly phenolics and alkaloids that exhibit interesting anti-inflammatory, anti-plasmodial, bactericidal, curariform and fungicidal activities. Unfortunately, the isolation of these compounds through the extraction of organs and seeds of whole plants is becoming more difficult since the natural growing areas of many of the species, and particularly of Erythrina americana, are being urbanised. Plant tissue culture not only constitutes a viable method through which to preserve the species, but may also represent a constant and stable source of target alkaloids. Currently, however, in vitro systems, and especially cell suspension cultures, only accumulate low levels of the desired products. A number of strategies for increasing production have been proposed, the most successful of which involves elicitation of suspension cells with plant growth regulators. In this context, excellent results have been reported following elicitation of cell cultures derived from different species and genera with jasmonic acid and methyl jasmonate. The present paper provides a brief review of the novel approaches to the use of Erythrina alkaloids that have recently been described, and of the advances that have been made in the formation of tissue cultures of E. americana and their subsequent elicitation in attempts to augment alkaloid accumulation.     

The exposure to trans-cinnamic acid of osmotically stressed Catharanthus roseus cells cultured in a 14-l bioreactor increases alkaloid accumulation

A Catharanthus roseus cell line was cultured in a 14-l bioreactor. Total alkaloid production decreased more than 80% while scaling up this cell line from 250 ml batch cultures to the bioreactor. However, the subsequent application of an osmotic stress and 1 mM trans-cinnamic acid, which inhibits the synthesis of phenolic compounds, restored the original alkaloid amounts.     

RLCC-isolation of Raucaffricine from its most efficient source — cell suspension cultures of Rauwolfia serpentina Benth

Raucaffricine (vomilenine-galactoside) was shown to be the major indole alkaloid of Rauwolfia serpentina Benth. cell suspension cultures grown in AP-medium (alkaloid production medium). Several grams of this glycoalkaloid can conveniently be isolated by RLCC (Rotation Locular Countercurrent Chromatography). A newly discovered enzyme efficiently converts the glycoalkaloid to its aglycon, vomilenine, which occupies a key function in the biosynthesis of ajmaline. This is the first demonstration of the occurrence of raucaffricine in Rauwolfia serpentina.     

Steroidal glycoalkaloid content of potato,tomato and their somatic hybrids

Summary Analyses of leaves and ‘tubers’ from somatic hybrids of potato and tomato (‘pomato’ with plastids of potato, ‘topato’ with plastids of tomato) produced by fusion of protoplasts from liquid cultures of dihaploid potato and mesophyll of tomato revealed the presence of the two major potato glycoalkaloids (α-solanine and α-chaconine) as well as the tomato glycoalkaloid (αtomatine). The total alkaloid content of leaves was greater than that of ‘tubers’ and similar to levels in the foliage of parent plants. However, glycoalkaloids were more abundant in hybrid ‘tubers’ than in normal potato tubers by a factor of 5–15. In hybrid foliage, approximately 98% of the alkaloid present was of potato origin whereas in ‘tubers’ the reverse was the case, with tomatine comprising 60–70% of the total alkaloid. The similarities in alkaloid content and ratios between the pomato and the topato lines indicate that plastomes do not influence the biosynthesis and distribution of these alkaloids. The results indicate that major secondary metabolites may prove useful for assessing the hybrid nature of such plants.     

Characterization of transgenic plants derived from hairy roots ofHyoscyamus muticus

Mature plants were regenerated via protoplasts fromAgrobacterium rhizogenes-transformed root cultures ofHyoscyamus muticus L., and chemical analyses were performed on 34 individual plants. The regenerated plants showed strong phenotypic differences from clone to clone as well as from the control plants. Polymerase chain reaction studies revealed that the plants exhibiting the strongest phenotypic alterations contained therol (A, B and C) genes, whereas the plants with fewer alterations had lost them. The plants produced hyoscyamine, scopolamine and a range of different calystegins, and considerable somaclonal variation was observed. Alkaloid production in the plants transgenic for therol genes was clearly reduced. The pattern of calystegins was similar within all the regenerated plants lackingrol genes. Among the plants withrol genes, the calystegin B₁ was not detectable. It seems clear that the presence ofrol genes is detrimental to the alkaloid accumulation in the transgenic plants in contrast to hairy root cultures.Abbreviation PCR Polymerase chain reaction     

Using AFLP markers for species differentiation and assessment of genetic variability of in vitro-cultured Papaver bracteatum (section Oxytona)

Summary Amplified fragment length polymorphism (AFLP) markers were employed to deteet genetic variation among species of Papever (section Oxytona) and assess genetic fidelity between in vitro cell lines of Papaver bracteatum and mature plants derived from the propagation of their callus cultures. Regenerated plants exhibited morphological and phytochemical characteristics dissimilar to those of their source material. Thebaine, the dominant alkaloid produced by Papaver bracteatum, was not detected in capsules from mature regenerated accessions, indicating that there may have been a loss of genetic uniformity. Instead, the dominant alkaloid produced by the regenerated plant was shown to be isothebaine (by TLC and GC/MS), a metabolic characteristic of P. pseudo-orientale. A Neighbor-Joining tree constructed from AFLP fingerprints distinetly separates the three species of Oxytona while firmly grouping the in vitro-cultured plants with P. pseudo-orientale. Additionally phytochemical data and chromosome counts indicate that the seed used to initiate cultures was of hybrid origin and ihat the loss in genetic uniformity was not due to somaclonal variation occurring during the in vitro culture process. AFLP fingerprinting was therefore able to differentiate Oxytona species and invesgigate allopolyploidy in closely related papaver species.     

Overexpression of a tryptophan decarboxylase cDNA inCatharanthus roseus crown gall calluses results in increased tryptamine levels but not in increased terpenoid indole alkaloid production

The enzyme tryptophan decarboxylase (TDC) (EC 4.1.1.28) catalyses a key step in the biosynthesis of terpenoid indole alkaloids inC. roseus by converting tryptophan into tryptamine. Hardly anytdc mRNA could be detected in hormone-independent callus and cell suspension cultures transformed by the oncogenic T-DNA ofAgrobacterium tumefaciens. Supply of tryptamine may therefore represent a limiting factor in the biosynthesis of alkaloids by such cultures. To investigate this possibility, chimaeric gene constructs, in which atdc cDNA is linked in the sense or antisense orientation to the cauliflower mosaic virus 35S promoter and terminator, were introduced inC. roseus cells by infecting seedlings with an oncogenicA. tumefaciens strain. In the resulting crown gall tumour calluses harbouring thetdc sense construct, an increased TDC protein level, TDC activity and tryptamine content but no significant increase in terpenoid indole alkaloid production were observed compared to empty-vector-transformed tumour calluses. In tumour calluses containing thetdc antisense construct, decreased levels of TDC activity were measured. Factors which might be responsible for the lack in increased terpenoid indole alkaloid production in thetdc cDNA overexpressing crown gall calluses are discussed.     

Pilot-scale culture ofCoffea arabica in a novel loop fluidised bed reactor

A novel bubble free loop fluidized bed reactor for plant cell cultures was developed and tested usingCoffea arabica as a model cell line. The effects of main operational parameters like morphology and size of inoculum, oxygen supply as well as recirculation of sparingly soluble gases on cell growth and alkaloid production rates in this reactor were studied and the results were compared with standard shake flask experiments. By on-line monitoring of biomass and oxygen uptake rates the main kinetic parameters for cell growth and alkaloid production were evaluated. It was demonstrated that the novel reactor is easy to run and is particularly adequate for measuring kinetic parameters necessary for scale up.     

Enhanced indole alkaloid production in suspension compact callus clusters of Catharanthus roseus: impacts of plant growth regulators and sucrose

A special culture system, compact callus clusters, was developed from Catharanthus roseus stem explants in a modified Murashige and Skoog (MS) liquid medium containing 5.37 µM -naphthaleneacetic acid and 4.65 µM kinetin. Morphological and anatomical studies showed that the globular compact callus cluster cultures consisted of many cohesive callus aggregates displaying some level of cellular/tissue differentiation, which was also in agreement with the results from peroxidase and esterase isoenzyme pattern analysis. The compact callus cluster cultures could synthesise about 2-fold more indole alkaloids than the dispersed cell cultures, and this was postulated to be associated with their differential status. Plant growth regulators and sucrose concentration, as well as shaking speed significantly affected properties of the compact callus clusters. In detail, 2,4-dichlorophenoxyacetic acid destroyed the compact structure and reduced alkaloid production of the compact callus cluster cultures; but a high concentration of cytokinins was necessary to maintain the compact structure and high alkaloid production of the special cultures. The optimum sucrose (5–6%) gave the greatest alkaloid and biomass production, as well as the greatest degree of compaction of the compact callus clusters.