Uncharacteristic alkaloid synthesis by suspension cultures of Cinchona pubescens fed with L-tryptophan

The growth and alkaloid production of a liquid suspension culture of Cinchona pubescens has been studied, particularly with attention to the effect on the alkaloid spectrum of feeding cultures with L-tryptophan. This treatment did not enhance the production of any of the known alkaloids of Cinchona. Above 2mmM, however, the presence of the amino acid was toxic, causing extreme acidification of the medium and cell death. Under these conditions a number of indole and quinoline derivatives accumulated. The principal component of the alkaloid fraction proved to be norharman; indole-3-aldehyde was also isolated. Both these products probably occur by uncharacteristic metabolism of L-tryptophan. Furthermore, evidence for the degradation of endogenous alkaloids was obtained, as 4-hydroxymethylquinoline was also isolated. None of the known quinoline alkaloids of Cinchona, which were present in untreated cells, could be detected after L-tryptophan treatment, even when large amounts of culture were analysed. It is concluded that, in this instance, Cinchona alkaloid production cannot be improved by feeding with a precursor.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid - BA benzyladenine     

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.     

Synergistic effect of methyl jasmonate and cyclodextrins on anthraquinone accumulation in cell suspension cultures of Morinda citrifolia and Rubia tinctorum

Plant in vitro culture is a platform for producing secondary metabolites that combines safety, quality and low environmental impact. Besides, it is possible to increase the accumulation of these compounds by different strategies, such as elicitation. In this work, we analyzed the effects of the combination of methyl jasmonate (MeJ) and two cyclodextrins (CDs) on the production of anthraquinones (AQs) in cell cultures of Rubiaceae (Morinda citrifolia and Rubia tinctorum). These secondary metabolites have been traditionally used as dyes and have interesting therapeutic applications. The experiments were designed according to a full factorial design of two factors (MeJ and a CD) in two levels (0 and 0.1 mM for MeJ, and 0 and 20 mM of the CD). MeJ and (2-hydroxypropyl)-β-cyclodextrin (HPCD) synergistically increased intracellular AQ content in suspension cultures of R. tinctorum, and, to a lesser extent, in suspension cultures of M. citrifolia. Combination of MeJ with another CD, 2-methyl-β-cyclodextrin, led to a more intense and later increase in AQ content in cell cultures of R. tinctorum when compared to MeJ–HPCD treatment. However, the combination of CD and MeJ failed to induce a drastic AQ release to the culture media. Nevertheless, our results show that combination of strategies (using a CD and MeJ) was successful to increase secondary metabolite accumulation in suspension cultures. To our knowledge, this is the first report of synergistic effect of MeJ and CD on AQ accumulation in plant in vitro cultures.

     

Enhanced production of phytoestrogenic isoflavones from hairy root cultures of Psoralea corylifolia L. Using elicitation and precursor feeding

The effect of biotic elicitors (yeast extract, chitosan), signaling molecule (salicylic acid), and polyamines (putrescine and spermidine) was studied with respect to isoflavones accumulation in hairy root cultures of Psoralea corylifolia L. Untreated hairy roots (control) accumulated 1.55% dry wt of daidzein and 0.19% dry wt of genistein. In precursor feeding experiment, phenylalanine at 2 mM concentration led to 1.3 fold higher production of daidzein (1.91% dry wt) and genistein (0.27% dry wt). In biotic elicitors, chitosan (2 mg/L) was found to be the most efficient elicitor to induce daidzein (2.78% dry wt) and genistein (0.279% dry wt) levels in hairy roots. Salicylic acid at 1 mM concentration stimulated the maximum accumulation of daidzein (2.2% dry wt) and genistein (0.228% dry wt) 2 days after elicitation. In case of polyamines, putrescine (50 mM) resulted in highest accumulation of daidzein (3.01% dry wt) and genistein (0.227% dry wt) after 5 days of addition. Present results indicated the effectiveness of elicitation and precursor feeding on isoflavones accumulation in hairy roots of P. corylifolia. This is the first report of elicitation on isoflavones production by hairy roots of P. corylifolia.     

Light-enhanced caffeic acid derivatives biosynthesis in hairy root cultures of <Emphasis Type="Italic">Echinacea purpurea</Emphasis>

Light plays an important role in almost all plant developmental processes and provides the fundamental building blocks for growth, development, primary and secondary metabolism. The effects of light on growth rate and caffeic acid derivative (CADs) biosynthesis in hairy root cultures of Echinacea purpurea (Moench) were assessed. Light-grown hairy roots accumulated increased levels of anthocyanins, which became visible in outer cell layer of the cortex as a ring of purple color. The light-grown root cultures also had radially thickened morphology compared with the dark-grown controls. The growth rate and cell viability of the hairy root cultures in light did not show obvious difference in comparison with those in dark. However, biosynthesis of CADs including cichoric acid, caftaric acid, chlorogenic acid and caffeic acid was significantly increased in hairy root cultures grown in the light. The enhanced accumulation of CADs and anthocyanins in E. purpurea hairy root cultures was correlated to an observed light-stimulated activity of phenylalanine ammonium lyase (PAL).     

Influence of mevinolin on chloroplast terpenoids in Cannabis sativa

Plants synthesize a myriad of isoprenoid products that are required both for essential constitutive processes and for adaptive responses to the environment. Two independent pathways for the biosynthesis of isoprenoid precursors coexist within the plant cell: the cytosolic mevalonic acid (MVA) pathway and the plastidial methylerythritol phosphate (MEP) pathway. In this study, we investigated the inhibitory effect of the MVA pathway on isoprenoid biosynthesized by the MEP pathway in Cannabis sativa by treatment with mevinolin. The amount of chlorophyll a, b, and total showed to be significantly enhanced in treated plants in comparison with control plants. Also, mevinolin induced the accumulation of carotenoids and α-tocopherol in treated plants. Mevinolin caused a significant decrease in tetrahydrocannabinol (THC) content. This result show that the inhibition of the MVA pathway stimulates MEP pathway but none for all metabolites.     

Enhancement of anthraquinone production in Morinda citrifolia cell suspension cultures after stimulation of the proline cycle with two proline analogs

Synthesis of anthraquinones (AQs) involves the shikimate and 2-C-methyl-D-erythritol 4-phosphate pathways. The proline cycle is linked to the pentose phosphate pathway (PPP) to generate NADPH needed in the first steps of this pathway. The effect of two proline analogs, azetidine-2-carboxylic acid (A2C) and thiazolidine-4-carboxylic acid (T4C), were evaluated in Morinda citrifolia suspension cultures. Both analogs gave higher proline accumulation after 6 and 10 days (68 and 179% after 6 days with A2C at 25 and 50 μM, respectively, and 111% with T4C added at 100 μM). Induction of the proline cycle increased the AQ content after 6 days (~40% for 50 μM A2C and 100 μM T4C). Whereas A2C (50 μM) increased only AQ production, T4C also enhanced total phenolics. However, no induction of the PPP was observed with any of the treatments. This pathway therefore does not limit the supply of carbon skeletons to secondary metabolic pathways.     

Evidence of Isoprenoid Precursor Toxicity in Bacillus subtilis

The mevalonic acid (MVA) and methylerythritol phosphate (MEP) pathways for isoprenoid biosynthesis both culminate in the production of the two-five carbon prenyl diphosphates: dimethylallyl diphosphate (DMAPP) and isopentenyl diphosphate (IPP). These are the building blocks for higher isoprenoids, including many that have industrial and pharmaceutical applications. With growing interest in producing commercial isoprenoids through microbial engineering, reports have appeared of toxicity associated with the accumulation of prenyl diphosphates in Escherichia coli expressing a heterologous MVA pathway. Here we explored whether similar prenyl diphosphate toxicity, related to MEP pathway flux, could also be observed in the bacterium Bacillus subtilis. After genetic and metabolic manipulations of the endogenous MEP pathway in B. subtilis, measurements of cell growth, MEP pathway flux, and DMAPP contents suggested cytotoxicity related to prenyl diphosphate accumulation. These results have implications as to understanding the factors impacting isoprenoid biosynthesis in microbial systems.     

Mevalonic acid partially restores chloroplast and etioplast development in Arabidopsis lacking the non-mevalonate pathway

Isopentenyl diphosphate (IPP) is produced via two independent biosynthetic pathways in higher plants: the mevalonate (MVA) pathway in the cytoplasm and the non-mevalonate 2-C-methyl- D-erythritol-4-phosphate (MEP) pathway in plastids. It has been previously suggested that IPP or IPP-derived products can be exchanged between the cytoplasm and plastids. However, the issue of whether the exchanged products reflect efficient synthesis of functional isoprenoids remains unresolved. We fed exogenous mevalonic acid to the Arabidopsis thaliana (L.) Heynh. albino mutant cla1-1, a null mutant of the first-step enzyme in the MEP pathway. This resulted in the recovery of thylakoid membrane stacking in chloroplasts in the light, and the formation of prolamellar bodies and plastoglobuli in etioplasts in the dark. By contrast, exogenous lovastatin, an inhibitor of mevalonic acid biosynthesis, induced complete depigmentation and further inhibition of plastid development in both the light and the dark. These results suggest that mevalonic acid-derived products contribute to the formation of functional plastidic isoprenoids, such as the chlorophylls and carotenoids required for plastid development.     

Fungal biotransformation of p-coumaric acid into caffeic acid by Pycnoporus cinnabarinus: an alternative for producing a strong natural antioxidant

Fungal biotransformation of p-coumaric acid into caffeic acid, potentially a strong antioxidant, was evidenced in Pycnoporus cinnabarinus cultures grown with high feeding of p-coumaric acid. Preliminary experiments showed no toxicity of both p-coumaric and caffeic acids at concentrations ranging from 0 to 500 mg l^–1. Feeding 450 mg p-coumaric acid l^–1 into P. cinnabarinus cultures grown on 20 g l^–1 glucose medium resulted in the production of 257 mg caffeic acid l^–1with a molar yield of 21%.     

Germination,duplication cycle and septum formation are altered by caffeine,caffeic acid and cinnamic acid in <Emphasis Type="Italic">Aspergillus nidulans</Emphasis>

Phytogenous Phenolic and benzene compounds have been described as being responsible for many biological activities including antifungal effects. The effect of caffeine and cinnamic and caffeic acids on a model fungus, Aspergillus nidulans, was investigated at its initial stage of germination. Conidia did not germinate in the presence of cinnamic acid (1 mM). Caffeine and caffeic acid exerted a negative effect on germination, on the nuclear duplication cycle and on first septum formation. The effects of caffeine were dose-dependent; effects of caffeic acid (1 mM) were more intense than those of caffeine (10 mM).     

Biosynthesis of myo-inositol and its role as a precursor of cell-wall polysaccharides in suspension cultures of wild-carrot cells

The biosynthesis of myo-inositol (MI) and its role as a precursor of cell-wall polysaccharides was studied in supension cultures of wild carrot (Daucus carota L.) cells. Suspension cultures, grown in the presence or absence of 2,4-dichlorophenoxyacetic acid for 7 and 14d were incubated with [U-¹⁴C]glucose and [2-³H]MI in the presence of different concentrations of unlabeled MI. Synthesis of [¹⁴C]MI from [U-¹⁴C]glucose occurred under all conditions. The amount of MI synthesized from glucose was sharply reduced when 10 mM MI was provided in the medium. Substantial quantities of ³H were incorporated in arabinose, xylose and galacturonic acid isolated and purified from the cell-wall polysaccharides of the cell cultures in various stages of growth or embryogenesis. No ³H was present in the glucose or galactose units of cell-wall polysaccharides. At the four stages of growth and states of development of the carrot cultures used, the MI oxidation pathway contributed to the synthesis of pentosyl and galacturonosyl units of the cell wall. However, the data indicate that the contribution of the MI oxidation pathway to pentosyl and galacturonosyl units is small.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - MI myo-inositol     

Biosynthesis of anthraquinones in cell cultures of the Rubiaceae

Plants and their derived cell and tissue cultures in the family Rubiaceae accumulate a number of anthraquinones. There are two main biosynthetic pathways leading to anthraquinones in higher plants: the polyketide pathway and the chorismate/o-succinylbenzoic acid pathway. The latter occurs in the Rubiaceae for the biosynthesis of Rubia type anthraquinones. In this pathway, ring A and B of the Rubia type anthraquinones are derived from shikimic acid, -ketoglutarate via o-succinylbenzoate, whereas ring C is derived from isopentenyl diphosphate, a universal building block for all isoprenoids. At present, it is known that isopentenyl diphosphate is formed via the mevalonic acid pathway or the 2-C-methyl-D-erythritol 4-phosphate pathway. Recent findings demonstrate that the 2-C-methyl-D-erythritol 4-phosphate pathway, not the mevalonic acid pathway, is involved in the formation of isopentenyl diphosphate, which constitutes ring C of anthraquinones in the Rubiaceae. This review summarizes the latest results of studies on the biosynthetic pathways, the enzymology and regulation of anthraquinone biosynthesis, as well as aspects of the metabolic engineering. Furthermore, biochemical and molecular approaches in functional genomics, which facilitate elucidation of anthraquinone biosynthetic pathways, are briefly described.     

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.     

Nutrient modifications for improved growth of Brassica nigra cell suspension cultures

Cell pellet yield of two Brassica nigra suspension cultures was stimulated by amino acid supplements in the growth medium. This could confound the interpretation of amino acid feeding studies involved in characterizing amino acid metabolism mutants. The nutritional requirements of one of the Brassica nigra suspension cultures growing in modified Murashige & Skoog medium were therefore reviewed. Sucrose at 2% w/v was growth limiting and amino or organic acid supplements stimulated growth rate and yield. Increasing sucrose to 6% and supplementing with 15 mM sodium succinate increased maximum cell pellet volume by 2.7 times and maximum dry weight by 2.8 times, stimulated cell enlargement and produced similar maximum numbers of cells per culture. The further addition of an amino acid supplement of 4 mM alanine, 4 mM glutamine and 1 mM glutamate produced no further improvement. The revised medium was more strongly buffered, supported cell growth for a longer period and permitted a 30-fold reduction in the minimum cell inoculum. Cells grown in the revised medium are 10-fold more resistant to growth inhibition by the tryptophan analogue 5MT. These advantages recommend the revised medium for amino acid feeding, mutant isolation and similar studies.     

Polyribonucleotide-anthraquinone interactions: in vitro antiviral activity studies.

Twelve anthraquinones (AQ) were evaluated for their ability to potentiate the antiviral activity of poly r(A-U) using a human foreskin fibroblast-vesicular stomatitis virus bioassay in which the AQ was combined with 0.2 mM poly r(A-U) to produce an AQ/ribonucleotide ratio of 1/4. Poly r(A-U) and the AQ alone were not effective antiviral agents. Five of the twelve AQs tested, mitoxantrone, adriamycin, ametantrone, carminic acid and daunomycin, enhanced the antiviral activity of poly r(A-U) 9- to 13-fold. The interferon-inducing activity of the five active AQ/poly r(A-U) combinations was equal to the sum of the interferon-inducing activities of their constituents. These five AQs appear to potentiate the antiviral activity of poly r(A-U) without superinduction of interferon.     

Co-production of caffeic acid and p-hydroxybenzoic acid from p-coumaric acid by Streptomyces caeruleus MTCC 6638

In a culture medium of Streptomyces caeruleus MTCC 6638 grown with p-coumaric acid (5 mM) as the sole source of carbon, co-production of caffeic acid and p-hydroxybenzoic acid was observed. Both caffeic acid and p-hydroxybenzoic acid are important phenolic compounds with pharmaceutical importance. These biotransformed products were identified by high-performance liquid chromatography and electrospray ionization mass spectrometry. Obtained data suggest that p-coumaric acid was possibly utilized by two different routes, resulting in the formation of a hydroxycinnamate and a hydroxybenzoate compound. However, higher concentration of p-coumaric acid (10 mM) favoured caffeic acid formation. Addition of 5 mM p-coumaric acid into S. caeruleus cultures pre-grown on minimal medium with 1.0 g/l glucose resulted in the production of 65 mg/l caffeic acid. Furthermore, S. caeruleus cells were able to produce the maximum amount of caffeic acid when pre-grown on nutrient broth for 16 h. Under this condition, the addition of 5 mM p-coumaric acid was sufficient for the S. caeruleus culture to produce 150 mg/l caffeic acid, with a molar yield of 16.6% after 96 h of incubation.     

Effects of Glyphosate on Caffeic Acid Metabolism in Perilla Cell Suspension Cultures

Perilla cell suspension cultures contained caffeic acid at 0.073%of the fresh weight. When 1 min glyphosate was administeredto the cell culture in the logarithmic and stationary phases,the amount of caffeic acid ceased to increase and remained ata nearly constant level during the following several days. Phenylalanineammonia-lyase (PAL) activity in the cell culture increased immediatelyafter transfer to a fresh medium, decreased rapidly in the midstof the logarithmic phase and became almost undetectable in thestationary phase. PAL activity was markedly inhibited by glyphosateat more than 0.2 mM. The shikimic acid content of cells from14-day culture grown in the presence of 1 mM glyphosate increasedup to 74.9 µg per g fresh weight during 6-day culture,whereas that of the control cells was undetectable. The dosageof 0.15 mM L-2-aminooxy-3-phenylpropionic acid (L-AOPP), aninhibitor of PAL, to the cells did not cause shikimic acid accumulation. (Received June 25, 1983; Accepted October 6, 1983)     

在无天然游离质粒产甘油假丝酵母中非整合表达合成咖啡酸

【背景】咖啡酸（3,4-二羟基肉桂酸）是一种有多种生物活性和药用价值的天然酚类化合物,产甘油假丝酵母（Candida glycerinogenes）具有咖啡酸前体代谢途径,高耐酸且生长与发酵速率快,是潜在高产咖啡酸的底盘细胞,但无游离载体将影响咖啡酸合成的深入研究。【目的】探索在无天然游离质粒的C. glycerinogenes中构建操作更简便、表达能力更强的游离载体合成咖啡酸的可行性。【方法】筛选自主复制序列（autonomously replicating sequence,ARS）,构建适用于C. glycerinogenes合成咖啡酸的游离载体,并通过改造其ARS位置、标记基因URA5启动子长度、基因表达元件和利用Kozak序列优化表达并合成咖啡酸。【结果】构建的5个分别含不同ARS的载体中,pTGAPU-CA-AOX1t-KLARS在C. glycerinogenes中能自我复制并表达合成咖啡酸的基因,而且当ARS位于目的基因表达元件上游、URA5启动子截短250 bp,或分别采用Kozak序列与终止子URA5t后,咖啡酸产量较改造前均有明显提升,最高产量为初始产量的3.73倍,达29.1 mg/L,高于前期整合表达产量。【结论】在C. glycerinogenes中非整合表达合成咖啡酸且优于整合表达,为今后利用游离载体改造咖啡酸合成代谢途径提供了新工具,同时为其他无游离质粒菌株构建非整合表达体系提供参考。