Your search keyword '"Podophyllotoxin biosynthesis"' showing total 56 results

1. Changes in MicroRNAs expression mediate molecular mechanism underlying the effect of MeJA on the biosynthesis of podophyllotoxin in Linum album cells.

Author

Sagharyan M, Sharifi M, Samari E, and Karimi F

Subjects

Salicylic Acid pharmacology, Salicylic Acid metabolism, Nitric Oxide metabolism, MicroRNAs genetics, MicroRNAs metabolism, Cyclopentanes pharmacology, Cyclopentanes metabolism, Oxylipins pharmacology, Acetates pharmacology, Hydrogen Peroxide metabolism, Podophyllotoxin biosynthesis, Podophyllotoxin pharmacology, Gene Expression Regulation, Plant drug effects, Flax genetics, Flax metabolism, Flax drug effects

Abstract

Podophyllotoxin (PTOX), produced by Linum album, is a monolignol that participates in plant defense strategies. Our previous study established that methyl jasmonate (MeJA) significantly stimulates PTOX production in L. album cells. However; the mechanisms by which MeJA regulates PTOX biosynthesis are uncovered. In the present study, we demonstrated that MeJA induces a time-dependent hydrogen peroxide (H 2 O 2 ) and salicylic acid (SA) accumulation but reduces nitric oxide (NO) generation in L. album cells. PTOX biosynthetic genes such as PAL, CCR, CAD, and PLR were upregulated in response to MeJA exposure. Furthermore, the results of RT-qPCR revealed a positive correlation between the expression of PTOX biosynthetic genes and MeJA-induced upregulation of four miRNAs such as miR156, miR159, miR172, and miR396 at 12 h. Generally, this study revealed that MeJA mediates PTOX biosynthesis in L. album cells by inducing H 2 O 2 and SA formation, which can probably upregulate the expression level of some miRNAs and biosynthetic genes in a redox balance-dependent manner., Competing Interests: Declarations. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

2. Genomic characterization and identification of candidate genes for putative podophyllotoxin biosynthesis pathway in Penicillium herquei HGN12.1C.

Author

Nguyen DH, Tran QH, Le LT, Nguyen HHT, Tran HT, Do TP, Ho AN, Tran QH, Thu HTN, Bui VN, Chu HH, and Pham NB

Subjects

Endophytes genetics, Endophytes metabolism, Sequence Analysis, DNA, Base Composition, Genomics, Podophyllotoxin biosynthesis, Podophyllotoxin analogs & derivatives, Penicillium genetics, Penicillium metabolism, Biosynthetic Pathways genetics, Phylogeny, Genome, Fungal

Abstract

Previous studies have reported the functional role, biochemical features and synthesis pathway of podophyllotoxin (PTOX) in plants. In this study, we employed combined morphological and molecular techniques to identify an endophytic fungus and extract PTOX derivatives. Based on the analysis of ITS sequences and the phylogenetic tree, the isolate was classified as Penicillium herquei HGN12.1C, with a sequence identity of 98.58%. Morphologically, the HGN12.1C strain exhibits white colonies, short-branched mycelia and densely packed hyphae. Using PacBio sequencing at an average read depth of 195×, we obtained a high-quality genome for the HGN12.1C strain, which is 34.9 Mb in size, containing eight chromosomes, one mitochondrial genome and a GC content of 46.5%. Genome analysis revealed 10 genes potentially involved in PTOX biosynthesis. These genes include VdtD, Pinoresinollariciresinol reductase (PLR), Secoisolariciresinol dehydrogenase (SDH), CYP719A23, CYP71BE54, O-methyltransferase 1 (OMT1), O-methyltransferase 3 (OMT3), 2-ODD, CYP71CU and CYP82D61. Notably, the VdtD gene in fungi shares functional similarities with the DIR gene found in plants. Additionally, we identified peltatin, a PTOX derivative, in the HGN12.1C extract. Docking analysis suggests a potential role for the 2-ODD enzyme in converting yatein to deoxypodophyllotoxin. These findings offer invaluable insights into the synthesis mechanism of PTOX in fungi, shedding light on the relationship between host plants and endophytes., (© 2024 The Author(s). Microbial Biotechnology published by John Wiley & Sons Ltd.)

Published

2024

3. Synthesis of (-)-deoxypodophyllotoxin and (-)-epipodophyllotoxin via a multi-enzyme cascade in E. coli.

Author

Decembrino D, Raffaele A, Knöfel R, Girhard M, and Urlacher VB

Subjects

Biocatalysis, Biotransformation, Drugs, Chinese Herbal, Escherichia coli genetics, Lignans metabolism, Escherichia coli enzymology, Escherichia coli metabolism, Podophyllotoxin analogs & derivatives, Podophyllotoxin biosynthesis

Abstract

Background: The aryltetralin lignan (-)-podophyllotoxin is a potent antiviral and anti-neoplastic compound that is mainly found in Podophyllum plant species. Over the years, the commercial demand for this compound rose notably because of the high clinical importance of its semi-synthetic chemotherapeutic derivatives etoposide and teniposide. To satisfy this demand, (-)-podophyllotoxin is conventionally isolated from the roots and rhizomes of Sinopodophyllum hexandrum, which can only grow in few regions and is now endangered by overexploitation and environmental damage. For these reasons, targeting the biosynthesis of (-)-podophyllotoxin precursors or analogues is fundamental for the development of novel, more sustainable supply routes., Results: We recently established a four-step multi-enzyme cascade to convert (+)-pinoresinol into (-)-matairesinol in E. coli. Herein, a five-step multi-enzyme biotransformation of (-)-matairesinol to (-)-deoxypodophyllotoxin was proven effective with 98 % yield at a concentration of 78 mg/L. Furthermore, the extension of this cascade to a sixth step leading to (-)-epipodophyllotoxin was evaluated. To this end, seven enzymes were combined in the reconstituted pathway involving inter alia three plant cytochrome P450 monooxygenases, with two of them being functionally expressed in E. coli for the first time., Conclusions: Both, (-)-deoxypodophyllotoxin and (-)-epipodophyllotoxin, are direct precursors to etoposide and teniposide. Thus, the reconstitution of biosynthetic reactions of Sinopodophyllum hexandrum as an effective multi-enzyme cascade in E. coli represents a solid step forward towards a more sustainable production of these essential pharmaceuticals., (© 2021. The Author(s).)

Published

2021

4. [Research progress in biosynthesis of podophyllotoxin and its derivatives].

Author

Meng Z, Yao T, Zhao W, Li H, and Tang YJ

Subjects

Genes, Plant, Podophyllotoxin biosynthesis, Podophyllum genetics

Abstract

Podophyllotoxin (PTOX) is an aryl-tetralin lignan of plant origin found in some species of Podophyllum such as Dysosma versipellis, Diphylleia sinensis, and Sinopodophyllum hexandrum. Etoposide and teniposide are produced semisynthetically from PTOX and used clinically to treat several forms of cancer. As a typical representative of new drug discovery from natural products, the production of PTOX solely depends on extraction from plants, resulting in severe contradiction between supply and demand. With the advantages of unconstrained resources and eco-friendly reaction conditions, biosynthesis method has become a trend in the production of PTOX and its derivatives. In this review, we summarize the research progress of PTOX biosynthesis in plants and expound the functions of the key enzymes as well as their subcellular location. The synthetic biology for production of PTOX intermediates in a tobacco chassis is also introduced. Finally, the heterologous expression and biotransformation of PTOX in microorganisms is summarized, which sets the foundation for the efficient microbial production of PTOX using cell factories.

Published

2021

5. Effect of UV-B radiation on growth, flavonoid and podophyllotoxin accumulation, and related gene expression in Sinopodophyllum hexandrum.

Author

Lv M, Su HY, Li ML, Yang DL, Yao RY, Li MF, and Wei JH

Subjects

Gene Expression, Gene Expression Regulation, Plant, Ultraviolet Rays, Flavonoids, Podophyllotoxin

Abstract

Sinopodophyllum hexandrum is an alpine medicinal plant that produces the anticancer compound podophyllotoxin (PPT). Although a positive relationship between PPT content and altitude has been proved and low temperature enhances plant growth and PPT accumulation has also been revealed, the role of UV radiation in regulating growth and PPT accumulation is still unclear In this study, morphophysiological traits, metabolites content and related genes expression were investigated by exposing S. hexandrum seedlings to treatment with UV-B radiation. The results showed that the contents of soluble sugars and flavonoids, and the expression levels of genes involved in glycometabolism (XET and β-1,3-glucanase) and flavonoid biosynthesis (PAL,C4H,4CL,CHS1 and DTX41) were enhanced in response to UV-B compared to CK. Moreover, genes involved in stress tolerance (MYB, WRKY,APX3 and EX2) were also upregulated in response to UV-B radiation. Although the whole plant biomass exhibited slightly increased values that depended largely on root development, the contents of chlorophyll and PPT and the expression levels of genes involved in photosynthesis (matK, ndhF,rbcL and ycf5) and PPT biosynthesis (C3H,CCoAMT,CCR,CAD, DPO, PLR,SDH, CPY719A23,OMT3,CYP71CU1,OMT1and 2-ODD) were significantly decreased in response to UV-B compared to CK. It can be concluded that UV-B radiation promotes soluble sugars and flavonoids accumulation, but inhibits PPT biosynthesis in S. hexandrum., (© 2020 German Society for Plant Sciences and The Royal Botanical Society of the Netherlands.)

Published

2021

6. Enhanced production of podophyllotoxin, kaempferol, and quercetin from callus culture of Dysosma pleiantha (Hance) Woodson: An endangered medicinal plant.

Author

Karuppaiya P and Tsay HS

Subjects

Berberidaceae metabolism, Drugs, Chinese Herbal chemistry, Kaempferols chemistry, Medicine, Chinese Traditional, Molecular Structure, Plants, Medicinal metabolism, Podophyllotoxin chemistry, Quercetin chemistry, Berberidaceae chemistry, Drugs, Chinese Herbal metabolism, Kaempferols biosynthesis, Plants, Medicinal chemistry, Podophyllotoxin biosynthesis, Quercetin biosynthesis

Abstract

Dysosma pleiantha (Hance) Woodson is one of the endangered traditional Chinese medicinal herbs, highly valued for its medicinal properties by Taiwan's mountain tribes. The present study aims to develop an efficient protocol for callus biomass by optimizing suitable culture medium, carbon source culture condition, and enhanced production of pharmaceutically important podophyllotoxin, kaempferol, and quercetin from callus culture of D. pleiantha under the influence of different additives. Best callus induction was achieved in Gamborg's medium (B5) with 1 mg/L 2,4-dichlorophenoxyacetic acid (2,4-D) along with 0.2 mg/L kinetin under dark condition. Tender leaves of D. pleiantha showed the maximum of 86% callus induction among the different explants tested. Highest leaf callus proliferation was noted in B5 medium with 1 mg/L 2,4-D incubated under complete darkness. In addition, it was found that B5 medium with 1 mg/L 2,4-D along with 2 g/L peptone produced more leaf callus biomass and enhanced production of podophyllotoxin (16.3-fold), kaempferol (12.39-fold), and quercetin (5.03-fold) compared to control. Therefore, D. pleiantha callogenesis can provide an alternative source for enhanced production of secondary compounds regardless of the exploitation of its natural plant population., (© 2019 International Union of Biochemistry and Molecular Biology, Inc.)

Published

2020

7. Asymmetric Chemoenzymatic Synthesis of (-)-Podophyllotoxin and Related Aryltetralin Lignans.

Author

Li J, Zhang X, and Renata H

Subjects

Humans, Molecular Structure, Tetrahydronaphthalenes chemistry, Antineoplastic Agents, Phytogenic biosynthesis, Biological Products metabolism, Dioxygenases metabolism, Lignans biosynthesis, Podophyllotoxin biosynthesis, Tetrahydronaphthalenes metabolism

Abstract

(-)-Podophyllotoxin is one of the most potent microtubule depolymerizing agents and has served as an important lead compound in antineoplastic drug discovery. Reported here is a short chemoenzymatic total synthesis of (-)-podophyllotoxin and related aryltetralin lignans. Vital to this approach is the use of an enzymatic oxidative C-C coupling reaction to construct the tetracyclic core of the natural product in a diastereoselective fashion. This strategy allows gram-scale access to (-)-deoxypodophyllotoxin and is readily adaptable to the preparation of related aryltetralin lignans., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

8. [Effects of exogenous IBA and fungal elicitor on growth of in vitro roots culture of Dysosma versipellis and production of podophyllotoxin].

Author

Tan XM, Yu LY, Tang HZ, Zhao LC, and Zhou YQ

Subjects

Endophytes, Plant Roots drug effects, Ascomycota, Berberidaceae chemistry, Plant Roots growth & development, Podophyllotoxin biosynthesis, Tissue Culture Techniques

Abstract

Using the White as basic medium, the effects of the exogenous IBA and endophytic fungal elicitor on the growth of in vitro roots cultures of Dysosma versipellis and production of podophyllotoxin were investigated in this study. The results showed that the IBA and the endophytic fungus Zasmidium syzygii elicitor could increase the content of podophyllotoxin of in vitro roots of D. versipellis after 3 weeks. The White medium added with 3 mg·L~(-1) IBA induced the highest increase of podophyllotoxin(1 830.86 μg·g~(-1)), which was 2.07 folds greater than the control, and followed by 1.5 mg·L~(-1) IBA, fungal elicitor, 1 mg·L~(-1) IBA, 0.5 mg·L~(-1) IBA and 4.5 mg·L~(-1) IBA, which was 1.82, 1.71, 1.63, 1.43 and 1.1 folds greater than the control, respectively. The results also showed that the growth of roots was certain positively correlated with the change of IBA concentration. Therefore, 3 mg·L~(-1) IBA was the most suitable for the production of podophyllotoxin in the in vitro roots of D. versipellis, and the stimulating effect of Z. syzygii fungal elicitor was between 1.5 mg·L~(-1) and 1 mg·L~(-1) IBA, which was a potential natural elicitor to induce the accumulation of podophyllotoxin in future production.

Published

2019

9. Reaction Mechanism of a Nonheme Iron Enzyme Catalyzed Oxidative Cyclization via C-C Bond Formation.

Author

Chang WC, Yang ZJ, Tu YH, and Chien TC

Subjects

Biocatalysis, Cyclization, Molecular Conformation, Oxidation-Reduction, Podophyllotoxin chemistry, Stereoisomerism, Nonheme Iron Proteins metabolism, Podophyllotoxin biosynthesis

Abstract

A complementary study including design of mechanistic probes, biochemical assays, model analysis, and liquid chromatography coupled mass spectrometry was conducted to establish the reaction mechanism for a nonheme iron enzyme catalyzed (-)-podophyllotoxin formation. Our results indicate that the originally proposed hydroxylated intermediate is unlikely to be involved in this reaction. Instead, the formation of benzylic radical/carbocation intermediate can be utilized to trigger the C-C bond formation to construct the C-ring of (-)-podophyllotoxin.

Published

2019

10. Biotechnological Approaches for Production of Anti-Cancerous Compounds Resveratrol, Podophyllotoxin and Zerumbone.

Author

Nandagopal K, Halder M, Dash B, Nayak S, and Jha S

Subjects

Animals, Bacteria genetics, Cells, Cultured, Humans, Metabolic Engineering methods, Plants genetics, Antineoplastic Agents chemical synthesis, Biotechnology methods, Podophyllotoxin biosynthesis, Resveratrol chemical synthesis, Sesquiterpenes chemical synthesis

Abstract

Secondary metabolites from numerous plant sources have been developed as anti- cancer reagents and compounds such as resveratrol, podophyllotoxin and zerumbone are of particular importance in this regard. Since their de novo chemical synthesis is both arduous and commercially expensive, there has been an impetus to develop viable, biotechnological methods of production. Accordingly, this review focuses on the recent developments in the field, highlighting the use of micropropagation, cell suspension cultures, callus cultures, hairy root cultures, recombinant microbes and genetically modified higher plants. Optimization of media and culture conditions, precursor feeding, immobilization and the use of chemical or physical elicitation in various protocols has led to an increase in resveratrol and podophyllotoxin production. Heterologous gene transformation of higher plants with stilbene synthase derived from Arachis hypogaea or Vitis vinifera lead to resveratrol production with the concomitant increase in resistance to plant pathogens. Interestingly, genetic transformation of Podophyllum hexandrum and Linum flavum with Agrobacterium rhizogenes resulted in Ri-T-DNA gene(s)-mediated enhancement of podophyllotoxin production. Zerumbone yields from tissue cultured plantlets or from suspension cultures are generally low and these methods require further optimization. In microbes lacking the native resveratrol or zerumbone biosynthesis pathway, metabolic engineering required not only the introduction of several genes of the pathway, but also precursor feeding and optimization of gene expression to increase their production. Data pertaining to safety and toxicity testing are needed prior to use of these sources of anti-cancer compounds in therapy., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published

2018

11. Production of Podophyllotoxin by Plant Tissue Cultures of Juniperus virginiana.

Author

Kašparová M, Jand Martina, Tůmová L, and Spilková J

Subjects

Cell Culture Techniques, Juniperus growth & development, Phenylalanine pharmacology, Podophyllotoxin chemistry, Juniperus metabolism, Podophyllotoxin biosynthesis

Abstract

Plant tissue cultures are a potential source of secondary metabolites. However, their production, when compared with intact plants, is usually lower. Phenylalanine, a biogenetic precursor of podophyllotoxin, was used to stimulate podophyllotoxin production in callus and suspension cultures of Juniperus virginiana L. The best phenylalanine effect on podophyllotoxin production was manifested in three-years-old callus cultures after a 21-days application of a 10 mmol/L concentration. A podophyllotoxin content of 0.15 mg/g DW was determined, which was about 400% higher in comparison with the control. The maximum content (0.48 mg/g DW) in newly derived suspension cultures (the 4' passage) was induced by 14-days application of a I mmol/L concentration; this was about 243% higher than the control. In one-year-old suspension cultures the highest podophyllotoxin content (0.56 mg/g DW) was recorded also after 14-days application of a I mmol/L concentration; this was about 211% higher than in the control cultures.

Published

2017

12. Comparative whole-transcriptome analysis in Podophyllum species identifies key transcription factors contributing to biosynthesis of podophyllotoxin in P. hexandrum.

Author

Kumar P, Jaiswal V, Pal T, Singh J, and Chauhan RS

Subjects

Computer Simulation, Gene Expression Regulation, Plant, Genes, Plant, Plant Shoots genetics, Promoter Regions, Genetic genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Real-Time Polymerase Chain Reaction, Reproducibility of Results, Rhizome genetics, Secondary Metabolism genetics, Species Specificity, Transcription Factors metabolism, Transcriptome genetics, Gene Expression Profiling, Podophyllotoxin biosynthesis, Podophyllum genetics, Transcription Factors genetics

Abstract

Podophyllum species (Podophyllum hexandrum Royle and Podophyllum peltatum) are a major source of deriving anticancer drugs from their major chemical constituent, podophyllotoxin. However, information lacks on regulatory components of podophyllotoxin biosynthesis; therefore, different classes of transcription factors were identified through mining transcriptomes of Podophyllum species and validated through qRT-PCR analysis vis-à-vis podophyllotoxin contents in different tissues/organs of Podophyllum hexandrum. A total of 82, 278, 70, and 90 transcripts were identified in shoots and 89, 273, 72, and 91 transcripts in rhizomes of P. hexandrum transcriptome; 70, 268, 48, and 92 transcripts were in shoots and 58, 245, 41, and 85 transcripts in rhizomes of P. peltatum transcriptome corresponding to bZIP, MYB, WRKY, and bHLH families of transcription factors, which have been shown in regulating biosynthesis of secondary metabolites. Two unique transcripts encoding bHLH and MYB/SANT TFs in shoots of P. peltatum (medp_podpe_41091 and medp_podpe_2547) and bZIP and MYB TFs in rhizomes of P. hexandrum (medp_podhe_163581 and medp_podhe_147614) correlated with podophyllotoxin content. Quantification of podophyllotoxin and comparative expression analysis between high (2.51 %) versus low (0.59) podophyllotoxin content accessions revealed 0.04 to ~16-folds increase in transcripts of transcription factors, thereby further supporting the association of identified transcription factors with podophyllotoxin content. bZIP TF showed the highest transcript abundance (19.60-folds) in P. hexandrum rhizomes (2.51 % podophyllotoxin) compared to shoots (0.01 %). In silico analysis of putative promoter regions of pathway genes in other plant species revealed the presence of sequence elements for MYB and WRKY transcription factors, thereby suggesting their role in controlling the production of podophyllotoxin. A repertoire of additional transcription factors has been provided, which can be functionally validated and used in designing a suitable genetic intervention strategy towards enhanced production of podophyllotoxin.

Published

2017

13. Chilling temperature stimulates growth, gene over-expression and podophyllotoxin biosynthesis in Podophyllum hexandrum Royle.

Author

Yang L, Sun P, and Li MF

Subjects

Biosynthetic Pathways genetics, Chlorophyll metabolism, Chlorophyll A, Genes, Plant, Photosynthesis genetics, Podophyllotoxin chemistry, Rhizome metabolism, Seedlings genetics, Seedlings growth & development, Stress, Physiological genetics, Cold Temperature, Gene Expression Regulation, Plant, Podophyllotoxin biosynthesis, Podophyllum genetics, Podophyllum growth & development

Abstract

Podophyllotoxin (PPT) and its derivatives, isolated from the rhizome of Podophyllum hexandrum Royle (P. hexandrum), are typically used in clinical settings for anti-cancer and anti-virus treatments. Empirical studies have verified that P. hexandrum had stronger tolerance to chilling, due to involving PPT accumulation in rhizome induced by cold stress. However, the cold-adaptive mechanism and its association with PPT accumulation at a molecular level in P. hexandrum are still limited. In this study, the morpho-physiological traits related to plant growth, PPT accumulation and key gene expressions controlling PPT biosynthesis were assessed by exposing P. hexandrum seedlings to different temperatures (4 °C and 10 °C as chilling stress and 22 °C as the control). The results showed that chilling significantly increased chlorophyll content, net photosynthetic rate, stomatal conductance, and plant biomass, whereas it greatly decreased transpiration rates and intercellular CO2 concentration. Compared to the control, the chilling treatments under 4 °C and 10 °C conditions induced a 5.00- and 3.33-fold increase in PPT contents, respectively. The mRNA expressions of six key genes were also up-regulated by chilling stresses. The findings are useful in understanding the molecular basis of P. hexandrum response to chilling., (Copyright © 2016. Published by Elsevier Masson SAS.)

Published

2016

14. Transcriptome-wide identification and characterization of CAD isoforms specific for podophyllotoxin biosynthesis from Podophyllum hexandrum.

Author

Bhattacharyya D, Hazra S, Banerjee A, Datta R, Kumar D, Chakrabarti S, and Chattopadhyay S

Subjects

Acetates pharmacology, Alcohol Oxidoreductases genetics, Cyclopentanes pharmacology, Gene Expression Regulation, Plant drug effects, Gene Expression Regulation, Plant genetics, Oxylipins pharmacology, Podophyllum drug effects, Protein Isoforms genetics, Transcriptome drug effects, Transcriptome genetics, Up-Regulation drug effects, Up-Regulation genetics, Alcohol Oxidoreductases metabolism, Podophyllotoxin biosynthesis, Podophyllum enzymology, Podophyllum metabolism, Protein Isoforms metabolism

Abstract

Podophyllotoxin (ptox) is a therapeutically important lignan derived from Podophyllum hexandrum and is used as a precursor for the synthesis of anticancer drugs etoposide, teniposide and etopophose. In spite of its enormous economic significance, genomic information on this endangered medicinal herb is scarce. We have performed de novo transcriptome analysis of methyl jasmonate (MeJA)-treated P. hexandrum cell cultures exhibiting enhanced ptox accumulation. The results revealed the maximum up-regulation of several isoforms of cinnamyl alcohol dehydrogenase (CAD). CAD catalyzes the synthesis of coniferyl alcohol and sinapyl alcohol from coniferaldehyde (CAld) and sinapaldehyde respectively. Coniferyl alcohol can produce both lignin and lignan while sinapyl alcohol produces only lignin. To isolate the CAD isoforms favoring ptox, we deduced full length cDNA sequences of four CAD isoforms: PhCAD1, PhCAD2, PhCAD3 and PhCAD4 from the contigs of the transcriptome data. In vitro enzyme assays indicated a higher affinity for CAld over sinapaldehyde for each isoform. In silico molecular docking analyses also suggested that PhCAD3 has a higher binding preference with CAld over sinapaldehyde, followed by PhCAD4, PhCAD2, and PhCAD1, respectively. The transgenic cell cultures overexpressing these isoforms independently revealed that PhCAD3 favored the maximum accumulation of ptox as compared to lignin followed by PhCAD4 and PhCAD2, whereas, PhCAD1 favored both equally. Together, our study reveals transcriptome-wide identification and characterization of ptox specific CAD isoforms from P. hexandrum. It provides a useful resource for future research not only on the ptox biosynthetic pathway but on overall P. hexandrum, an endangered medicinal herb with immense therapeutic importance.

Published

2016

15. Investigation and Expression of the Secoisolariciresinol Dehydrogenase Gene Involved in Podophyllotoxin Biosynthesis.

Author

Arneaud SL and Porter JR

Subjects

Amino Acid Sequence, Ascomycota genetics, Ascomycota isolation & purification, Base Sequence, Biosynthetic Pathways, Cloning, Molecular, Culture Media, DNA, Fungal genetics, Fungal Proteins genetics, Molecular Sequence Data, NAD (+) and NADP (+) Dependent Alcohol Oxidoreductases genetics, Podophyllum peltatum microbiology, Protein Conformation, Sequence Analysis, DNA, Ascomycota enzymology, Fungal Proteins metabolism, NAD (+) and NADP (+) Dependent Alcohol Oxidoreductases metabolism, Podophyllotoxin biosynthesis

Abstract

Podophyllotoxin (PPT) is a plant natural product that serves as a precursor for the synthesis of many well-known chemotherapeutic drugs. The limited availability and high demand for the source plants of PPT have led to the exploration of alternative sources for this compound. In this study, we utilized the endophytic fungus Phialocephala podophylli (strain PPE7) that we isolated from the rhizomes of Podophyllum peltatum and is known to produce detectable amounts of PPT in broth culture. To date, the complete PPT biosynthetic pathway has yet to be determined in any species. Since fungi are well known for clustering genes that belong to secondary metabolite pathways, use of a fungal system for investigation of the PPT biosynthesis genes may ultimately lead to elucidation of the entire pathway. In this study, we investigated the secoisolariciresinol dehydrogenase (SD) gene that facilitates the dehydrogenation of secoisolariciresinol to form matairesinol, a mid-pathway intermediate product in PPT biosynthesis. We utilized PCR amplification to acquire the complete SD gene sequence in PPE7 and opted to synthesize the P. peltatum SD sequence for expression. Through western blotting, we confirmed the expression of the recombinant SD (PpSD) and verified protein functionality with a bioconversion assay followed by HPLC and LC-MS analyses. Here, we report the identification of the SD gene in PPE7; this is the first report of the SD gene in an endophytic fungus. Additionally, we established the groundwork for the future expression of the complete PPT biosynthetic pathway in the heterologous host Pichia pastoris.

Published

2015

16. Six enzymes from mayapple that complete the biosynthetic pathway to the etoposide aglycone.

Author

Lau W and Sattely ES

Subjects

Amino Acid Sequence, Biosynthetic Pathways genetics, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Plant, Methylation, Mixed Function Oxygenases genetics, Molecular Sequence Data, Podophyllotoxin biosynthesis, Podophyllum peltatum genetics, Nicotiana genetics, Transcriptome, Etoposide metabolism, Genetic Engineering, Mixed Function Oxygenases metabolism, Podophyllotoxin analogs & derivatives, Podophyllotoxin metabolism, Podophyllum peltatum enzymology, Nicotiana metabolism, Topoisomerase Inhibitors metabolism

Abstract

Podophyllotoxin is the natural product precursor of the chemotherapeutic etoposide, yet only part of its biosynthetic pathway is known. We used transcriptome mining in Podophyllum hexandrum (mayapple) to identify biosynthetic genes in the podophyllotoxin pathway. We selected 29 candidate genes to combinatorially express in Nicotiana benthamiana (tobacco) and identified six pathway enzymes, including an oxoglutarate-dependent dioxygenase that closes the core cyclohexane ring of the aryltetralin scaffold. By coexpressing 10 genes in tobacco-these 6 plus 4 previously discovered-we reconstitute the pathway to (-)-4'-desmethylepipodophyllotoxin (the etoposide aglycone), a naturally occurring lignan that is the immediate precursor of etoposide and, unlike podophyllotoxin, a potent topoisomerase inhibitor. Our results enable production of the etoposide aglycone in tobacco and circumvent the need for cultivation of mayapple and semisynthetic epimerization and demethylation of podophyllotoxin., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

17. Methyl Jasmonate Induces Enhanced Podophyllotoxin Production in Cell Cultures of Thracian Flax (Linum thracicum ssp. thracicum).

Author

Sasheva P, Ionkova I, and Stoilova N

Subjects

Cell Line, Flax drug effects, Salts administration & dosage, Sucrose administration & dosage, Acetates metabolism, Culture Media, Cyclopentanes metabolism, Flax metabolism, Oxylipins metabolism, Podophyllotoxin biosynthesis

Abstract

The Linum thracicum ssp. thracicum cell lines developed in this study are a feasible source for the sustainable production of podophyllotoxin, a lignan with an aryltetralin skeleton that is used for the manufacture of the chemotherapeutic drugs etopophos and teniposide. We used mass spectrometry to confirm the presence of the aryltetralin lignan in the thracian flax cell cultures. Next, we explored how changes in the culture medium influenced the podophyllotoxin content. Out of six developed cell lines, four were selected for further experiments and challenged with elicitors. The selected cell lines clustered into two groups: developed in full strength medium (Li) vs developed in half strength medium (HS). While podophyllotoxin production in the Li cell lines was boosted by 80% upon administration of the elicitor methyl jasmonate, the HS lines produced high amounts of the target metabolite triggered by reduced concentration of nutrients and were only slightly influenced by the elicitor.

Published

2015

18. An efficient in vitro system for somatic embryogenesis and podophyllotoxin production in Podophyllum hexandrum Royle.

Author

Rajesh M, Sivanandhan G, Jeyaraj M, Chackravarthy R, Manickavasagam M, Selvaraj N, and Ganapathi A

Subjects

2,4-Dichlorophenoxyacetic Acid pharmacology, Endangered Species, Plant Shoots, Regeneration, Seeds growth & development, Plant Somatic Embryogenesis Techniques, Podophyllotoxin biosynthesis, Podophyllum embryology, Podophyllum metabolism

Abstract

Podophyllum hexandrum Royle known as Indian mayapple is an important medicinal plant found only in higher altitudes (2,700 to 4,200 m) of the Himalayas. The highly valued anticancer drug Podophyllotoxin is obtained from the roots of this plant. Due to over exploitation, this endemic plant species is on the verge of extinction. In vitro culture for efficient regeneration and the production of podophyllotoxin is an important research priority for this plant. Hence, in the present study, an efficient plant regeneration system for mass multiplication through somatic embryogenesis was developed. We have screened P. hexandrum seeds collected from three different regions in the Himalayas to find their regenerative potentials. These variants showed variation in germination percentage as well as somatic embryogenic frequency. The seeds collected from the Milam area of Pithoragarh district showed better germination response (99.3%) on Murashige and Skoog (MS) medium fortified with Gibberellic acid (GA3 [5 mg/l]) and higher direct somatic embryogenic frequency (89.6%). Maximum production of embryogenic callus (1.2 g fresh weight [FW]) was obtained when cotyledons containing the direct somatic embryo clusters were cultured in MS medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D [1.5 mg/l]) after 4 week of culture in complete darkness. In the present investigation, somatic embryogenesis was accomplished either by direct organogenesis or callus mediated pathways. The latter method resulted in a higher frequency of somatic embryo induction in hormone-free MS medium yielding 47.7 embryos/50 mg of embryogenic callus and subsequent germination in MS medium supplemented with GA3 (5 mg/l). Seventy-nine percent of embryos attained complete maturity and germinated into normal plants with well-developed roots. Systematic histological analysis revealed the origin of somatic embryo and their ontogenesis. The higher level of podophyllotoxin (1.8 mg/g dry weight [DW]) was recorded in germinated somatic embryos when compared to field grown plants. The present system can be widely used for mass propagation, transgenic recovery, and podophyllotoxin production for commercial utilization.

Published

2014

19. Next generation sequencing in predicting gene function in podophyllotoxin biosynthesis.

Author

Marques JV, Kim KW, Lee C, Costa MA, May GD, Crow JA, Davin LB, and Lewis NG

Subjects

Amino Acid Sequence, Catalysis, Computational Biology methods, Cytochrome P-450 Enzyme System metabolism, Databases, Factual, Gene Expression Regulation, Plant, Lignans chemistry, Microsomes metabolism, Models, Biological, Models, Chemical, Molecular Sequence Data, Plant Extracts chemistry, Sequence Homology, Amino Acid, Transcriptome, Plants, Medicinal metabolism, Podophyllotoxin biosynthesis, Podophyllum metabolism, Sequence Analysis, DNA methods

Abstract

Podophyllum species are sources of (-)-podophyllotoxin, an aryltetralin lignan used for semi-synthesis of various powerful and extensively employed cancer-treating drugs. Its biosynthetic pathway, however, remains largely unknown, with the last unequivocally demonstrated intermediate being (-)-matairesinol. Herein, massively parallel sequencing of Podophyllum hexandrum and Podophyllum peltatum transcriptomes and subsequent bioinformatics analyses of the corresponding assemblies were carried out. Validation of the assembly process was first achieved through confirmation of assembled sequences with those of various genes previously established as involved in podophyllotoxin biosynthesis as well as other candidate biosynthetic pathway genes. This contribution describes characterization of two of the latter, namely the cytochrome P450s, CYP719A23 from P. hexandrum and CYP719A24 from P. peltatum. Both enzymes were capable of converting (-)-matairesinol into (-)-pluviatolide by catalyzing methylenedioxy bridge formation and did not act on other possible substrates tested. Interestingly, the enzymes described herein were highly similar to methylenedioxy bridge-forming enzymes from alkaloid biosynthesis, whereas candidates more similar to lignan biosynthetic enzymes were catalytically inactive with the substrates employed. This overall strategy has thus enabled facile further identification of enzymes putatively involved in (-)-podophyllotoxin biosynthesis and underscores the deductive power of next generation sequencing and bioinformatics to probe and deduce medicinal plant biosynthetic pathways.

Published

2013

20. The effect of light on gene expression and podophyllotoxin biosynthesis in Linum album cell culture.

Author

Yousefzadi M, Sharifi M, Behmanesh M, Ghasempour A, Moyano E, and Palazon J

Subjects

Aldehyde Oxidoreductases genetics, Aldehyde Oxidoreductases metabolism, Color, Flax genetics, Oxidoreductases genetics, Phenylalanine Ammonia-Lyase genetics, Plant Cells, Plant Proteins genetics, Plant Proteins metabolism, Flax metabolism, Gene Expression, Genes, Plant, Light, Oxidoreductases metabolism, Phenylalanine Ammonia-Lyase metabolism, Podophyllotoxin biosynthesis

Abstract

Podophyllotoxin (PTOX) is a naturally occurring phenolic compound isolated as an active anti-tumor agent. The stimulatory influence of light on the formation of phenolic compounds has been reported, but the molecular mechanism underlying the effect of light on the expression of genes involved in phenolic biosynthesis, especially of lignans, is still not fully understood. A series of experiments was carried out using ordinary fluorescent lamps to study the influence of light irradiation on growth and PTOX accumulation in Linum album cell cultures by varying the type of light and periods of exposure. The biosynthesis of PTOX was variably affected according to the quality of light. The enhancing effects of red light on PTOX production was correlated with increased activities of the enzyme phenylalanine ammonia-lyase (PAL), and the expression of some key genes involved in the biosynthesis of this compound, including the PAL gene itself and the cinnamoyl-CoA reductase (CCR) gene. Blue light was found to have similar effects but mainly on the expression level of CCR and pinoresinol lariciresinol reductase (PLR) genes., (Copyright © 2012 Elsevier Masson SAS. All rights reserved.)

Published

2012

21. Factors affecting podophyllotoxin yield in the ex situ grown Podophyllum hexandrum, an endangered alpine native of the western Himalayas.

Author

Kushwaha R, Bhattacharya A, Singh B, and Singh RD

Subjects

Biomass, Carbohydrates biosynthesis, Carbon metabolism, Endangered Species, Nitrogen metabolism, Plant Components, Aerial metabolism, Plant Roots metabolism, Podophyllotoxin isolation & purification, Seasons, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

This study reports an appreciable yield of podophyllotoxin (PDT) in P. hexandrum plants grown ex situ under polyhouse conditions of a temperate locale. The PDT content of below-ground parts was affected by both plant age and growth period. However, only the effect of plant age on PDT content was significant. Thus, the highest amounts of PDT were recorded in the below-ground parts of 2-year-old plants harvested during the late-growth period (LGP). High total soluble sugars in the below-ground parts during the early growth period (EGP) and the highest nitrate and nitrate reductase in the leaves of 2-year-old plants during the peak-growth period (PGP) indicated higher mobilization and assimilation of starch and nitrate. Probably the surplus carbon and nitrogen gained during the PGP were diverted from aerial parts to below-ground parts during the LGP and in turn contributed to the synthesis of higher amounts of PDT. This study shows that commercial cultivation of P. hexandrum is possible under ex situ temperate conditions.

Published

2012

22. Identification of lignans and related compounds in Anthriscus sylvestris by LC-ESI-MS/MS and LC-SPE-NMR.

Author

Hendrawati O, Woerdenbag HJ, Michiels PJ, Aantjes HG, van Dam A, and Kayser O

Subjects

Chromatography, High Pressure Liquid, Drugs, Chinese Herbal, Magnetic Resonance Spectroscopy, Plant Roots chemistry, Podophyllotoxin analysis, Podophyllotoxin biosynthesis, Spectrometry, Mass, Electrospray Ionization, Apiaceae chemistry, Plant Extracts chemistry, Podophyllotoxin analogs & derivatives

Abstract

The aryltetralin lignan deoxypodophyllotoxin is much more widespread in the plant kingdom than podophyllotoxin. The latter serves as a starting compound for the production of cytostatic drugs like etoposide. A better insight into the occurrence of deoxypodophyllotoxin combined with detailed knowledge of its biosynthestic pathway(s) may help to develop alternative sources for podophyllotoxin. Using HPLC combined with electrospray tandem mass spectrometry and NMR spectroscopy techniques, we found nine lignans and five related structures in roots of Anthriscus sylvestris (L.) Hoffm. (Apiaceae), a common wild plant in temperate regions of the world. Podophyllotoxone, deoxypodophyllotoxin, yatein, anhydropodorhizol, 1-(3'-methoxy-4',5'-methylenedioxyphenyl)1-ξ-methoxy-2-propene, and 2-butenoic acid, 2-methyl-4-[[(2Z)-2-methyl-1-oxo-2-buten-1-yl]oxy]-, (2E)-3-(7-methoxy-1,3-benzodioxol-5-yl)-2-propen-1-yl ester, (2Z)- were the major compounds. α-Peltatin, podophyllotoxin, β-peltatin, isopicropodophyllone, β-peltatin-a-methylether, (Z)-2-angeloyloxymethyl-2-butenoic acid, anthriscinol methylether, and anthriscrusin were present in lower concentrations. α-Peltatin, β-peltatin, isopicropodophyllone, podophyllotoxone, and β-peltatin-a-methylether have not been previously reported to be present in A. sylvestris. Based on our findings we propose a hypothetical biosynthetic pathway of aryltetralin lignans in A. sylvestris., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

23. Recent advances in semisynthesis, biosynthesis, biological activities, mode of action, and structure-activity relationship of podophyllotoxins: an update (2008-2010).

Author

Lv M and Xu H

Subjects

Cell Survival drug effects, Drug Screening Assays, Antitumor, Etoposide analogs & derivatives, Etoposide chemistry, Etoposide pharmacology, Humans, Organophosphorus Compounds chemistry, Organophosphorus Compounds pharmacology, Podophyllotoxin biosynthesis, Podophyllotoxin chemistry, Podophyllotoxin pharmacology, Structure-Activity Relationship, Teniposide chemistry, Teniposide pharmacology, Antineoplastic Agents, Phytogenic biosynthesis, Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic pharmacology, Podophyllotoxin analogs & derivatives

Abstract

Podophyllotoxin, one of the well-known naturally occurring aryltetralin lignans, has been used as the lead-compound for the preparation of potent anticancer agents, such as etoposide, teniposide, and etopophos. In our previous review, we described the advances of podophyllotoxin derivatives from 2003 and 2007. In recent years, an increased number of interesting research work has been carried out on the podophyllotoxins. As a continuation, the present review summarizes and highlights the update advances of podophyllotoxin derivatives from 2008 and 2010 in regard to semisynthesis, biosynthesis, biological activities, mode of action and structure-biological activity relationship.

Published

2011

24. [Review on biosynthesis of podophyllotoxin].

Author

Lu W, Fu C, and Zhao Y

Subjects

Plants, Medicinal metabolism, Podophyllotoxin chemistry, Podophyllotoxin metabolism, Podophyllotoxin biosynthesis

Abstract

Podophyllotoxin (PTOX) is an extremely important plant-derived natural product, of which derivatives, like etoposide and teniposide, have been widely applied in therapies for cancers and venereal wart. A durable, intense plant extraction of podophyllotoxin posed a severe pressure on wild resources; researchers consequently sought to explore new sources, like cultivation, plant cell or organ culture, and chemical synthesis. Understanding biosynthesis of PTOX is one of the basic necessary steps for standard cultivation of medicinal plants and metabolite engineering. An important progress has been made in this field during the last two decades, particularly in the last ten years. Although a number of reviews concerning the related topic have existed, we specifically deal with biosynthesis of podophyllotoxin with an emphasis on the literatures of the past decade, highlighting characterization of genes encoding synthetic enzymes and down-stream metabolism of PTOX. The present review focuses on several key biosynthesis processes, important metabolites, function of related enzymes, and characterization of cDNA encoding the enzymes. Finally, the author proposed a hypothetical biosynthetic scheme of podophyllotoxin and perspectives.

Published

2011

25. Salicylic acid improves podophyllotoxin production in cell cultures of Linum album by increasing the expression of genes related with its biosynthesis.

Author

Yousefzadi M, Sharifi M, Behmanesh M, Ghasempour A, Moyano E, and Palazon J

Subjects

Alcohol Oxidoreductases biosynthesis, Aldehyde Oxidoreductases biosynthesis, Cell Culture Techniques, Gene Expression Profiling, Oxidoreductases biosynthesis, Phenylalanine Ammonia-Lyase biosynthesis, Biosynthetic Pathways, Flax drug effects, Flax metabolism, Gene Expression drug effects, Plant Proteins biosynthesis, Podophyllotoxin biosynthesis, Salicylic Acid metabolism

Abstract

Treatment of Linum album cell cultures with 10 μM salicylic acid (SA) for 3 days improved podophyllotoxin (PTOX) production up to 333 μg/g dry weight (DW): over three times that of the control cultures. qPCR analyses showed that in SA-treated cells, the expression of the genes coding for phenylalanine ammonia-lyase (PAL), cinnamoyl-CoA reductase (CCR) and cinnamyl-alcohol dehydrogenase (CAD), all involved in the first steps of PTOX biosynthesis, also increased reaching a peak 8-12 h after the treatment. Expression of the pinoresinol-lariciresinol reductase gene (PLR), which is involved in one of the last biosynthetic steps, was not affected by SA. The selective action of SA on these genes can be applied to control the biotechnological production of this anticancer agent.

Published

2010

26. Novel biotransformation process of podophyllotoxin to produce podophyllic acid and picropodophyllotoxin by Pseudomonas aeruginosa CCTCC AB93066. Part I: process development.

Author

Tang YJ, Li Y, and Zhong JJ

Subjects

Biotransformation, Podophyllotoxin biosynthesis, Species Specificity, Podophyllotoxin analogs & derivatives, Podophyllotoxin metabolism, Pseudomonas aeruginosa classification, Pseudomonas aeruginosa metabolism

Abstract

A novel biotransformation process of podophyllotoxin (1) to produce picropodophyllotoxin (2) and podophyllic acid (3) was developed in this work. Eight bacteria which could modify the structure of podophyllotoxin were screened out from the tested fourteen bacteria. The highest conversion of podophyllotoxin (i.e., 70.2 +/- 8.0%) was obtained when Pseudomonas aeruginosa CCTCC AB93066 was used as biocatalyst, so P. aeruginosa was selected as a typical biocatalyst in the following study. Product (2) and (3) were separated through D312 macroporous resin and sephadex LH-20 gel column chromatograph. On the basis of (1)H NMR, (13)C NMR, ESI-MS and Elemental Analysis, product (2) and (3) were identified as picropodophyllotoxin (2) and podophyllic acid (3), respectively. This suggested the site-specific isomerization and hydrolization of podophyllotoxin occurred during its biotransformation process by P. aeruginosa. For the first time, podophyllotoxin was biotransformed into its hydrolytic derivate (i.e., podophyllic acid).

Published

2009

27. Novel biotransformation process of podophyllotoxin to produce podophyllic acid and picropodophyllotoxin by Pseudomonas aeruginosa CCTCC AB93066, part II: process optimization.

Author

Li Y, Li YY, Mi ZY, Li DS, and Tang YJ

Subjects

Analysis of Variance, Biotransformation drug effects, Kinetics, Nitrogen pharmacology, Peptones pharmacology, Podophyllotoxin biosynthesis, Podophyllotoxin pharmacology, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa growth & development, Regression Analysis, Sodium Chloride pharmacology, Sucrose pharmacology, Surface Properties drug effects, Podophyllotoxin analogs & derivatives, Podophyllotoxin metabolism, Pseudomonas aeruginosa metabolism

Abstract

This work optimized the novel biotransformation process of podophyllotoxin to produce podophyllic acid by Pseudomonas aeruginosa CCTCC AB93066. Firstly, the biotransformation process was significantly affected by medium composition. 5 g/l of yeast extract and 5 g/l of peptone were favorable for podophyllic acid production (i.e. 25.3+/-3.7 mg/l), while not beneficial for the cell growth of P. aeruginosa. This indicated that the accumulation of podophyllic acid was not corresponded well to the cell growth of P. aeruginosa. 0 g/l of sucrose was beneficial for podophyllic acid production (i.e. 34.3+/-3.9 mg/l), which led to high podophyllotoxin conversion (i.e. 98.2+/-0.1%). 1g/l of NaCl was the best for podophyllic acid production (i.e. 47.6+/-4.0mg/l). Secondly, the production of podophyllic acid was significantly enhanced by fed-batch biotransformation. When each 100mg/l of podophyllotoxin was added to the biotransformation system after 4, 10 and 25 h of culture, respectively, podophyllic acid concentration reached 99.9+/-12.3mg/l, enhanced by 284% comparing to one-time addition (i.e. 26.0+/-2.1mg/l). The fundamental information obtained in this study provides a simple and efficient way to produce podophyllic acid.

Published

2009

28. The role of biotechnology in the production of the anticancer compound podophyllotoxin.

Author

Lata H, Mizuno CS, and Moraes RM

Subjects

Antineoplastic Agents, Phytogenic biosynthesis, Biotechnology, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

Podophyllotoxin is a plant-derived compound found in Podophyllum sp. that is used to produce semi-synthetic anticancer pharmaceuticals such as etoposide, teniposide, and etoposide phosphate. This chapter describes the role of biotechnology to produce podophyllotoxin and our attempts to domesticate Podophyllum peltatum L., also known as the American mayapple. The domestication research on mayapple included surveys of the natural population, identification of high yielding genotypes, propagation, cultivation, sustainable harvest procedures and the development of protocols for in vitro germplasm bank.

Published

2009

29. Effect of aeration on production of anticancer lignans by cell suspension cultures of Linum album.

Author

Baldi A, Srivastava AK, and Bisaria VS

Subjects

Bioreactors, Cell Culture Techniques methods, Cells, Cultured, Oxygen metabolism, Podophyllotoxin analogs & derivatives, Antineoplastic Agents, Phytogenic biosynthesis, Flax metabolism, Podophyllotoxin biosynthesis

Abstract

The effects of aeration within the range of 0.2-0.5 vvm on transformed and high yielding cell cultures of Linum album were investigated in a 5-L stirred tank bioreactor equipped with low shear Setric impeller. The kinetics of cell growth, substrate utilization, and production of lignans, namely, podophyllotoxin and 6-methoxypodophyllotoxin, were established. Maximum biomass of 23.2 g/L and lignan accumulation levels of 176.3 mg/L podophyllotoxin and 10.86 mg/L 6-methoxypodophyllotoxin were obtained with initial air flow rate of 0.3 vvm. Specified oxygen demand of cells was estimated to be 1.35 g O(2)/g biomass. The optimum oxygen transfer coefficient was found to be 16.7 h(-1) (,) which corresponded to aeration rate of 0.3 vvm. The effect of minimum dissolved oxygen (DO) concentration was investigated with respect to biomass and lignan production by comparing identically aerated and agitated bioreactor cultivations at dissolved oxygen concentrations of 10%, 30%, and 50%. Cell growth and podophyllotoxin accumulation were not affected significantly at these DO levels, but 6-methoxypodophyllotoxin production was enhanced when cells were cultivated at 30% DO level. The maximum volumetric productivities of 18.2 mg/L day and 3.2 mg/L day for podophyllotoxin and 6-methoxypodophyllotoxin, respectively, were obtained. These results establish the key role of oxygen on mass scale production of anticancer lignans by cell cultures of L. album. It may serve as a suitable parameter for scale-up.

Published

2008

30. Improved podophyllotoxin production by transformed cultures of Linum album.

Author

Baldi A, Srivastava AK, and Bisaria VS

Subjects

Cell Culture Techniques, Flax cytology, Flax microbiology, Host-Pathogen Interactions, Plant Roots cytology, Plant Roots microbiology, Rhizobium physiology, Flax metabolism, Plant Roots metabolism, Podophyllotoxin biosynthesis

Abstract

Various cell and hairy root cultures of L. album were developed and analyzed for podophyllotoxin content. Transformed callus and hairy root cultures developed from infection of stem portions of in vitro-germinated L. album plant with Agrobacterium rhizogenes NCIM 5140 strain were selected on the basis of high podophyllotoxin content and growth. Based on the integration of Ri T(L)-DNA and T(R)-DNA, integration of only the ags and not the rol gene in transformed cell culture indicated fragmented integration pattern. The effect of different cultivation media and carbon source on growth and podophyllotoxin production were studied in shake-flask suspension cultures. Detailed batch growth and production kinetics with sugar consumption profile were also established. Maximum volumetric productivity of 4.40 and 2.75 mg/L per day was obtained in cell suspension and hairy root cultures, respectively.

Published

2008

31. Co-culture of arbuscular mycorrhiza-like fungi (Piriformospora indica and Sebacina vermifera) with plant cells of Linum album for enhanced production of podophyllotoxins: a first report.

Author

Baldi A, Jain A, Gupta N, Srivastava AK, and Bisaria VS

Subjects

Coculture Techniques, Flax enzymology, Flax growth & development, Kinetics, Phenylalanine Ammonia-Lyase metabolism, Podophyllotoxin analogs & derivatives, Podophyllotoxin metabolism, Flax cytology, Mycorrhizae cytology, Podophyllotoxin biosynthesis

Abstract

Cell suspension cultures of Linum album were developed from internode portions of in vitro germinated plant in Gamborg's B5 medium supplemented with 0.4 mg naphthalene acetic acid/l. The highest biomass was 8.5 g/l with podophyllotoxin and 6-methoxypodophyllotoxin at 29 and 1.9 mg/l, respectively after 12 d cultivation. Co-cultures of L. album cells with axenically cultivable arbuscular mycorrhiza-like fungi, Piriformospora indica and Sebacina vermifera, were established for the first time. These enhanced podophyllotoxin and 6-methoxypodophyllotoxin production by about four- and eight-fold, respectively, along with a 20% increase in biomass compared to the control cultures.

Published

2008

32. Podophyllotoxin from suspension culture of Linum album.

Author

Sedaghat S, Ezatzadeh E, and Alfermann AW

Subjects

Cell Culture Techniques, Flax cytology, Flax metabolism, Glycosides analysis, Glycosides biosynthesis, Glycosides isolation & purification, Podophyllotoxin analysis, Podophyllotoxin biosynthesis, Flax chemistry, Podophyllotoxin isolation & purification

Abstract

Callus and suspension cultures of Linum album as an Iranian species for synthesis of aryltetralin lactone were used. After cultivation period; we can isolate and characterize podophyllotoxin as glycosides compounds. Maximal product yield is 0.5% of the dry weight in dark grown cultures.

Published

2008

33. Podophyllotoxin content, above- and belowground biomass in relation to altitude in Podophyllum hexandrum populations from Kumaun region of the Indian Central Himalaya.

Author

Nadeem M, Palni LM, Kumar A, and Nandi SK

Subjects

Altitude, Antineoplastic Agents, Phytogenic chemistry, Biomass, Humans, India, Plant Components, Aerial chemistry, Podophyllotoxin chemistry, Rhizome chemistry, Antineoplastic Agents, Phytogenic biosynthesis, Phytotherapy, Podophyllotoxin biosynthesis, Podophyllum growth & development

Abstract

The morphological features of Podophyllum hexandrum Royle, a 'critically endangered' medicinal herb and a source of podophyllotoxin, were studied in populations growing in different parts of the Kumaun region of the Indian Central Himalaya. Plant growth performance in terms of biomass accumulation and podopyllotoxin levels in the rhizomes collected from eleven natural populations (P1 to P11, altitude ranging from 2740 to 3350 m) were analyzed. Morphological features, e. g., plant height, stem diameter and leaf area were, in general, negatively correlated with an increase in the altitude. Maximum aboveground (8.46 g/individual) and belowground (48.18 g/individual) biomass values were recorded from a population (P9) at the lowest altitude (2740 m) and, in general, the species was found to perform better at the lower altitudes. The podophyllotoxin content of rhizomes ranged between 0.36-1.08% (on dry wt. basis) in different populations, and a positive correlation was observed between podophyllotoxin content and an increase in the altitude.

Published

2007

34. Influence of methyl jasmonate on podophyllotoxin and 6-methoxypodophyllotoxin accumulation in Linum album cell suspension cultures.

Author

van Fürden B, Humburg A, and Fuss E

Subjects

Alcohol Oxidoreductases biosynthesis, Cell Culture Techniques, Flax drug effects, Oxylipins, Phenylalanine Ammonia-Lyase biosynthesis, Acetates pharmacology, Cyclopentanes pharmacology, Flax metabolism, Lignans biosynthesis, Podophyllotoxin biosynthesis

Abstract

The accumulation of podophyllotoxin (PTOX) and 6-methoxypodophyllotoxin (6MPTOX) was enhanced about twofold in the suspension culture of Linum album line 2-5 aH following the addition of methyl jasmonate (MeJas) to the cultivation medium, reaching 7.69+/-1.45 mg/g dry weight and 1.11+/-0.09 mg/g dry weight, respectively. There was no increase in 6MPTOX accumulation following the addition of MeJas to suspension cells of L. album line X4SF, whereas PTOX accumulation was enhanced about tenfold to 0.49+/-0.10 mg/g dry weight. Phenylalanine ammonia-lyase activity increased immediately after the addition of MeJas to a cell suspension culture of line X4SF, reaching a maximum between 4 h and 1 day after elicitation, while cinnamyl alcohol dehydrogenase activity and the lignin content of the cells were not affected.

Published

2005

35. Biotechnological aspects of the production of the anticancer drug podophyllotoxin.

Author

Farkya S, Bisaria VS, and Srivastava AK

Subjects

Bioreactors, Cell Culture Techniques, Fermentation, Antineoplastic Agents, Phytogenic biosynthesis, Biotechnology methods, Podophyllotoxin biosynthesis, Podophyllum growth & development, Podophyllum metabolism

Abstract

The natural lignan podophyllotoxin, a dimerized product of two phenylpropanoid moieties which occurs in a few plant species, is a pharmacologically important compound for its anticancer activities. It is used as a precursor for the chemical synthesis of the anticancer drugs etoposide, teniposide and etopophose. The availability of this lignan is becoming increasingly limited because of the scarce occurrence of its natural sources and also because synthetic approaches for its production are still commercially unacceptable. Biotechnological production using cell culture may be considered as an alternative source. Selection of the best performing cell line, its maintenance and stabilization are necessary prerequisites for its production in bioreactors and subsequent scale-up of the cultivation process to the industrial level. Scale-up of growth and product yield depends on a multitude of factors, such as growth medium, physicochemical conditions, seed inoculum, type of reactor and processing conditions. The composition of the growth medium, elicitors and precursors, etc. can markedly influence the production. Optimum levels of parameters that facilitate high growth and product response in cell suspensions of Podophyllum hexandrum have already been determined by statistical design. P. hexandrum cells have successfully been cultivated in a 3-l stirred-tank bioreactor under low shear conditions in batch and fed-batch modes of operation. The batch kinetic data were used to identify the mathematical model which was then used to develop nutrient-feeding strategies for fed-batch cultivation to prolong the productive log phase of cultivation. An improvement in the production of podophyllotoxin to 48.8 mg l(-1) in a cell culture of P. hexandrum was achieved, with a corresponding volumetric productivity of 0.80 mg l(-1) day(-1), when the reactor was operated in continuous cell-retention mode. Efforts are being made to further enhance its production levels by the development of hairy root culture or by varying the channeling of precursors towards the desired biosynthetic pathway by molecular approaches.

Published

2004

36. Production of podophyllotoxin using cross-species coculture of Linum flavum hairy roots and Podophyllum hexandrum cell suspensions.

Author

Lin HW, Kwok KH, and Doran PM

Subjects

Cells, Cultured, Flax growth & development, Pilot Projects, Plant Roots growth & development, Podophyllum growth & development, Species Specificity, Bioreactors, Cinnamates metabolism, Coculture Techniques methods, Flax metabolism, Plant Roots metabolism, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

Novel cross-species coculture systems using Linum flavum hairy roots and Podophyllum hexandrum cell suspensions were applied for in vitro production of podophyllotoxin. The hairy roots and suspensions were cocultured in Linsmaier and Skoog medium in dual shake flasks and dual bioreactors. In separate experiments, coniferin feeding was shown to be an effective strategy for increasing the accumulation of podophyllotoxin in P. hexandrum suspensions. Because roots of L. flavum are a natural source of coniferin, hairy roots of this species were used in coculture with P. hexandrum to provide an in situ supply of coniferin. Compared with P. hexandrum suspensions cultured alone in shake flasks or bioreactors, podophyllotoxin concentrations in cocultured P. hexandrum cells were increased by 240% and 72% in dual shake flask and dual bioreactor systems, respectively. The availability and stability of coniferin in the medium are the most likely factors limiting podophyllotoxin synthesis in coculture. Intensification of the coculture process is required to further improve total podophyllotoxin accumulation on a volumetric basis.

Published

2003

37. Enhanced production of podophyllotoxin by Podophyllum hexandrum using in situ cell retention bioreactor.

Author

Chattopadhyay S, Bisaria VS, and Srivastava AK

Subjects

Cell Culture Techniques instrumentation, Cell Division, Cells, Cultured, Computer Simulation, Kinetics, Podophyllum classification, Quality Control, Bioreactors microbiology, Cell Culture Techniques methods, Models, Biological, Podophyllotoxin biosynthesis, Podophyllum growth & development, Podophyllum metabolism

Abstract

The rhizomes of the rare plant Podophyllum hexandrum contain podophyllotoxin, which is a precursor of the anticancer drugs etoposide and teniposide. Batch cultivation of Podophyllum hexandrum was conducted using optimized medium in a 3 L bioreactor, which resulted in biomass and podophyllotoxin concentrations of 21.4 g/L and 13.8 mg/L in 24 and 26 days, respectively. The batch kinetics was used to identify the mathematical model. The model was extrapolated to identify the nutrient feeding rate (150 mL/d) and substrate concentration (105 g/L) in the incoming feed for nonlimiting and noninhibitory glucose concentration in the cell retention bioreactor. An improvement in cell growth to 53 g/L and intracellular podophyllotoxin accumulation of 48.8 mg/L was achieved in 60 days, when the bioreactor was operated in continuous cell retention cultivation mode.

Published

2003

38. Effect of major nutrients on podophyllotoxin production in Podophyllum hexandrum suspension cultures.

Author

Chattopadhyay S, Mehra RS, Srivastava AK, Bhojwani SS, and Bisaria VS

Subjects

Biotechnology, Cells, Cultured, Culture Media, Glucose metabolism, Nitrogen metabolism, Phosphates metabolism, Plant Roots cytology, Plants, Medicinal, Podophyllotoxin analysis, Podophyllum cytology, Podophyllum growth & development, Antineoplastic Agents, Phytogenic biosynthesis, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

The effect of major medium ingredients (sugar, nitrogen source and phosphate) in Podophyllum hexandrum suspension cultures was investigated in order to increase the production of podophyllotoxin, the raw material in the synthesis of anticancer drugs. Amongst B5, Eriksson, MS, Nitsch, Street and White's medium, MS medium resulted in high growth and podophyllotoxin accumulation. The optimum level of nitrogen was found to be 60 mM, with a combination of ammonium salts and nitrate in the ratio of 1:2. The highest level of podophyllotoxin was obtained at 60 g glucose/l and at 1.25 mM phosphate after 30 days. Statistical design was adopted to determine the optimum levels of the parameters for cell growth and podophyllotoxin production.

Published

2003

39. Biosynthesis of podophyllotoxin in Linum album cell cultures.

Author

Seidel V, Windhövel J, Eaton G, Alfermann AW, Arroo RR, Medarde M, Petersen M, and Woolley JG

Subjects

Alcohol Oxidoreductases metabolism, Aldehyde Oxidoreductases metabolism, Carbon Isotopes, Cell Division drug effects, Cells, Cultured, Chromatography, High Pressure Liquid, Cinnamates chemical synthesis, Cinnamates pharmacology, Coenzyme A Ligases metabolism, Coumaric Acids chemical synthesis, Coumaric Acids chemistry, Coumaric Acids metabolism, Coumaric Acids pharmacology, Drugs, Chinese Herbal, Flax cytology, Flax enzymology, Hydrogen-Ion Concentration, Lignans isolation & purification, Mass Spectrometry, Molecular Structure, Phenylalanine Ammonia-Lyase metabolism, Podophyllotoxin chemistry, Podophyllotoxin metabolism, Flax metabolism, Lignans biosynthesis, Podophyllotoxin analogs & derivatives, Podophyllotoxin biosynthesis

Abstract

Cell cultures of Linum album Kotschy ex Boiss. (Linaceae) showing high accumulation of the lignan podophyllotoxin (PTOX) were established. Enzymological studies revealed highest activities of phenylalanine ammonia-lyase, cinnamyl alcohol dehydrogenase, 4-hydroxycinnamate:CoA ligase and cinnamoyl-CoA:NADP oxidoreductase immediately prior to PTOX accumulation. To investigate PTOX biosynthesis, feeding experiments were performed with [2-(13)C]3',4'-dimethoxycinnamic acid, [2-(13)C]3',4'-methylenedioxycinnamic acid (MDCA), [2-(13)C]3',4',5'-trimethoxycinnamic acid, [2-(13)C]sinapic acid, [2-(13)C]- and [2,3-(13)C(2)]ferulic acid. Analysis of the metabolites by HPLC coupled to tandem mass spectrometry revealed incorporation of label from ferulic acid into PTOX and deoxypodophyllotoxin (DOP). In addition, MDCA was also unambiguously incorporated intact into PTOX. These observations suggest that in L. album both ferulic acid and methylenedioxy-substituted cinnamic acid can be incorporated into lignans. Furthermore, it appears that, in this species, the hydroxylation of DOP is a rate-limiting point in the pathway leading to PTOX. Electronic supplementary material to this paper can be obtained by using the Springer LINK server located at http://dx.doi.org/wo.1007/s00425-002-0834-1.

Published

2002

40. Optimization of culture parameters for production of podophyllotoxin in suspension culture of Podophyllum hexandrum.

Author

Chattopadhyay S, Srivastava AK, and Bisaria VS

Subjects

Chromatography, High Pressure Liquid, Chromatography, Thin Layer, Culture Media, Glucose metabolism, Hydrogen-Ion Concentration, Indoleacetic Acids metabolism, Nitrogen metabolism, Phosphates metabolism, Podophyllotoxin isolation & purification, Podophyllum classification, Podophyllum growth & development, Polygalacturonase pharmacology, Povidone chemistry, Povidone pharmacology, Seeds growth & development, Seeds metabolism, Sucrose metabolism, Biotechnology methods, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

The root explants of the germinated seedlings of Podophyllum hexandrum were grown in MS medium supplemented with indole acetic acid (IAA) (2 mg/L) and activated charcoal (0.5%), and healthy callus culture was obtained after incubation for 3 wk at 20 degrees C. The cultivation of plant cells in shake flask was associated with problems such as clumping of cells and browning of media, which were solved by the addition of pectinase and polyvinylpyrrolidone. The effect of major media components and carbon source was studied on the growth and podophyllotoxin production in suspension culture. It was found that glucose was a better carbon source than sucrose and that NH4+:NO3- ratio (total nitrogen concentration of 60 mM) and PO4(3-) did not have much effect on the growth and product formation. The relative effect of culture parameters (inoculum level, pH, IAA, glucose, NH4+:NO3- ratio, and PO4(3-)) on the overall growth and product response of the plant cell suspension culture was further investigated by Plackett-Burman design. This indicated that inoculum level, glucose, IAA, and pH had significant effects on growth and production of podophyllotoxin. To identify the exact optimum concentrations of these parameters on culture growth and podophyllotoxin production, central composite design experiments were formulated. The overall response equations with respect to growth and podophyllotoxin production as a function of these culture parameters were developed and used to determine the optimum concentrations of these parameters, which were pH 6.0, 1.25 mg/L of IAA, 72 g/L of glucose, and inoculum level of 8 g/L.

Published

2002

41. Evaluation of Podophyllum peltatum accessions for podophyllotoxin production.

Author

Moraes RM, Bedir E, Barrett H, Burandt C Jr, Canel C, and Khan IA

Subjects

Biomass, Lignans biosynthesis, Plant Leaves chemistry, Plant Leaves growth & development, Plant Stems chemistry, Plant Stems growth & development, Podophyllotoxin analogs & derivatives, Podophyllotoxin biosynthesis, Podophyllum

Abstract

In an effort to develop a sustainable source of podophyllotoxin for the production of anticancer drugs such as etoposide, teniposide and etopophos, Podophyllum peltatum accessions with podophyllotoxin-rich leaf biomass were identified and transplanted to different growing conditions by vegetative cuttings. Results indicate that the lignan profile in leaves does not change over time or due to environment conditions. Podophyllotoxin and alpha-peltatin content in the blades seems to be stable with an inverse relationship of concentration between these compounds. A podophyllotoxin-rich leaf accession showed low biosynthetic capability to synthesize alpha- and beta-peltatin and the converse was also true, indicating that selection and cultivation of high-yielding podophyllotoxin leaf biomass may reduce production costs.

Published

2002

42. The production of cytotoxic lignans by plant cell cultures.

Author

Petersen M and Alfermann AW

Subjects

Cell Culture Techniques, Cell Line, Plant Roots cytology, Plant Roots metabolism, Plant Structures cytology, Cells, Cultured, Lignans biosynthesis, Plant Cells, Plant Structures metabolism, Plants metabolism, Podophyllotoxin biosynthesis

Abstract

Cytotoxic lignans derived from podophyllotoxin are currently used in cancer chemotherapy. Podophyllotoxin for semi-synthetic derivatization is isolated from the rhizomes of Podophyllum plants growing wild, some of which are counted as endangered species. An alternative source for podophyllotoxin or related lignans may in future be cell cultures derived from different plant species, such as Podophyllum spp or Linum spp. These cell cultures were shown to accumulate considerable amounts of podophyllotoxin or 5-methoxypodophyllotoxin. Optimization of the cell cultivation regime might lead to a renewable source of cytotoxic lignans for medicinal uses. This Mini-Review summarizes the attempts to establish plant cell cultures for the production of podophyllotoxin and related lignans and their optimization towards high levels of these target compounds. It also summarizes the results of studies on the biosynthesis of podophyllotoxin and 5-methoxypodophyllotoxin.

Published

2001

43. Enhanced podophyllotoxin production from Agrobacterium rhizogenes transformed cultures of Podophyllum hexandrum.

Author

Giri A, Giri CC, Dhingra V, and Narasu ML

Subjects

Cell Line, Transformed metabolism, Chromatography, High Pressure Liquid, Guanine analogs & derivatives, Guanine chemistry, Guanine pharmacology, New Zealand, Podophyllotoxin chemistry, Podophyllotoxin metabolism, Podophyllum cytology, Rhizome chemistry, Seeds chemistry, Time Factors, Transformation, Genetic, Cells, Cultured metabolism, Guanine isolation & purification, Plants, Medicinal chemistry, Podophyllotoxin biosynthesis, Podophyllum metabolism, Rhizobium metabolism

Abstract

Podophyllotoxin, a potent chemotherapeutic agent is obtained from Podophyllum hexandrum Royle. Embryos of P. hexandrum were transformed using different strains of Agrobacterium rhizogenes viz. A4, 15834, K599. Transformed nature of the calli was ascertained and the cultures were further maintained as individual clones. HPLG analysis of transformed cultures depicted a three-fold increase in podophyllotoxin content in comparison to controls.

Published

2001

44. Dirigent-mediated podophyllotoxin biosynthesis in Linum flavum and Podophyllum peltatum.

Author

Xia ZQ, Costa MA, Proctor J, Davin LB, and Lewis NG

Subjects

Amino Acid Sequence, Antineoplastic Agents metabolism, Base Sequence, DNA, Plant analysis, Flax genetics, Furans metabolism, Lignans metabolism, Molecular Sequence Data, Plant Proteins genetics, Plant Proteins metabolism, Podophyllotoxin genetics, Podophyllotoxin metabolism, Podophyllum genetics, Sequence Homology, Amino Acid, Flax metabolism, Plants, Medicinal, Plants, Toxic, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

Given the importance of the antitumor/antiviral lignans, podophyllotoxin and 5-methoxypodophyllotoxin, as biotechnological targets, their biosynthetic pathways were investigated in Podophyllum peltatum and Linum flavum. Entry into their pathways was established to occur via dirigent mediated coupling of E-coniferyl alcohol to afford (+)-pinoresinol; the encoding gene was cloned and the recombinant protein subsequently obtained. Radiolabeled substrate studies using partially purified enzyme preparations next revealed (+)-pinoresinol was enantiospecifically converted sequentially into (+)-lariciresinol and (-)-secoisolariciresinol via the action of an NADPH-dependent bifunctional pinoresinol/lariciresinol reductase. The resulting (-)-secoisolariciresinol was enantiospecifically dehydrogenated into (-)-matairesinol, as evidenced through the conversion of both radio- and stable isotopically labeled secoisolariciresinol into matairesinol, this being catalyzed by the NAD-dependent secoisolariciresinol dehydrogenase. (-)-Matairesinol was further hydroxylated to afford 7'-hydroxymatairesinol, this being efficiently metabolized into 5-methoxypodophyllotoxin. Thus much of the overall biosynthetic pathway to podophyllotoxin has been established, that is, from the dirigent mediated coupling of E-coniferyl alcohol to the subsequent conversions leading to 7'-hydroxymatairesinol.

Published

2000

45. On the podophyllotoxins of root cultures of Linum flavum.

Author

Berlin J, Bedorf N, Mollenschott C, Wray V, Sasse F, and Höfle G

Subjects

Cells, Cultured, Plants, Medicinal metabolism, Podophyllotoxin biosynthesis

Published

1988

46. Synthesis of stereospecifically deuterated desoxypodophyllotoxins and 1H-nmr assignment of desoxypodophyllotoxin.

Author

Pullockaran AJ, Kingston DG, and Lewis NG

Subjects

Antineoplastic Agents, Phytogenic analysis, Antineoplastic Agents, Phytogenic biosynthesis, Deuterium analysis, Hydrogen analysis, Hydroxylation, Plant Roots chemistry, Plant Roots metabolism, Podophyllotoxin analysis, Podophyllum chemistry, Stereoisomerism, Magnetic Resonance Spectroscopy, Plants, Medicinal, Plants, Toxic, Podophyllotoxin analogs & derivatives, Podophyllotoxin biosynthesis, Podophyllum metabolism

Abstract

[4 beta- 2H1]Desoxypodophyllotoxin [3], [4 alpha- 2H1]desoxypodophyllotoxin [4], and [4, 4- 2 H2]desoxypodophyllotoxin [9] were prepared from podophyllotoxin [1] via its chloride [5]. A complete assignment of the 1H-nmr spectrum of desoxypodophyllotoxin [2] was made on the basis of the spectra of the deuterated compounds [3] and [4].

Published

1989

47. Formation of podophyllotoxins by Podophyllum peltatum tissue cultures.

Author

Kadkade PG

Subjects

Cells, Cultured, Plants metabolism, Plants, Medicinal, Plants, Toxic, Podophyllotoxin isolation & purification, Podophyllum metabolism, Podophyllotoxin biosynthesis

Published

1981

48. Formation of beta-peltatin-A methyl ether and coniferin by root cultures of Linum flavum.

Author

Berlin J, Wray V, Mollenschott C, and Sasse F

Subjects

2,4-Dichlorophenoxyacetic Acid pharmacology, Animals, Cell Survival drug effects, Magnetic Resonance Spectroscopy, Mice, Podophyllotoxin biosynthesis, Podophyllotoxin pharmacology, Antineoplastic Agents, Phytogenic biosynthesis, Cinnamates biosynthesis, Plants, Medicinal metabolism, Podophyllotoxin analogs & derivatives

Abstract

Extracts of root cultures of Linum flavum contained high cytotoxic activity due to the presence of 1% beta-peltatin-A methyl ether of the dry mass. During chromatographic analysis of the cell extracts, coniferin was identified as the major uv-absorbing but noncytotoxic constituent with levels of up to 3% of the dry mass. Growth, culture appearance, and product accumulation varied greatly with the 2,4-D concentration in the medium.

Published

1986

49. Mapping podophyllotoxin biosynthesis and growth-related transcripts with high elevation in Sinopodophyllum hexandrum.

Author

Li, Mengfei, Sun, Ping, Kang, Tianlan, Xing, Hua, Yang, Delong, Zhang, Jinlin, and Paré, Paul W.

Subjects

*BERBERIDACEAE, *PODOPHYLLOTOXIN, *BIOSYNTHESIS, *PLANT growth, *GENE expression in plants

Abstract

Highlights • Sinopodophyllum hexandrum transcriptome expression shifted with elevation. • Over 100 million high-quality reads and ca. 54 K unigenes were obtained. • Over 700 genes were differentially expressed based on elevation. • Seven podophyllotoxin-biosynthetic genes were up regulated at 3300 m above sea level. • Greater than 200 growth-promotion genes were differentially expressed with higher elevation. Abstract Sinopodophyllum hexandrum , a perennial rhizomatous herb that produces the anti-cancer metabolite podophyllotoxin (PPT), is distributed in the Himalayan region. While greater plant growth and PPT accumulation is observed at higher compared with lower elevations, the mechanism responsible for elevation-dependent growth promotion and PPT biosynthesis has not been reported. Here, the de novo sequenced transcriptome of S. hexandrum is described. When plants were grown at 3300 versus 2300 m above sea level (asl), a total of 53,691 unigenes were generated and 736 differentially expressed genes (DEGs) were observed. DEGs (357) were identified with 234 characterized genes showing greater up than down regulation, 171 versus 63, respectively. Functional annotation classified 23 DEGs involved in PPT biosynthesis, including phenylpropanoid enzymes: phenylalanine ammonia layse (PAL), cinnamyl alcohol-dehydrogenase (CAD), dirigent protein (DIR), pinoresinol-lariciresinol reductase (PLR), CYP719A23, CYP71CU1, and 2-oxoglutarate/Fe(II)-dependent dioxygenase (2-ODD) which directly participate in PPT biosynthesis. Over 200 DEGs that participate in plant growth and development are categorized into: cell morphogenesis, bio-signaling, primary metabolism, photosynthesis/energy, transcription/polynucleotide metabolism, translation/protein synthesis, transport, and stress tolerance. This transcriptomic analysis provides insight into the mechanism that enhances plant growth and PPT accumulation in S. hexandrum under higher elevation conditions. [ABSTRACT FROM AUTHOR]

Published

2018

50. Expression analysis of biosynthetic pathway genes vis-à-vis podophyllotoxin content in Podophyllum hexandrum Royle.

Author

Kumar, Pawan, Pal, Tarun, Sharma, Neha, Kumar, Varun, Sood, Hemant, and Chauhan, Rajinder

Subjects

*BIOSYNTHESIS, *PODOPHYLLOTOXIN, *ANTINEOPLASTIC agents, *PLANT species, *CELL culture

Abstract

Podophyllum hexandrum Royle is known for its vast medicinal properties, particularly anticancer. It contains higher amount of podophyllotoxin (4.3 %), compared to Podophyllum peltatum (0.025 %) and other plant species; as a result, it has been used worldwide in the preparation of various drugs including anticancer, antimalarial, antiviral, antioxidant, antifungal, and so on. Currently, Etoposide (VP-16-213), Vumon® (Teniposide; VM-26), Etopophos®, Pod-Ben- 25, Condofil, Verrusol, and Warticon are available in the market. Due to highly complex synthesis and low cell culture yields of podophyllotoxin (0.3 %), the supply of raw material cannot be met due to increasing industrial demands. The knowledge on podophyllotoxin biosynthetic pathway vis-à-vis expression status of genes is fragmentary. Quantitative expression analysis of 21 pathway genes has revealed 9 genes, namely SD, PD, PCH, CM, CMT, CAD, CCR, C4H, and ADH, that showed increase in transcript abundance up to 1.4 to 23.05 folds, respectively, vis-à-vis podophyllotoxin content in roots (1.37 %) and rhizomes (3.05 %) of P. hexandrum. In silico analysis of putative cis-regulatory elements in promoter regions of overexpressed genes showed the presence of common Skn-1 motif and MBS elements in CMT, CAD, CCR, C4H, and ADH genes, thereby, suggesting their common regulation. The outcome of the study has resulted in the identification of suitable candidate genes which might be contributing to podophyllotoxin biosynthesis that can act as potential targets for any genetic intervention strategies aimed at its enhanced production. [ABSTRACT FROM AUTHOR]

Published

2015