University of Groningen Podophyllotoxin Koulman, Albert

University of Groningen Podophyllotoxin Koulman, Albert

University of Groningen Podophyllotoxin Koulman, Albert IMPORTANT NOTE: You are advised to consult the publisher's version (publisher's PDF) if you wish to cite from it. Please check the document version below. Document Version Publisher's PDF, also known as Version of record Publication date: 2003 Link to publication in University of Groningen/UMCG research database Citation for published version (APA): Koulman, A. (2003). Podophyllotoxin: A study of the biosynthesis, evolution, function and use of podophyllotoxin and related lignans. [S.n.]. Copyright Other than for strictly personal use, it is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license (like Creative Commons). The publication may also be distributed here under the terms of Article 25fa of the Dutch Copyright Act, indicated by the “Taverne” license. More information can be found on the University of Groningen website: https://www.rug.nl/library/open-access/self-archiving-pure/taverne- amendment. Take-down policy If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. Downloaded from the University of Groningen/UMCG research database (Pure): http://www.rug.nl/research/portal. For technical reasons the number of authors shown on this cover page is limited to 10 maximum. Download date: 30-09-2021 Podophyllotoxin RIJKSUNIVERSITEIT GRONINGEN Podophyllotoxin A Study of the Biosynthesis, Evolution, Function and Use of Podophyllotoxin and Related Lignans. Proefschrift ter verkrijging van het doctoraat in de Wiskunde en Natuurwetenschappen aan de Rijksuniversiteit Groningen op gezag van de Rector Magnificus, dr. F. Zwarts in het openbaar te verdedigen op vrijdag 12 september 2003 om 14.15 uur door Albert Koulman geboren op 3 mei 1971 te Goes Promotor: Prof. Dr.W.J. Quax Co-promotor: Dr. N. Pras Beoordelingscommissie: Prof. Dr. A.W. Alfermann Prof. Dr. R Verpoorte Prof. Dr. H.V. Wikström ISBN-nummer: 90-9017099-5 Printed by: Stichting Regenboog drukkerij Dit onderzoek werd mede mogelijk gemaakt door financiële steun Groningen University Institute for Drug Exploration (GUIDE) en van de EU; BIO4-CT98-0451 LIGNOCANCER: Plant Cell Factories as a Source of Anti-Cancer Lignans. Our goal is to discover that we have always been where we ought to be. Unhappily we make the task exceedingly difficult for ourselves. Aldous Huxley, in: The Doors of Perception We need a plan. Col. H. Smith Voor Jan Voor Niesko Contents I. Introduction 9 II. Inleiding van de Nederlandse samenvatting 37 III. A fast and simple GC-MS method for lignan profiling 45 IV. Volatile components from Anthriscus sylvestris. 59 V. Lignan profiles of indoor-cultivated Anthriscus sylvestris. 69 VI. A phytochemical study of lignans in whole plants and cell suspension cultures of Anthriscus sylvestis. 79 VII. The bioconversion of lignans from the putative 6-methoxypodophyllotoxin biosynthesis by Linum flavum cells 95 VIII. The bioconversion process of deoxypodophyllotoxin with Linum flavum cell cultures. 113 IX. Bioconversion of 2,7’-cyclolignans by heterologously expressed human cytochrome P450 3A4. 129 X. Evolution of lignan biosynthesis in the genus Bursera 141 XI. Abstract, discussion and conclusions 157 XII. Nederlandse samenvatting: conclusie 167 XIII. References 169 List of publications 183 Tenslotte 185 8 I. Introduction Based on: Albert Koulman, Wim J. Quax and Niesko Pras, Podophyllotoxin and Related Lignans Produced by Plants. Will be published as a chapter in Biotechnology: Medicinal Plants, K. G. Ramawat (ed.). 9 Chapter I GENERAL INTRODUCTION Lignans form a group of important plant metabolites. This group receives much attention in the field of natural product chemistry ever since the discovery of podophyllotoxin. Lignans are defined as ââ-dimers of phenylpropanoid derivatives, and are widely spread throughout the plant kingdom. The present interest for this group of natural products is based on their application in the fields of pharmacy and nutrition. One group of lignans, those with an enterolactone-like structure, has drawn the attention as food additives. These lignans may have a preventive role in breast cancer, due to their phytoestrogenic activity. Different studies claim this cancer preventive activity based on in vitro and animal experiments (Cho et al., 1999) and epidemiological data (Adlercreutz, 1999). The attention of pharmacists for lignans in general and podophyllotoxin in particular is due to the pronounced cytotoxic activity of a number of these compounds. Several plant species accumulate the 2,7’cyclolignan podophyllotoxin, which is used as the starting compound for the production of three semi synthetic anticancer drugs. Most commonly used due to its antineoplastic properties is etoposide, which was developed in 1966 and received FDA approval in 1983. A phosphate analogue, etopophos, produced by Bristol-Myers Squibb Co. was FDA approved in 1996. The third derivative is teniposide, which is less frequently used for chemotherapy in comparison with etoposide (Hande, 1998). Podophyllotoxin is one of the eye-catching results from medicinal plant research. However, the isolation of podophyllotoxin from the rhizomes of Podophyllum peltatum and Podophyllum hexandrum (Berberidaceae) plants is not a very ideal production system. The P. hexandrum rhizomes may contain ca. 4% of podophyllotoxin on a dry weight basis. The supply becomes increasingly limited due to both intensive collection and lack of cultivation (Choudhary et al., 1998). Podophyllum peltatum contains lower amounts of podophyllotoxin (Rai et al., 2000). The species Podophyllum hexandrum is listed in appendix II of CITES (convention for international trade in endangered species). This appendix lists species that are not necessarily now threatened with extinction but that may become so unless trade is closely controlled (World Conservation Monitoring Centre, 2001). This supply problem forms the drive for a large number of scientists to search for alternative sources of podophyllotoxin. The chemical synthesis of podophyllotoxin is possible (Hadimani et al., 1996; Medarde et al., 1996), but largely hampered by the complicated stereochemical ring closure necessary to attain this compound. Synthetic production therefore only yields restricted quantities at high costs. An ideal resource would be a fast growing, easy to cultivate plant, with a high lignan content, preferably in the aerial parts. A biotechnological approach, aimed at expressing lignan synthetic enzymes in an efficient host cell, might also solve the supply 10 Introduction problem. The third option would be the semi synthetic production of lignans via organic synthesis in combination with plants enzymes that are able to catalyse certain complex reaction steps. In this chapter we will give an overview of the current status of research dealing with plants producing podophyllotoxin and related lignans. Related lignans can be either lignans with 2,7’-cyclolignano-9,9’-lactone skeleton (following the IUPAC nomenclature by Moss, 2000) without any further oxidation of the 2,7’-ring, or lignans that are considered to be precursors in the podophyllotoxin biosynthesis. The chemical structures of podophyllotoxin and a number of important related lignans are depicted in Fig. 1. There are many more lignans and neolignans but these are not discussed in this thesis. The subjects discussed range from pharmacological activity, pharmaceutical analysis, taxonomy of lignan-producing plants, and the biosynthesis of lignans and their ecological role to finally the design of biotechnological production systems. Fig. 1. Podophyllotoxin and its related lignans OH 6 7 9 O 5 1 8 O 7' O 4 2 8' 9' 3 1' O 6' 2' 3' 5' H3CO 4' OCH3 OCH3 podophyllotoxin OH O O O O O O O O O O O O O O O O O H3CO OCH3 H3CO OCH3 H3CO OCH3 O OCH3 OCH3 OH polygamain yatein anhydropodorhizol a-peltatin OH OCH3 OCH3 OH O O O O O O O O O O O O O O O O H CO H3CO OCH3 3 OCH3 H3CO OCH3 H3CO OCH3 OCH3 OCH3 OCH3 OCH3 deoxypodophyllotoxin b-peltatin b-peltatin-A-methylether 6-methoxypodophyllotoxin 11 Chapter I PHARMACOLOGY AND USE OF PODOPHYLLOTOXIN AND DERIVATIVES Background As early as in the first century A.D., Pliny the Elder mentions that the smaller species of Juniperus could be used, among other things, to stop tumours or swelling (“tumores” in Latin; König and Hopp, 1993). Dioscorides mentions the use of the oil of Juniperus species (J. sabina, J. phoenicea and J. communis) for the treatment of ulcers, carbuncles and leprosy (Gunther, 1959). Generally, dried needles, called savin, or the derived oil was used. In 47 A.D., Scribonius Largus wrote that savin oil was used to soften “hard female genital parts” (Sconocchia, 1983). Later references indicated the use of savin to treat uterine carcinoma, venereal warts and polyps (Hartwell and Schrecker, 1958). At present, we know that the pharmacological activity of J. sabina needles is to be ascribed to the lignans deoxypodophyllotoxin and podophyllotoxin (see Fig.1; Hartwell et al., 1953a). The Leech book of Bald, 900-950 A.D., an early English medicinal book, has reported on the use of root of Anthriscus sylvestris. These roots contain podophyllotoxin related lignans such as deoxypodophyllotoxin and were used in ointments prepared from a large number of plants and plant extracts like savine to cure cancer (Cockayne, 1961). In Japan and China the roots of this plant were also used as a kind of crude drug called “Zengo” in Japan (Kozawa et al., 1982) and “qianhu” in China (Kozawa et al., 1978). Surprisingly a Chinese article states that: “the root is soaked in water, and then crushed and pulverised in a dry atmosphere for use as food. In addition, the young aerial part of this plant is sometimes used for food” (Kozawa et al., 1982). Even though this was still practised in the eighties, the authors do not mention any form of intoxication.

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