Biomimetic Approaches to the Synthesis of Polyketide Derived Marine Natural Products; (-)-Maurenone and the Spiculoic Acids

Crossman, Julia Stephanie, julia.crossman@flinders.edu.au

January 2007

This thesis describes the total synthesis of the polyketide derived marine natural product (-)-maurenone (14) and synthetic studies of a model system for the marine polyketides, the spiculoic acids (20, 22-24). A biomimetic approach involving cyclisation of linear polyketide precursors to install the complex chemical frameworks was employed. Maurenone is a polypropionate derived metabolite isolated from pulmonate molluscs collected off the coast of Costa Rica. While structural assignment following isolation revealed a relatively uncommon tetra-substituted dihydropyrone moiety the only stereochemical information deduced was the trans-relative relationship between the C8 and C9 protons. The total synthesis of a series of eight stereoisomeric putative structures was achieved in order to assign the stereochemistry of (-)-maurenone (14), as that depicted above. A time and cost efficient strategy was developed utilising common intermediates providing access to the eight stereoisomeric structures in a convergent manner. Six key fragments, four aldehydes (109) and two ketones (110), were synthesised using highly diastereoselective syn- and anti-boron aldol reactions and were coupled using a lithium-mediated aldol reaction. Trifluoroacetic acid-promoted cyclisation/dehydration enabled installation the ƒ×-dihydropyrone ring. All eight isomers of one enantiomeric series were synthesised by coupling two ketones with each of four aldehydes. By comparison of the NMR data for the eight isomers with that reported for the natural product, the relative stereochemistry was established as shown. The (-)-enantiomer of maurenone was synthesised in nine linear steps (13 % overall yield) from (R)-2-benzylpentan-3-one ((R)-40) and (R)-2-benzoyloxypentan-3-one ((R)-39). The spiculoic acid family of polyketide derived natural products, isolated from plakortis sponges, possess a unique [4.3.0]-bicyclic core which is proposed to be formed via an enzyme catalysed Intramolecular Diels-Alder (IMDA) cycloaddition reaction of linear polyene precursors 25. Model linear precursors (114), possessing various olefin geometries at C2 and both stereochemical orientations of the C5 stereocentre, were synthesised in order to examine stereoselectivity of the thermally induced IMDA cycloaddition reaction. The two alternative C4-C6 stereotriads of the linear precursors 114 were achieved by employing highly diastereoselective substrate-controlled aldol reactions; an anti-boron aldol reaction, controlled by the facial preference of (R)-2-benzoyloxypentan-3-one ((R)-39), and a syn-titanium aldol reaction, under the control of chiral N-acylthiazolidinethione ((R)-43a). The diene and dienophile moieties were installed using either standard Wittig, H.W.E. or ¡§modified¡¨ Julia olefination reactions. A thorough stereochemical assignment of the cycloadducts of the thermally induced IMDA reaction of each linear precursor was accomplished employing 2D NMR techniques. Comparison of the stereochemistry of each of the cycloadducts with the spiculoic acids revealed that the linear precursor (2E,5S)-114 produced a cycloadduct 232 with stereochemistry analogous to the natural products in 94 % diastereoselectivity. Thus, a synthetic approach to the spiculoic acids via synthesis of a linear precursor 285 possessing a TBS ether at C5 in the S configuration was proposed. Unfortunately, problems encountered in the synthesis of the proposed linear precursors to the spiculoic acids ultimately prevented the total synthesis from being achieved.

stereoselective synthesis

total synthesis

Diels-Alder Reaction

Aldol Reaction

marine natural products

biomimetic synthesis

Fungal endophytes enhance growth and production of natural products in Echinacea purpurea (Moench.)

Gualandi, Richard James, Jr.

01 August 2010

Echinacea purpurea is a native herbaceous perennial with substantial economic value for its medicinal and ornamental qualities. Arbuscular mycorrhizae are symbiotic fungi that form relationships with plant roots and are known to enhance growth in the host. Mycorrhizae and other fungal endophytes often affect stress resistance and secondary metabolism in the host, as well as the ecology of other endophytes in the plant. A newly emerging paradigm in sustainable biotechnique is the targeted use of fungal endophytes to enhance growth and secondary metabolism in crops. Many of the therapeutic compounds in E. purpurea could be affected by fungal colonization. In this research the effects of inoculation of Echinacea purpurea with two classes of fungal endophytes: the arbuscular mycorrhizal fungi Glomus intraradices and Gigaspora margarita and the entomopathogenic endophyte Beauveria bassiana were evaluated . Endophyte colonization and impacts on plant growth and phytochemistry were tested in multiple greenhouse experiments. Arbuscular mycorrhizae and B. bassiana effectively colonized E. purpurea with some significant interactive effects. Consistent, substantial, and significant increases in all growth parameters were observed in mycorrhizal plants; mycorrhizal plants produced up to four times the biomass of controls in 12 weeks. Broad spectrum changes in fertilization were necessary to produce mycorrhizal and nonmycorrhizal samples of equal size, and severely nutrient-limited mycorrhizal E. purpurea seedlings maintained growth rates comparable to well fertilized samples. Treatment with B. bassiana had minor and inconsistent effects on some plant growth parameters, and there were significant interactive effects with arbuscular mycorrhizae. Phytochemical concentrations in all metabolite classes tested responded significantly to inoculation with both classes of fungal endophytes. Changes were observed in various pigments, caffeic acid derivatives, alkylamides, and terpenes. Many of the affected compounds have important roles in metabolism or have bioactive value as natural products. When considered from a net production perspective (concentration X dry weight), compared to controls, plants inoculated with endophytes produced as much as 30 times the content of some compounds in 12 weeks. This work effectively demonstrates that fungal endophytes can enhance the bioactivity of plant tissues and the production of natural products in E. purpurea.

endophytes

arbuscular mycorrhizae

Beauveria bassiana

phytochemistry

natural products

growth

Biotechnology

Life Sciences

The isolation and characterization of natural products from marine plants and microorganisms /

Krzysiak, Amanda J.

January 2006

Thesis (M.S.)--University of North Carolina at Wilmington, 2006. / Includes appendix pages: [42]-63. Includes bibliographical references (leaves: 39-41)

Joziknipholones A and B : the First Dimeric Phenylanthraquinones, from the Roots of Bulbine frutescens

Bringmann, Gerhard, Mutanyatta-Comar, Joan, Maksimenka, Katja, Wanjohi, John M., Heydenreich, Matthias, Brun, Reto, Müller, Werner E. G., Peter, Martin, Midiwo, Jacob O., Yenesew, Abi

January 2008

From the roots of the African plant Bulbine frutescens (Asphodelaceae), two unprecedented novel dimeric phenylanthraquinones, named joziknipholones A and B, possessing axial and centrochirality, were isolated, together with six known compounds. Structural elucidation of the new metabolites was achieved by spectroscopic and chiroptical methods, by reductive cleavage of the central bond between the monomeric phenylanthraquinone and -anthrone portions with sodium dithionite, and by quantum chemical CD calculations. Based on the recently revised absolute axial configuration of the parent phenylanthraquinones, knipholone and knipholone anthrone, the new dimers were attributed to possess the P-configuration (i.e., with the acetyl portions below the anthraquinone plane) at both axes in the case of joziknipholone A, whereas in joziknipholone B, the knipholone part was found to be M-configured. Joziknipholones A and B are active against the chloroquine resistant strain K1 of the malaria pathogen, Plasmodium falciparum, and show moderate activity against murine leukemic lymphoma L5178y cells.

antimalarial activity

chirality

joziknipholones

natural products

structure elucidation

Chemistry and allied sciences

Synthesis and characterization of surfactants based on natural products

Piispanen, Peter

January 2002

No description available.

surfactants

surface properties

natural products

melting point

wetting

foaming

dispersion

emulsification

solubility

Study on the Natural Products from Two Formosan Soft Corals Lobophytum crassum and Dendronephthya griffini and the Chemical Modifications of Lobohedleolide

Chao, Chih-Hua

25 August 2007

Marine invertebrate have been found to be a rich source of bioactive secondary metabolites. During the course of our investigation on the bioactive chemical constituents from marine invertebrates, twenty-eight metabolites have been isolated from two soft coral Lobophytum crassum and Dendronephthya griffini. Investigation on L. crassum has led to the isolation of fourteen compounds, including seven new cembranoids, crassumolides A¡VG (1¡V7), and three new glycolipids (2R)-1-hydroxy -3-hexadecyloxy-propyl-£]-D-arabinopyranoside (8), (2R)-1-hydroxy-3- octadecyloxy-propyl-£]-D-arabinopyranoside (9), and (2R)-1-acetoxy-3- hexadecyloxy-propyl-£]-D-arabino-pyranoside (10), coupled with four known compounds, lobohedleolide (11), 17-dimethylaminolobohedleolide (12), sinulariol A (13), and denticulatolide (14). Ten new steroids, griffinisterones A¡VJ (15¡V24), were isolated from the soft coral D. griffini, while a known, 15-chlorogriffinsulfate (25), and three new polychlorinated acyclic compounds¡Agriffinsulfate (26), 15-chlorogriffinol (27), and griffinol (28), were also purified from the same organism. Structures of these metabolites were identified as new natural products by extensive spectroscopic methods. Except for the use of 2D NMR, the 24-epimers of 15 and 16 were identified by a single-crystal X-ray crystallography on 15. Lobohedleolide (11), obtained in large quantity in L. crassum, has also been modified to 29¡V34 by chemical conversion. Oxidation with meta-chloro-peroxybenzoic acid (MCPBA) afforded compounds 29 and 30, and with selenium dioxide led to the formation of 31. Compound 34 is the product of O-coupling reaction of 11 with 1-hydroxybenzotriazole (HOBt). Over 99¢Mdiastereoselectivity was observed in the process of Henbest hydroxyl-directed epoxidation on 11 to yield 32. EDC-coupling with an aid of HCl salt of DMAP afforded methylester 33 in high yield, and proved the absolute stereochemistry of 3. The cytotoxicity and anti-inflammatory activities of the natural and modified compounds were also discussed herein.

soft coral

Modification

Lobophytum crassum

Dendronephthya griffini

Natural Products

Lobohedleolide

MCPBA

PGME

Novel oxylipins and heterocycles from the Rhodophyta and Cyanophyta

Jiang, Zhi-dong

07 May 1992

Graduation date: 1992

Marine algae -- Therapeutic use

Red algae -- Therapeutic use

Eicosanoic acid -- Derivatives

Natural products

Screening of natural products and Alkylating agents for Antineoplastic Activity

Kanyanda, Stonard Sofiel Elisa

January 2007

<p>Background and objectives: Apoptosis is a process in which a cell programmes its own death. It is a highly organized physiological mechanism in which injured or damaged cells are destroyed. Apart from physiological stimuli however, exogenous factors can induce apoptosis. Many anti-cancer drugs work by activating apoptosis in cancer cells. Natural substances have been found to have the ability to induce apoptosis in various tumour cells and these substances have been used as templates for the construction of&nbsp / novel lead compounds in anticancer treatment. On the other hand, alkylating agents such as cisplatin, cis- [PtCl2 (NH3) 2] have been widely used as antineoplastic agents for a&nbsp / wide variety of cancers including testicular, ovarian, neck and head cancers, amongst others. However, the use of cisplatin as an anticancer agent is limited due to toxicity and resistance problems. The aim of this present study was to screen the leaves of Rhus laevigata, a South African indigenous plant, for the presence of pro-apoptotic and&nbsp / anti-proliferative natural compounds and also to screen newly synthesised palladium based complexes (15 and 57) and a platinum based complex (58) for their antineoplastic&nbsp / activities tested against a panel of cell lines. Results. The results showed that crude methanol extracts from Rhus laevigata as well as the newly synthesised palladium based complexes (15 and 57) and a platinum based complex (58) induced apoptosis in the cell lines tested, as demonstrated by the externalization of phosphatidylserine, mitochondrial membrane permeabilization,caspase-3 activation, and DNA fragmentation. Caski (cervical cancer) and H157 (non small cell lung carcinoma) cell lines treated with the methanol extract from Rhus laevigata however, were more resistant to apoptosis induction. Among the metallocomplexes, complexes 15 and 57, palladium based complexes, were the most active. Conclusion: The methanol extract from the leaves of Rhus laevigata contain pro-apoptotic and antiproliferative natural compound(s), which need to be characterised and elucidated as they could provide the much-needed lead compounds in the fight against cancer. On the other hand the newly synthesized palladium complexes also need further evaluation to&nbsp / see if they can be used as anticancer agents that can overcome the problems associated with cisplatin.</p>

Exploring new gold-catalyzed cyclization reactions of 1,5-enynes and development of an intermolecular phenol synthesis

Huguet i Subiela, Núria

08 March 2013

Las sales de oro se han convertido en uno de los catalizadores por excelencia en una gran variedad de transformaciones orgánicas mediante la activación selectiva de alquinos, alenos y alquenos. Parte del trabajo de esta tesis doctoral se ha centrado en el estudio de la naturaleza carbénica o carbocatiónica de los intermedios de reacción presentes en las cicloisomerizaciones de 1,5-eninos catalizadas por complejos de oro. De esta forma se han desarrollado distintas metodologías de ciclación dando lugar a diferentes productos tricíclicos a partir de oxo-1,5-eninos o 1,5-bencileninos. Además, se ha podido aplicar estas nuevas metodologías de ciclación en la síntesis de productos naturales como etapa clave de la misma. Por último, nuestro interés se ha centrado en el desarrollo de reacciones intermoleculares de gran utilizad química catalizadas por oro. Por ello hemos desarrollado la síntesis de fenoles substituidos a partir de diferentes acetilenos y furanos. / Gold salts and complexes are the most active catalysts for the activation of alkynes, allenes and alkenes. Part of this Doctoral Thesis is focused on the study of the carbenic or cationic character of the reaction intermediates presents in the cycloisomerizations of 1,5-enynes catalyzed by goldcomplexes. Different methodologies have been developed to synthesize different tryciclic products from oxo-1,5-enynes or 1,5-benzylenynes. Moreover, these methodologies were applied successfully as the key step in the synthesis of natural products. Finally, our interest was focused on the development of intermolecular gold-catalyzed reactions. Therefore, we have developed a general synthesis of trisubstituted phenols from alkynes and furans.

Gold catalysis

Cyclization

1,5-enynes

Reaction mechanism

Intermolecular

Natural products

54

547

Application of Diels-Alder reactions of 2-(N-acylamino)-1,3-dienes toward the total synthesis of stenine

Boren, Brant Clayton

17 February 2005

Natural products continue to influence society at large as many drugs are of natural product origin. Consequently, the development and study of new chemical reactions that lead to the efficient preparation of natural products is a central goal in organic chemistry today. To this end, we have investigated the reactivity and stereoselectivity of cyclic 2-(N-acylamino)-1,3-dienes toward a total synthesis of stenine. Chapter I describes the isolation and characterization of stenine, in addition to comparing five published total syntheses of stenine. Chapter II discusses synthetic and theoretical investigations of cyclic 2-(Nacylamino)- 1,3-dienes. We have shown that vinylazepenes react with Nphenylmaleimide to afford exo cycloadducts exclusively. Previous studies of vinylpiperidenes revealed a preference for endo selectivity. We confirmed the contrasting stereoselectivity by X-ray analysis of compounds i and ii. The stereoselectivity of vinylazepenes, vinylcycloalkenes, and vinyl piperidenes in Diels-Alder reactions varies depending on the detailed structure of the diene. In collaboration with Dr. Daniel Singleton and Jennifer Hirschi, DFT calculations were utilized to study model reactions of these dienes to provide insight into controlling the stereochemistry of this class of Diels-Alder reactions. Chapter III describes the synthesis of compounds such as iv and v that were utilized in intra and intermolecular Diels-Alder approaches toward the synthesis of stenine. We demonstrated that intermediate viii could be constructed from vinyl stannane vii in ten steps via an intermolecular Diels-Alder reaction of v and dimethyl fumarate (vi). Finally, we propose a synthetic plan for the completion of stenine from advanced intermediate viii.

Diels-Alder

2-(acylamino)-1

3-dienes

natural products

Stemona

vinylazepenes

stenine