Avaliação das atividades biológicas e composição química dos extratos de algas vermelhas do gênero Laurencia (Rhodomelaceae, Ceramiales) do litoral do Espírito Santo, Brasil / Evaluation of biological activities and chemical composition in extracts of red algae Laurencia (Rhodomelaceae, Ceramiales) from the coast os Espírito Santo, Brazil

Stein, Erika Mattos

21 June 2011

As algas vermelhas, filo Rhodophyta, representam uma das maiores e mais antigas linhagens de organismos eucarióticos. Dentre as Rhodophyta, o gênero Laurencia J.V. Lamouroux (Ceramiales) é um dos mais completos do ponto de vista químico, pois consiste no maior produtor de metabólitos secundários e assim, destaca-se como uma fonte fascinante de novos produtos naturais, biologicamente ativos. Desta forma, o objetivo do presente trabalho foi avaliar o potencial farmacológico dos extratos das espécies de Laurencia frente às atividades biológicas, assim como a análise da composição bioquímica e identificação de seus constituintes químicos. As espécies utilizadas foram L. aldingensis (LA), L. catarinensis (LC), L. dendroidea (LD), L.intricata (LI). Adicionalmente L. translúcida (LT), Palisada flagellifera (PF), P.perforata (PP) e uma variante pigmentar de LD (LDV) foram utilizadas para comparação. Para o desenvolvimento das atividades propostas foram utilizados extratos fracionados obtidos sucessivamente através dos solventes hexano (EH), clorofórmio (EC), metanol (EM), água (EA) e também extrato aquoso bruto (EAB). A análise de proteínas foi feita com os métodos de Bradford, Ácido bicinconínico (BCA) e absorção na luz UV a 280 nm. Destes, o método de Bradford mostrou-se o mais adequado Na dosagem de ficobilinas, a ficoeritrina se apresentou em maior quantidade em todas as espécies testadas em relação à ficocianina e aloficocianina. O ensaio para avaliação da atividade antimicrobiana usando vários patógenos foi feito por microdiluição em placa seguindo a NCCLS e as concentrações inibitórias mínimas (CIM) foram obtidas espectrofotometricamente. Em bactérias, LA-EH foi bactericida contra P. aeruginosa a uma concentração de 62,8 μg.mL-1 e os extratos LA-EM e LC-EH tiveram uma ação bacteriostática forte contra S. pneumoniae nas concentrações de 51,1 e 85,1 μg.mL-1, respectivamente. No ensaio antifúngico, LA-EH e LA-EC foram fungicidas contra C.parapsilosis a 49,0 e 57,8 μg.mL-1, respectivamente. O ensaio antioxidante foi feito usando-se o método com DPPH, em que os EC apresentaram-se como os melhores extratos possuidores de moléculas capazes de doar prótons. Para o teste anticolinesterásico foi feito o ensaio qualitativo em CCD e ensaio quantitativo em microplaca pelo método de Ellman que puderam demonstrar a atividade inibidora da AChE sendo menor que 50 % , mesmo para concentrações de 600 μg.mL-1. O perfil foi muito semelhante em todos os extratos testados no qual os EH e EC foram os mais ativos e os EM possivelmente deram um falso positivo, enquanto os extratos EA e EAB tiveram atividades baixas. No ensaio contra o fitopatógeno causador da antracnose no mamão, Colletotrichum gloesporioides, os resultados mostram que LC-EH e LD-EH são os mais ativos, com IC50 de 70 e 40 μg.mL-1, respectivamente. Para o ensaio citotóxico contra células de mamíferos está sendo desenvolvido um modelo em que se utilizam células MES-SA e sua correspondente mutante (MES-SA/Dx5) multiresistente a drogas. O modelo proposto é bastante promissor e, do screening inicial sugere-se uma investigação mais detalhada em LD-EH e LT-EH cujos IC50 foram de 91 μg.mL-1 e 16 μg.mL-1, respectivamente, contra MES-SA. Uma investigação química de cada uma das frações dos extratos das espécies LA, LC, LD e LI foi realizada utilizando-se o CG-EM. Para identificação das substâncias foi utilizada a biblioteca do equipamento e literatura disponível através da comparação dos espectros de massas, tempo de retenção e Índice de Kovat´s. Os resultados obtidos neste estudo apresentaram potencial que justifica dar continuidade na busca de novas moléculas ou grupo de moléculas capazes de serem usadas em terapias sem a toxidez das substâncias sintetizadas quimicamente. / The Red Algae, phylum Rhodophyta, represent one of the largest and oldest lineages of eukaryotic organism. From the chemical standpoint, the Laurencia J.V. Lamouroux (Ceramiales) has been identified as one of the most complete and diverse genus within this specific group. The members of this genus have been identified, for instance, as the largest producers of secondary metabolites known to the Rhodophyta. Thus, it is not surprising that these specific species are currently under intense scrutiny with regard to their potential as new sources of natural products for medical and biotechnological applications. The primary aim of this study is to start a systematic investigation on the identification and characterization of novel Laurencia natural products showing desirable pharmacological and biomedical properties. The species used in this research are L. aldingensis (LA), L. catarinensis (LC), L. dendroidea(LD), L. intricate (LI). In addition, L. translucida (LT), Palisada flagellifera(PF), P.perforata (PP) and a pigment variant of LD (LDV) were included for comparison. Specifically, algal extracts were obtained through the sequential fractionation of dried algae samples with hexane (EH), chloroform (EC), methanol (EM), water (EA), and a single, crude, aqueous extracts (EAB). Protein content was performed using the Bradford, bicinchoninic acid assay (BCA) and the 280 nm uv quantification methods. The Bradford method was identified to be more appropriate for quantification. The analysis of phycobilins revealed that phycoerythrin was the major pigment in all species tested. Extracts were assayed for antimicrobial activity following the NCCLS microdilution tests and the minimum inhibitory concentration (MICs) obtained spectrophotometrically. Antimicrobial activity was explored using a variety of model biological targets (i.e. pathogens). To this end, microdilutions were used following the classical NCCLS and a minimal inhibitory concentration (MIC) protocol was performed on basis of electronic spectroscopy measurements. With respect to our findings on antibacterial activity, the LA-EH extract was bactericidal against the P. aeruginosa concentration of 62.8 μg.mL-1 extracts and LA-EM and LC-EH had a strong bacteriostatic action against S. pneumoniae at concentrations of 51.1 and 85,1 μg.mL-1, respectively. In the antifungal assay, LA-EH and LA-EC were fungicides against C. parapsilosis to 49.0 and 57.8 μg.mL-1, respectively. The antioxidant assay was tested using the method with DPPH, in which the EC presented them as possessing the finest extracts of molecules capable of donating protons. And for the anticholinesterase test was done in the qualitative assay and quantitative assay on TLC plate by the Ellman method that could demonstrate the inhibitory activity of AChE less than 50 % for concentrations of 600 μg.mL-1. The profile was similar for all extracts in which the EH and EC were the most active and possibly EM gave a false positive, while the EA and EAB extracts had very low activity. In the trial against the pathogen Colletotrichum Gloesporioides that causes papaya anthracnose the results show that LC-EH and LD-EH are the most active with IC50 of 70 and 40 μg.mL-1, respectively. To perform the cytotoxicity assay against mammalian cells a model that is under development was proposed in which use cells MES-SA and its corresponding mutant (MES-SA/Dx5) multi-drug resistant. The proposed model is quite promising and the initial screening we propose a more detailed investigation of LD-EH and LT-EH whose IC50 were 91 μg.mL-1 and 16 μg.mL-1, respectively, against MES-SA cells. The LA, LC, LD and LI extract compounds were analyzed by GC-MS and the identification was performed using the library data and literature by comparing the mass spectra, retention time and index Kovat\'s. The study conducted here is likely to draw directions and help in the search for new molecules or group of molecules capable of being used in therapy without the toxicity of chemically synthesized compounds.

Atividades biológicas

Biological activities

Laurencia

Laurencia

Metabólitos secundários

Rhodophyta

Rhodophyta

Secondary metabolites

Biologicky aktivní metabolity významných zástupců rodu Magnolia / Bioactive metabolites of representative members in the genus Magnolia

Lakatošová, Ivana

January 2019

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Botany Candidate: Ivana Lakatošová Supervisor: PharmDr. Anna Hošťálková, Ph.D. Title of Master's thesis: Bioactive metabolites of representative members in the genus Magnolia 2019, 72 p. Key words: Magnolia, secondary metabolites, traditional medicine, CNS bioactivity The aim of this Master's thesis was to summarise current knowledge of significant secondary metabolites of species Magnolia officinalis and Magnolia obovata, and their biological activity. Botanical features of genus Magnolia were defined and described, followed by the classification of bioactive compounds isolated from species Magnolia officinalis and Magnolia obovata. The Master's thesis focused predominantly on the effects of biphenol compounds of magnolol and honokiol, which have been subjected to many studies. The main attention was given to the immunosuppressive effect and pharmacologic effects on the nervous system. Essential oils were observed to have an anti-inflammatory and a myorelaxant effect. Alkaloids and neolignans, which had been known to relax spasms of skeletal muscles, expressed neuroprotective activity. Neolignans were shown to have the inhibitory effect on bacteria, viruses and pathogenic fungi. They also proved themselves to be...

Chemical investigations of secondary metabolites from selected fungi and from peanut seeds challenged by Aspergillus caelatus

Neff, Scott Andrew

01 December 2011

Many years of study have revealed that fungi are excellent sources of novel bioactive secondary metabolites. Some of these secondary metabolites possess therapeutic qualities that improve the quality of life for millions of people. Such metabolites include well known classes such as the penicillins, cephalosporins, and statins, yet many fungi remain underexplored as sources of biologically active metabolites. The research described in this thesis employs an ecology-based approach to targeting fungi for chemical investigation, and describes studies of fungi from two niche groups, fungicolous/mycoparasitic and endophytic fungi, as possible sources of new secondary metabolites with biological activities. In a parallel project, the structures of bioactive compounds isolated from peanut seeds that had been subjected to fungal attack were elucidated in the pursuit of compounds with beneficial bioactivities. Mycoparasitic fungi are those that colonize other fungi by parasitizing the host, often leading to damage to the host fungus. Fungicolous fungi are those that colonize other fungi, but have not been proven to be true mycoparasites. The damage often caused by colonization of host fungi indicates that mycoparasitic and fungicolous fungi can produce antifungal compounds. Chemical investigations of such fungi described in this thesis afforded 37 compounds of various biosynthetic types, seven of which were new. Many of these compounds show antifungal, antimicrobial, and/or cytotoxic effects. Endophytic fungi live asymptomatically within plant tissues and in some cases may provide benefits to the host plant through the production of secondary metabolites. Chemical investigations of corn, wheat, and sorghum endophytes led to the isolation and characterization of 21 compounds, seven of which were new. Many of the endophyte metabolites encountered in this work showed antifungal, antimicrobial, and/or cytotoxic effects. The compounds isolated from peanut seeds were produced in response to fungal attack by an Aspergillus caelatus strain. All of these compounds were stilbene-derived phytoalexins, which are considered to be inducible chemical defenses whose production is elicited or enhanced upon microbial attack. Further studies of these newly identified compounds and their production could lead a a better understanding of how the plant defends itself. Such knowledge could enable researchers to manipulate this mechanism to obtain greater peanut resistance to invasion by pests. Additionally, the health benefits from related stilbene-derived compounds (e.g. resveratrol) from peanuts and other plants have been widely established. Knowledge about the presence of compounds of this type could add to the importance of peanut crop production. The compounds identified in this work were isolated using multiple chromatographic techniques, and the structures were established based on analysis of 1D and 2D NMR data combined with MS, chemical derivatizations, and/or optical measurement data. Absolute configuration assignments were achieved by application of Mosher's Method, CD spectral analysis, and/or chemical derivatizations. Details of the isolation, structure elucidation, and biological activity of these compounds are presented in this thesis.

Arachis hypogaea

Endophytic

Fungi

Fungicolous/Mycoparasitic

Natural Products

Secondary Metabolites

Chemistry

The Effects of <em>Labyrinthula sp.</em> Infection, Salinity, and Light on the Production of Phenolic Compounds in <em>Thalassia testudinum</em>

Sneed, Jennifer M

18 July 2005

In the fall of 1987, several areas of Florida Bay were severely affected by the sudden die-off of the seagrass Thalassia testudinum Banks ex Konig (turtle grass). Although the cause is still unknown, several factors were suggested as influencing the on-set of the die-off event including increased salinity, light stress due to self-shading, and disease. Blades of seagrass plants found in the area of die-off were infected by Labyrinthula sp, a pathogenic protist. A similar die-off occurred in another species of seagrass, Zostera marina, in the 1930s that was attributed to the pathogenic protist, Labyrinthula zosterae. Zostera marina produces inhibitory phenolic acids in response to infection by L. zosterae, a response that is diminished in plants exposed to low light and high temperature. This study examined the differences in phenolic content of healthy and infected T. testudinum leaf blades in laboratory cultures to determine if T. testudinum produces a chemical defense against pathogens similar to that of Z. marina. The possible increased susceptibility of turtle grass to Labyrinthula sp. infection under high salinity and low light was also examined. In culture, infection by Labyrinthula sp. induced a rapid, short-term production of total phenolics in Thalassia testudinum under normal, non-stressed conditions. The initial induction was followed by a sharp decline. The production of individual phenolic acids was not induced by infection. In contrast, the production of caffeic acid was inhibited by infection. Environmental stress (low salinity and low light) caused a decrease in both total phenolics and several phenolic acids. Levels of PHBA, vanillic acid, and caffeic acid decreased in low salinity (25ppt) treatments, and caffeic acid decreased in response to low light stress. There was an interaction between stress and infection that resulted in higher levels of phenolics in plants exposed to infection and stress compared to those exposed to stress alone. In culture, plants did not survive exposure to high salinity (45ppt) similar to that found in Florida Bay during the die-off event

Plant stress

Seagrass die-off

Secondary metabolites

Induction

Chemical defense

American Studies

Arts and Humanities

Effet de différents paramètres de l'environnement sur le déterminisme biochimique d'exudats racinaires de crotalaria spp. : application à la nématorégulation en production végétale / Effect of different environmental parameters on the biochemical determinism of root exudates Crotalaria spp. : Application to crop production nématorégulation

L'Etang, Mylène

03 December 2012

Dans le cadre de la promotion de systèmes de culture alternatifs à moindres intrants chimiques, des études sur l'introduction de plantes de service ayant vocation à réduire l'usage des pesticides et engrais azotés mobilisent un effort de recherche considérable. Dans le cadre de la production bananière pour laquelle la nuisibilité causée par les nématodes phytoparasites constitue l'une des principales contraintes, une des principales alternatives à l'utilisation de nématicides chimiques repose sur l'usage raisonné en rotation ou en association culturale de plantes de service à propriétés nématorégulatrices. Parmi les espèces candidates, celles du genre Crota/aria spp. ont largement été étudiées en raison de leur aptitude à contrôler les nématodes phytoparasites. Une méta-analyse révèle cependant que même si de nombreux auteurs s'accordent à reconnaître les propriétés allélopathiques des plantes de cette espèce, ils sont également enclins à reconnaître la forte variabilité d'expression de ces propriétés vis-à-vis du contrôle des nématodes selon les situations expérimentées. L'objectif de ce travail repose sur la compréhension du déterminisme biochimique des exsudats. La stratégie expérimentale mise en oeuvre a consisté à tester en conditions contrôlées le comportement biochimique des exsudats racinaires de deux espèces de crotalaires (C retusa, C spectabilis) et d'une espèce sensible, le bananier dessert (Musa spp.) en fonction i) de conditions biotiques variées -i.e. présence ou non de nématodes (Radopholus similis et Meloidogyne arenariaï, et présence ou non de mycorhizes-, ii) de conditions abiotiques contrastées -i.e. utilisation d'un sol naturel vs. substrat neutre, ajout ou non d'engrais chimique. La méthodologie innovante des «plantes à traire » (Brevet INRA) a été requise pour pouvoir travailler sur les exsudats racinaires des plantes conditionnées plutôt que sur des Iixiviats, comme réalisé dans des expérimentations antérieures.Les résultats obtenus en spectrophométrie visible montrent que la modification des conditions abiotiques affecte de manière importante les profils biochimiques des plantes étudiées. En présence du nématode 1..·1. arenaria les profils biochimiques des deux crotalaires sont également modifiés. Des biotests réalisés à l'aide des exsudats racinaires conditionnés au préalable par les modifications biotiques ont permis de démontrer l'effet nématostatique des crotalaires. Des analyses biochimiques en Ge-MS mettent en évidence de manière plus précise des molécules actives mises en jeu sous différentes modalités biotiques et abiotiques. Ces recherches, de portée générique, permettront de mieux comprendre les conditions de l'environnement qui régulent les profils biochimiques des exsudats racinaires des crotalaires et par extension, seront applicables aux recherches menées sur d'autres plantes de service candidates. Ceci aidera, à terme, à définir les conditions environnementales à réunir, pour orienter de manière optimale les effets allélopathiques dans une perspective de nématorégulation naturelle / As part of the promotion of alternative cropping systems at lower chemical inputs, studies on the introduction of cover crops designed to reduce the use of pesticides and nitrogen fertilizers mobilize a considerable research effort. Under banana production for which the hannfu1ness caused by plant-parasitic-nematodes is one ofthe main constraints, one of the main alternatives to the use ofchemical nematicides is based on the rational use in rotation or intercropping of cover rI crops to proteet crops from plant-parasitic-nematodes, Among the candidate species, the species from the genus of Crota/aria spp. have been widely studied because of their ability to control plant parasitic-nematodes. A meta-analysis reveals that although many authors agree allelopathic properties of these species, they are also likely to recognize the high variability of expression of these properties vis-àvis the control of nematodes according to the situations experieaced.. The objective of this woIk is focnsed on the onderstanding of the biochemical determinism of mot exudates onder environment biotic and abiotic variations. The experimental strategy was 10 test onder controlled conditions the biochemical behavior of mot exudates of two species of crotalarias (C retusa, C. spectabilis) and a susceptible species, the dessert banana crop (Musa spp.) with i) modification ofbiotic conditions -ie presence or absence of nematodes iMeloidogyne arenaria and Radopho/us similis), and presence or absence of mycorrhiza-ii) contrasting abiotic conditions -ie using a natural soil vs. neutral substrate, whether to add fertilizer. The innovative methodology of "milking plants" (patent INRA) was required in order to work on the root exudates of plants packed rather thanleachate, as done in previous experiments. The results obtained show that 'visible spectrophotometry changing abiotic conditions affect significantly the biochemical profiles of the studied plants. In the presence of nematode M. arenaria biochemical profiles of both crotalarias are also changed. Bioassays conducted using mot exudates conditioned in advance by biotic changes have demonstrated the effect of nématostatique crotalarias. Biochemical Ge-MS demonstrate more clearly active molecules that are involved in varions biotic and abiotic conditions. This research, generic scope, to better understand the environmental conditions that regulate biochemical profiles of mot exudates crotalarias and by extension, will apply to research on other plants service candidates. This will ultimately define the environmental conditions to meet, to guide optimal allelopathic effects from the perspective ofnatural nématorégulation

Allélopathie

Crotalaria spp.

Nématodes

Métabolites secondaires

Allelopathy

Crotalaria spp.

Nematodes

Secondary metabolites compounds

Studies of New Zealand Marine Organisms

Till, Marisa

January 2007

The chemical study of three New Zealand marine organisms is described, along with a survey of the chemistry and biological activity of eighty-five marine organisms collected from New Zealand waters. The study of the New Zealand marine bryozoan Pterocella vesiculosa has resulted in the isolation of three new compounds; pterocellin H, pterocellin I and 1-methyl-5-bromo-8-methoxy-β-carboline. These compounds were characterised using high resolution mass spectrometry, one- and two-dimensional nuclear magnetic resonance spectroscopy and X-ray crystallography. The biological activity of these compounds was investigated and a discussion of the results including a comparison with the activity of closely related compounds is also presented. The crude extracts of eighty-five marine organisms were surveyed to establish their biological activity and chemical constituents. The results of this study indicated which species had interesting biological activity. The chemical survey allowed geographical and intra-species comparisons of chemical constituents between samples, as well as potentially indicating the presence of known secondary metabolites. For the Pterocella vesiculosa samples the survey methodology clearly illustrated the presence of pterocellins A and B. Two marine organisms were chosen for further investigation based on their biological activity and chemical survey results. Bioactivity directed isolation procedures yielded no new compounds from the organisms. The sterol composition of these species is also presented.

Natural products

marine organisms

bryozoan

pterocellin

pterocella vesiculosa

alkaloids

beta-carboline

secondary metabolites

Cytotoxic Alkaloids from Australian Marine Sponges

Mohamed El-naggar

Unknown Date

Australia's marine environment covers extended areas, from the warm northern tropical, to the sub tropical central water, the cool temperate water of the south and the cold sub-Antarctic and Antarctic water. Australia has rich area of coral reefs. The marine biodiversity in Australia is enormous. Despite incredible biodiversity, Australian research in the marine anticancer drug discoveries is low in comparison with other countries. In this research we investigated a collection of marine sponges as a source for new anticancer leads. This thesis comprises six chapters. Chapter 1 covers the importance of natural products as a source of new drugs, and an introduction to cancer as a disease, chemotherapy in cancer treatments, and the natural products as a source for anticancer drugs. Also, the basic anticancer drug development process is highlighted. Finally, a thorough review of anticancer alkaloids isolated from marine sponges is presented. Chapter 2 presents the chemical investigation into a southern Australian marine sponge Stelletta sp., which led to the isolation and structure elucidation of bistellettazines A-C the first reported examples of terpenyl-pyrrolizidines conjugate, and bistellettazole A, a unique cyclic terpenyl-imidazole conjugate. Bistellettazines A-C and bistellettazole A feature unprecedented carbon skeletons that are proposed to share a common convergent biosynthetic origin, arising via the biogenic equivalent of a Diels-Alder addition between two hypothetical polyenyl norsesquiterpene precursors. The cytotoxic activity (in vitro) for these new alkaloids is also discussed. Chapter 3 discusses the isolation and structure elucidation of four new discorhabdins analogues namely, dihydrodiscorhabdin A, debromodiscorhabdin A, discorhabdin X and dihydrodiscorhabdin L. In addition, the known compounds discorhabdin A and discorhabdin D, were isolated from two southern Australian marine sponge specimens of the genera Higginsia and Spongosorites. The cytotoxic activity (in vitro) for these new alkaloids was also discussed. Chapter 4 discloses chemical investigation into two southern Australian marine sponge specimens of the genera Clathria and Ptilocaulis. Four new mirabilin analogues (mirabilins H-K) were isolated and characterized along with known mirabilin C, F (for the first time as TFA salt) and mirabilin G. The cytotoxic activity (in vitro) for these new alkaloids was also discussed. Chapter 5 presents the 1H NMR data for the known compounds isolated during this study, and Chapter 6 is covering the experimental part.

06 Biological Sciences

Bioactive Compounds from the Marine Sponge <i>Geodia barretti</i> : Characterization, Antifouling Activity and Molecular Targets

Sjögren, Martin

January 2006

<p>The marine sponge <i>Geodia barretti</i> produces a range of secondary metabolites. Two of these compounds were isolated and elucidated guided by their ability to inhibit settlement of cypris larvae of the barnacle <i>Balanus improvisus</i>. The compounds barettin (cyclo-[(6-bromo-8-en-tryptophan)-arginine]) as E/Z mixture and 8,9-dihydrobarettin (cyclo-[6-bromo-tryptophan)-arginine]) were determined by using mass spectrometry, nuclear magnetic resonance and quantitative amino acid analysis.The bioactivity of these brominated dipeptides is in the range of antifouling substances used today: EC₅₀ values of 0.9 µM (barettin) and 7.9 µM (8,9-dihydrobarettin). The compounds were successfully synthesised and then tested in a field experiment to evaluate their antifouling properties. The compounds were incorporated in four different commerical, non-toxic marine coatings. The concentrations of the compounds were 0.1 and 0.01% (w/w) and coated panels were exposed to field conditions for eight weeks. The experiment evaluated the effect of barettin and 8,9-dihydrobarettin on recruitment of the barnacle <i>B. improvisus</i> and the blue mussel <i>Mytilus edulis</i> (major Swedish foulers). The most efficient paint was a SPC polymer, for which the reduction of recruitment of <i>B. improvisus</i> was 89% with barettin (0.1%) and 61% with 8,9-dihydrobarettin (0.1%). For <i>M. edulis</i> the reduction of recruitment was 81% with barettin (0.1%) and 72% with 8,9-dihydrobarettin (0.1%) with the same SPC paint. Furthermore, 14 analogs of barettin and dipodazine were synthesised and tested for their ability to inhibit larval settlement. Two of the analogs have a barettin scaffold and twelve have a dipodazine scaffold. Six of the analogs displayed significant settlement inhibition with the most potent inhibitor being benzo[g]dipodazine (EC₅₀ value 0.034 µM). The effect of benzo[g]dipodazine was also shown to be reversible. Finally, an investigation of the mode of action was performed on 5-HT receptors. Barettin demonstrated a specific affinity to 5-HT_2A, 5-HT_2C and 5-HT₄, while 8,9-dihydrobarettin interacted only with 5-HT_2C of the receptor subtypes tested (5-HT₁-5-HT₇).</p>

Pharmacognosy

Geodia barretti

barettin

secondary metabolites

settling inhibition

Balanus improvisus

analogs

5-HT

Farmakognosi

Der Einfluß des primären Stickstoffstoffwechsels auf den Aminosäure- und Sekundärstoffwechsel in Nicotiana tabacum L. / The impact of primary nitrogen metabolism on amino acid and secondary metabolism in Nicotiana tabacum L.

Fritz, Christina

January 2006

Es ist bekannt, dass Änderungen im Kohlenstoff- bzw. Stickstoffstaus der Pflanzen zu einer parallelen statt reziproken Änderung der kohlenstoff- und stickstoffhaltigen Primärmetabolite führen. Unter diesem Gesichtspunkt wurden in der vorliegenden Arbeit der Aminosäurestoffwechsel und der Sekundärstoffwechsel unter reduzierten Stickstoffbedingungen untersucht. Zur Beeinflussung des Stickstoffstoffwechsels wurden nitratmangelernährte Tabakwildtyppflanzen und Genotypen mit unterschiedlich stark reduzierter Nitratreduktase-Aktivität verwendet. Dieses experimentelle System erlaubt zusätzlich durch den Vergleich Nitrat defizienter Wildtyppflanzen mit Nitrat akkumulierenden NIA-Transformanten Prozesse zu identifizieren, die durch Nitrat gesteuert werden. Die Analysen der Primär- und Sekundärmetabolite wurde in allen Genotypen diurnal durchgeführt, um auch tageszeitlich abhängige Prozesse zu identifizieren. Die Analyse der absoluten Gehalte aller individuellen Aminosäuren enthüllte bei den meisten erstaunlich stabile diurnale Muster mit einem Anstieg während des Tages und einem Abfall in der Nacht in Wildtyppflanzen gewachsen mit ausreichend Nitrat. Dieses Ergebnis legt die Schlussfolgerung nahe, dass die Biosynthese der Aminosäuren koordiniert abläuft. In Pflanzen mit reduziertem Stickstoffstatus haben diese diurnalen Muster jedoch keinen Bestand. Die Kombination des erzeugten stickstoffbasierten Aminosäuredatensatz in Kombination mit einem bereits erzeugten Aminosäuredatensatz unter kohlenstofflimitierten Bedingungen von Matt et al. (2002) führte durch Hauptkomponentenanalyse (PCA) und Korrelationsanalyse zu dem Ergebnis, dass die Hypothese nach einer koordinierten Aminosäurebiosynthese nicht allgemeine Gültigkeit hat. Die PCA identifizierte Glutamin, Glutamat, Aspartat, Glycin, Pheny-lalanin und Threonin als Faktoren, die den Datensätzen ihre charakteristische Eigenschaft und deren Varianz verleihen. Die Korrelationsanalyse zeigte, dass die sehr guten Korrelationen der individuellen Aminosäuren untereinander in reduzierten Stickstoff- und Kohlenstoffbedingungen sich verschlechtern. Das Verhältnis einer einzelnen Aminosäure relativ zu den anderen führte zur Identifizierung einiger Aminosäuren, die individuelle Antworten auf Stickstoff- und/oder Kohlenstoffstatus zeigen, und/oder speziell auf Nitrat, Licht und/oder den E-nergiestatus der Thylakoidmembran. Glutamat beispielsweise verhält sich in den meisten Situationen stabil, Phenylalanin dagegen zeigt in jeder physiologischen Situation eine individuelle Antwort. Die Ergebnisse dieser Arbeit führen zu einer Erweiterung der Hypothese einer koordinierten Synthese der Aminosäuren dahingehend, dass diese nicht generell für alle Aminosäuren angenommen werden kann. Es gibt einige Aminosäuren deren, Anteile sich situationsbedingt anpassen. Die Reduktion des Stickstoffstatus in nitratmangelernährten Tabakwildtyppflanzen führte zu der, nach der „Carbon-Nutrient-Balance“ Hypothese erwarteten Verlagerung der kohlenstoffreichen Phenylpropanoide und des stickstoffreichen Nikotins. Die Erhöhung der Phenylpropanoidgehalte war nicht in der Nitrat akkumulierenden NIA-Transformante zu beobachten und somit konnte Nitrat als regulatorisches Element identifiziert werden. Ein Einfluss der Vorläufermetabolite konnte ausgeschlossen werden, da sowohl nitratmangelernährter Wildtyp als auch die Nitrat akkumulierende NIA-Transformante ähnliche Gehalte dieser aufwiesen. Genexpressionsanalysen über Mikroarray-Hybridisierung und quantitative RT-PCR zeigten, dass Nitrat durch noch nicht geklärte Mechanismen Einfluss auf die Expression einiger Gene nimmt, die dem Phenylpropanoidstoffwechsels zugeordnet sind. Aus der Arbeit hervorgegangene Veröffentlichungen: Christina Fritz, Natalia Palacios-Rojas, Regina Feil und Mark Stitt (2006) Regulation of Secondary Metabolism by the Carbon-Nitrogen Status in Tobacco: Nitrate Inhibits Large Sectors of Phenylpropanoid Metabolism. Plant Journal 46, 533 - 548 Christina Fritz, Petra Matt, Cathrin Müller, Regina Feil und Mark Stitt (2006) Impact of the Carbon-Nitrogen Status on the Amino Acid Profile in Tobacco Source Leaves. Plant, Cell and Environment 29 (11), 2009 - 2111 / It is known that changes in carbon and nitrogen status of a plant lead to parallel rather than reciprocal changes of carbon and nitrogen containing primary metabolites. Based on this finding the influence of carbon and nitrogen status on the amino acid profile as well as on secondary metabolism was investigated in tobacco. Manipulations of the nitrogen status were carried out in two ways: Tobacco wild type plants were cultivated in nitrogen-replete and nitrogen starved conditions; in addition nitrate accumulating transformants with reduced nitrate reductase (NIA) activity were used. The comparison of the nitrate starved wild type and the nitrate accumulating NIA-transformant allows to distinguish processes which were driven by the nitrogen status of a plant or by nitrate itself. Due to the fact that most primary metabolites have diurnal changes the analysis of primary and secondary metabolites were done at six different time points per day in order to identify diurnal processes. Analysis of the absolute levels of individual amino acids under normal nitrogen supply conditions reveals characteristic diurnal patterns for the majority of amino acids with an increase during the day and a decrease during the night. This result indicates that amino acid biosynthesis might be coordinated. However these diurnal patterns are no longer stable in plants with reduced nitrogen status; furthermore absolute levels of individual amino acids differed over a wide range of concentrations. The hypothesis of a coordinated regulation of amino acid metabolism was further tested by combining this dataset with an amino acid dataset produced under carbon limited conditions (Matt et al., 2002) and applying Principal Component Analysis (PCA) and correlation analysis. Glutamine, glutamate, aspartate, glycine, phenylalanine and threonine were responsible for the clear separation of the different genotypes and experimental conditions in the PCA plot. The data from the correlation analysis show that most of the minor amino acids have very good correlations under carbon and nitrogen sufficient conditions. These correlations became weaker with decreasing carbon and nitrogen status of the plants. These results clearly indicate that a coordinated biosynthesis of amino acids is not a general phenomenon. Comparing the levels of each individual amino acid to the total amino acid pool revealed specific answers of a particular amino acid to carbon and/or nitrogen status, to nitrate and/or light and to energy status of the thylakoid membrane. Glutamate for instance is remarkably stable in most of the conditions and phenylalanine shows an individual response in every situation. From these results it was concluded that the hypothesis of a coordinated biosynthesis of amino acids might be true for some amino acids, but clearly needs to be extended because some amino acids adjust their levels in an individual fashion depending on the external conditions. The reduction of nitrogen status of nitrate starved wild type plants leads to a shift from carbon-rich phenylpropanoids to nitrogen-rich nicotine as predicted by the “carbon-nutrient-balance hypothesis”. Increased phenylpropanoids were not observed in nitrate accumulating NIA-transformants. Therefore nitrate could be identified as a regulatory element in phenyl-propanoid metabolism. A regulatory influence of precursors could be excluded since nitrate starved wild type and NIA-transformant had similar levels. Genexpression analysis via microarry hybridisation and quantitative RT-PCR shows that nitrate acts a transcriptional regulator of genes involved in phenylpropanoid metabolism. The elucidation of this regulatory role of nitrate requires further investigation.

Nitrat

Aminosäuren

sekundäre Pflanzenstoffe

Stickstoff

Tabak

nitrate

amino acids

plant secondary metabolites

nitrogen

tobacco

Life sciences

Bioactive Compounds from the Marine Sponge Geodia barretti : Characterization, Antifouling Activity and Molecular Targets

Sjögren, Martin

January 2006

The marine sponge Geodia barretti produces a range of secondary metabolites. Two of these compounds were isolated and elucidated guided by their ability to inhibit settlement of cypris larvae of the barnacle Balanus improvisus. The compounds barettin (cyclo-[(6-bromo-8-en-tryptophan)-arginine]) as E/Z mixture and 8,9-dihydrobarettin (cyclo-[6-bromo-tryptophan)-arginine]) were determined by using mass spectrometry, nuclear magnetic resonance and quantitative amino acid analysis.The bioactivity of these brominated dipeptides is in the range of antifouling substances used today: EC50 values of 0.9 µM (barettin) and 7.9 µM (8,9-dihydrobarettin). The compounds were successfully synthesised and then tested in a field experiment to evaluate their antifouling properties. The compounds were incorporated in four different commerical, non-toxic marine coatings. The concentrations of the compounds were 0.1 and 0.01% (w/w) and coated panels were exposed to field conditions for eight weeks. The experiment evaluated the effect of barettin and 8,9-dihydrobarettin on recruitment of the barnacle B. improvisus and the blue mussel Mytilus edulis (major Swedish foulers). The most efficient paint was a SPC polymer, for which the reduction of recruitment of B. improvisus was 89% with barettin (0.1%) and 61% with 8,9-dihydrobarettin (0.1%). For M. edulis the reduction of recruitment was 81% with barettin (0.1%) and 72% with 8,9-dihydrobarettin (0.1%) with the same SPC paint. Furthermore, 14 analogs of barettin and dipodazine were synthesised and tested for their ability to inhibit larval settlement. Two of the analogs have a barettin scaffold and twelve have a dipodazine scaffold. Six of the analogs displayed significant settlement inhibition with the most potent inhibitor being benzo[g]dipodazine (EC50 value 0.034 µM). The effect of benzo[g]dipodazine was also shown to be reversible. Finally, an investigation of the mode of action was performed on 5-HT receptors. Barettin demonstrated a specific affinity to 5-HT2A, 5-HT2C and 5-HT4, while 8,9-dihydrobarettin interacted only with 5-HT2C of the receptor subtypes tested (5-HT1-5-HT7).

Pharmacognosy

Geodia barretti

barettin

secondary metabolites

settling inhibition

Balanus improvisus

analogs

5-HT

Farmakognosi