Desenvolvimento de método para determinação de alcaloides indólicos em amostras de ayahuasca / Development of method for determination of indole alkaloids in ayahuasca samples

Santos, Mônica Cardoso

24 February 2016

Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Ayahuasca is a psychoactive beverage prepared by decoction of stems and leafs from Banisteriopis caapi and Psycotria viridis, respectively. Initially, this tea was used by South America Indian tribes, but nowadays, the consumption is spread all over the world due the growth of religious groups where ayahuasca is considered a sacrament. In this work, we propose a method for determination of the alkaloids: Tryptamine, N, N – Dimethyltryptamine, Harmalol, Harmine, Harmaline and Tetrahydroharmine in ayahuasca samples by HPLC/DAD system using Solid Phase Extraction technique as sample preparation. Tests carried out with standard solutions of alkaloids allowed the adjustment of the chromatographic conditions for simultaneous determination of analytes. The best analytic answer for extraction procedure was employing silica cartridge. The validation of the analytical method showed linearity in the range of 0.9950 a 0.9998 and sensitivity in the concentration range of 1-250 μg mL-1 accuracy and precision, with recovery values between 45.0 to 107.4% and variation coefficients between 1.1 to 9.8%; limits of detection and quantification in the range of 6.8 - 18.8 μg mL-1 and 20.6 - 57.1 μg mL-1, respectively. Moreover, the adsorptive capacity of two new solid phases [Biochar and SiMen(M)TSC] was observed with satisfactory recovery results in the range of 40.6 - 116.2 and 45.3 - 115.7%, respectively. The concentrations of these alkaloids were determined in ayahuasca beverage from nonprofit religious cult of the Fortaleza City showed to range from 0.3 to 36.7 g L-1. / Ayahuasca é uma bebida psicoativa preparada pela decocção de caules da Banisteriopis caapi com folhas da Psycotria viridis. Inicialmente esta bebida foi utilizado por tribos indígenas sul-americanas, porém atualmente o consumo está disseminado em todo o mundo devido à expansão de centros religiosos nos quais a ayahuasca é considerada um sacramento. Neste contexto, o presente trabalho propõe um método para determinação dos alcaloides triptamina, N, N-dimetiltriptamina, harmalol, harmina, harmalina e tetrahidroharmina em amostras de ayahuasca empregando as técnicas de extração em fase sólida (SPE) e cromatografia líquida de alta eficiência e detector com arranjo de diodos (HPLC-DAD). Testes realizados com soluções padrão dos alcaloides permitiram o ajuste das condições cromatográficas para determinação simultânea dos analitos. A melhor reposta analítica para o procedimento de extração foi empregando o cartucho de sílica. A validação do método analítico apresentou linearidade na faixa de 0,9950 a 0,9998 e sensibilidade no intervalo de concentração de 1-250 μg mL-1; exatidão e precisão, com valores de recuperação entre 45,0 - 107,4% e coeficientes de variação entre 1,1 - 9,8%; limites de detecção e quantificação na faixa de 6,8 - 18,8 μg mL-1 e 20,6 - 57,1 μg mL-1, respectivamente. Além disso, a capacidade adsortiva de duas novas fases sólidas [biocarvão e SiMen(M)TSC] foi verificada apresentando resultados satisfatórios de recuperação na faixa de 40,6 - 116,2% e 45,3 - 115,7%, respectivamente. As concentrações destes alcaloides foram determinadas na bebida ayahuasca, cedidas sem fins lucrativos por centro religioso na cidade de Fortaleza, apresentado valores entre 0,3 - 36,7 g L-1.

Química

Química orgânica

Ayahuasca

Alcaloides indólicos

Extração (Química)

Cromatografia a líquido

SPE

HPLC-DAD

Chemistry

Organic chemistry

Indole alkaloids

CIENCIAS EXATAS E DA TERRA::QUIMICA

Approche génétique et chimique de deux espèces endémiques de Polynésie française : terminalia glabrata et Rauvolfia nukuhivensis / Genetic and chemical approach of two endemic species of French Polynesia : terminalia glabrata and Rauvolfia nukuhivensis.

Martin, Nicolas Joseph

05 June 2014

Terminalia glabrata et Rauvolfia nukuhivensis sont deux espèces végétales polynésiennes endémiques et menacées d’extinction. T. glabrata cohabite avec T. catappa, commune du Pacifique, ce qui contribuerait à sa vulnérabilité par interfertilité. R. nukuhivensis souffre de problèmes de régénération en raison de stress climatiques, de prédation et d’exploitation anthropique. Des approches de génétique et de chimie ont été developpées afin d’étudier ces deux espèces. Pour T. glabrata, les résultats de « barcoding » ont permis d’établir une très forte proximité génétique avec T. catappa. L’analyse métabolomique a révélé une forte variabilité intraspécifique. Les études génétiques de R. nukuhivensis ont permis de relier des espèces distinctes et d’origines géographiques différentes. Elles ont aussi démontré la présence d’un seul groupe de Rauvolfia dont les individus proviennent des îles de Nuku Hiva et de Ua Huka. Ces travaux ont permis d’établir des relations entre les diversités génétiques et chimiques. L’étude des métabolites secondaires de l’écorce de R. nukuhivensis et de la préparation médicinale a permis d’identifier 13 composés, appartenant à 4 familles chimiques (ajmalanes, sarpaganes, macrolines et  carbolines). 8 de ces composés sont nouvellement identifiés dans la nature et une hypothèse de biosynthèse inédite permettant d’expliquer leur co occurrence chez R. nukuhivensis a été établie. Enfin, ces produits ont été soumis à des tests d’activité pharmacologique. La préparation médicinale a stimulé la prolifération cellulaire et la cicatrisation (tissus FHN). Ces tests ont aussi montré la forte inhibition des canaux ioniques Kv11.1 par les nukuhivensiums. / Terminalia glabrata and Rauvolfia nukuhivensis are endangered Polynesian plant species and endemic. T. glabrata co-exists with a common species from the Pacific T. catappa, thus contributing to its vulnerability by interfertility. R nukuhivensis endures regeneration issues due to climate stress, predation and overexploitation. Hence, these species have been classified as protected species by the authorities and are subjected to conservation plans. Because of their heritage value and their traditional uses, they represent species of cultural importance for the country. Genetics and chemistry approaches were conducted for this study. Concerning T. glabrata, barcoding assays established great similarity with T. catappa. Metabolomics data showed infraspecific variability. Phylogenetic data of Rauvolfia species are consistent with their biogeography, and revealed the existence of an only group of individuals from Nuku Hiva and Ua Huka. Genetic diversity is linked to phytochemical occurence. Investigation of R. nukuhivensis bark metabolites and the traditional remedy led to identification of 13 isolated compounds within 8 new ones, belonging to the ajmalan, sarpagan, macroline and β-carboline skeleton. The co-occurrence of these alkaloid skeletons led to establish an unprecedented biosynthesis route. Finally, isolated compounds and the traditional remedy were submitted to bioassays. The traditional remedy induced cell proliferation and wound healing activities on FHN cells and ion channels Kv11.1 were strongly inhibited by

Terminalia glabrata

Rauvolfia nukuhivensis

Phylogénie

Alcaloïdes indoliques

Macrolines

Β-Carbolines

Activités pharmacologiques

Terminalia glabrata

Rauvolfia nukuhivensis

Phylogeny

Indole alkaloids

Macrolines

Β-Carbolines

Biological activity

Enantiospecific Total Synthesis of Indole Alkaloids Eburnamonine, Aspidospermidine, Quebrachamine, Henrycinols A and B and Synthesis of Azepino [4,5 -b] Indolones

Nidhiry, John Eugene

January 2014

The thesis entitled “Enantiospecific total synthesis of indole alkaloids eburnamonine, aspidospermidine, quebrachamine, henrycinols A and B and synthesis of azepino[4,5-b]indolones” is divided into three chapters. In the first chapter, a unified strategy for the enantiospecific total synthesis of monoterpene indole alkaloids (+)-eburnamonine (1), (–)-aspidospermidine (2) and (–)-quebrachamine (3) is described. The chiral pool synthesis commenced with (S)-ethyl lactate 4, which was elaborated to the allylic alcohol 5. Johnson-Claisen orthoester rearrangement of the allylic alcohol 5 furnished the key chiral building block 6 possessing a quaternary stereogenic center. Pictet-Spengler cyclization of tryptamine with the corresponding aldehydes obtained by appropriate functionalization of the chiral building block 6 and ring closing metathesis were the key reactions employed en route the total synthesis of the indole alkaloids 1–3 (Scheme 1). Scheme 1. Unified strategy for the synthesis of monoterpene indole alkaloids (+)-eburnamonine (1), (–)-aspidospermidine (2) and (–)-quebrachamine (3). The second chapter of the thesis pertains to the synthesis of azepino[4,5-b]indolones 7 via Brønsted acid mediated intramolecular cyclization of unsaturated tryptamides 8. Various ,-unsaturated acids 9 derived from different -hydroxy esters 10, were converted to the corresponding unsaturated tryptamides 8 and subjected to the optimized reaction conditions. The results of the study indicated that -substituted unsaturated secondary tryptamides derived from (S)-ethyl lactate were the most effective in undergoing an intramolecular cyclization to furnish the corresponding azepino[4,5-b]indolones 7, possessing a quaternary stereogenic center in good yields. The presence of an alkenyl moiety in the quaternary center allowed the functionalization of these compounds and was subsequently employed to access the ABCD core 11 of tronocarpine and the tetracyclic cores 12 of some iboga alkaloids. The loss of chirality in the formation of the azepino[4,5-b]indolones indicated that the reaction proceeds predominantly by an SN1 pathway. During the course of the study an interesting formation of an azonino[5,4-b]indolone 13 by a competing SN1 pathway and a tetracyclic azepino[4,5-b]indolone 14 via a cascade cyclization were noticed (Scheme 2). Scheme 2. Synthesis of azepino[4,5-b]indolones 7 possessing a quaternary stereogenic center. The first total synthesis of two new indole alkaloids, henrycinols A (15) and B (16) which were isolated from the plant Melodinus henryi CRAIB is described in the third chapter of the thesis. The key reaction in the synthetic sequence is the Pictet-Spengler cyclization of L-tryptophan methyl ester 17a and the aldehyde 18 derived from D-tartaric acid which leads to the installation of all the stereogenic centers present in the natural products. Interestingly, a switch in the diastereoselectivity of the reaction was observed by varying the substituent on the amine in L-tryptophan methyl ester 17. When L-tryptophan methyl ester 17b possessing an N-allyl substitution was employed, the desired 1,3-trans tetrahydro--carboline 19b could be obtained in good yields, which was subsequently elaborated to the natural products 15 and 16 (Scheme 3). Scheme 3. Total synthesis of henrycinols A (15) and B (16).

Indole Alkaloids synthesis

Eburunamonine

Aspidospermidine

Quebrachamine

Henrycinols

Azepino Indolones Synthesis

Natural Products Total Synthesis

Alkaloid Natural Products

Azepino[4,5-b] indolones

Unsaturated Tryptamides

Organic Chemistry

Alkaloidy Vinca minor L. a jejich biologická aktivita II. / Vinca minor L. alkaloids and their biological activity II.

Pavuková, Simona

January 2021

Pavuková, S.:Vinca minor L. alkaloids and their biological activity II. Diploma thesis, Charles University, Faculty of Pharmacy in Hradec Králové, Department of Pharmaceutical Botany, Hradec Králové 2020. Vinca minor L. is a species of species of flowering plant, native mainly to central and southern Europe, which containst more than 50 indole alkaloids. During screening of potential plant inhibitors against human acetylcholinesterase (hAChE) and butyrylcholinesterase (HBChE) at our department, an alkaloidal extract from dried aerial parts of Vinca minor demonstrated strong and selective hBChE inhibitory activity with an IC50 value of 13.60 ± 0.83 μg/mL, however, against hAChE was inactive (IC50 value >100 μg/mL). The fraction VM 323 - 327 (4,72 g) was separated by column chromatography on silica gel again with stepwise elution by using chloroform and ethanol and overall 7 joined fractions were obtained.Subsequently, repeated preparative TLC on silica gel led to isolation of three compounds; the newly isolated substance SP-1, (-)-picrinine (SP-2) and deacetylakuammiline (SP-3). Their structures were elucidated with mass spectrometry (ESI), NMR and optical rotation. Isolated alkaloids were tested on ability to inhibit AChE, BuChE, POP a GSK-3β, which are enzymes playing an important role in...

I. Isolation and Characterization of Bioactive Compounds From Suriname and Madagascar flora. II. A Synthetic Approach to Lucilactaene

Adou, Eba

30 January 2006

As part of an International Cooperative Biodiversity Group (ICBG), extracts of plants from Suriname and Madagascar were bioassayed for cytotoxicity and antimalarial activity. Six cytotoxic extracts and one potential antimalarial were selected for fractionation, and yielded a number of bioactive compounds which were characterized by spectroscopy methods. Craspidospermum verticillatum (Apocynaceae) yielded four known indole alkoids. Casimirella sp (Icacinaceae) gave three new and five known diterpenoids. Pentopetia androsaemifolia (Apocynaceae) afforded one new and three known cardenolide glycosides. Physalis angulata (Solanaceae) yielded seven known physalins. Roupellina boivinnii (Apocynaceae) yielded four known and three new cardenolide glycosides, and three known cucurbitacins were isolated from Octolepis aff. dioica (Thymelaeaceae). In addition to these structural studies, a synthetic approach to lucilactaene, a cell cycle inhibitor was developed. / Ph. D.

Lucilactaene

Anticancer agents

Cytotoxicity assay

Indole alkaloids

p53 Tumor suppressor Gene

Physalins

Cardenolide glycosides

Diterpenoids

Cucurbitacins

Cell cycle

Cell cycle inhibitor

Novel cambinol analogues as potential anticancer agents : an improved understanding of sirtuin isoform selectivity

Medda, Federico

January 2011

SIRT1 and SIRT2 are two NAD⁺-dependent deacetylases which negatively modulate the activity of p53, a protein which is involved in cell cycle arrest, senescence and apoptosis following genotoxic stress. Part I of the thesis describes the exploration of the chemical space around a reported unselective and modest inhibitor of SIRT1 and SIRT2 with the aim of improving the selectivity and potency of the inhibitor against the two isoforms. Particular emphasis is placed upon understanding the mode of binding of the novel analogues within the active site of the enzymes. Chapter 1 reviews the physiological roles of class III NAD⁺-dependent deacetylases, also known as sirtuins. In particular, the application of SIRT1 and SIRT2 inhibitors as potential anticancer agents is described. Amongst these, only cambinol and the tenovins showed in vivo activity in a mouse xenograft model. Previously only one analogue of cambinol had been reported in the literature. Chapter 2 describes the development of a small collection of novel cambinol analogues (First Generation Studies). The role played by different substituents at the phenyl group and at the N-1 of the thiouracil core is discussed. Along with the synthesis and structure activity relationship (SAR) associated with the core structure, in-cell experiments intended to confirm the activity of the most active compounds are reported. Chapter 3 provides a rationalisation for the SAR discussed in Chapter 2. Based on computational molecular modelling studies (GOLD), the activity of the most potent and selective SIRT2 inhibitors is explained. Two series of novel cambinol analogues were designed (Second and Third Generation Analogues) in order to assess further the proposed binding mode. Chapter 4 focuses on the development of the “Second Generation” analogues, characterised by the presence of lipophilic substituents at the sulfur atom and at the N-3 position of the thiouracil core. The synthesis, biological evaluation and SAR are discussed in detail. Chapter 5 reports the development of the “Third Generation” analogues, characterised by either a benzyl group or para-alkoxy-substituted benzyl group at the N-1 position of cambinol. Once again, the synthesis, biological evaluation and SAR data are presented. An improved understanding of the mode of binding of the novel compounds is proposed based on molecular dynamics (MD) studies. Indole-based alkaloids, such as Vincristine and Vinblastine, are well known for their anticancer activity. Recently, the anticancer activity of members of the calycanthaceous family of alkaloids has been discovered. Part II of the thesis focuses on model studies aimed at developing the total synthesis of one of these compounds, perophoramidine. Chapter 7 provides an overview of the calycanthaceous alkaloid family of natural products, including their biological properties. The structural features of perophoramidine, along with the previously reported synthetic studies are outlined. Chapter 8 describes the synthesis of an advanced intermediate in the total synthesis of dehaloperophoramidine, a structural analogue of perophoramidine Problems encountered, optimisation studies and the synthesis of a re-designed intermediate are also reported in this chapter.

547.7

Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicas

Fragoso, Variluska

January 2007

Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine.

Psychotria leiocarpa

Psychotria umbellata

Saccharomyces cerevisiae

Atividade antioxidante

Biotecnologia vegetal

Alcalóides

Psychotria umbellata Vell.

Monoterpene indole alkaloids

N

b-D-Glucopyranosylvincosamide

Psychollatine

Photoregulation

VLFR

Saccharomyces cerevisiae

Antioxidant activity

Antimutagenic activity

Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicas

Fragoso, Variluska

January 2007

Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine.

Psychotria leiocarpa

Psychotria umbellata

Saccharomyces cerevisiae

Atividade antioxidante

Biotecnologia vegetal

Alcalóides

Psychotria umbellata Vell.

Monoterpene indole alkaloids

N

b-D-Glucopyranosylvincosamide

Psychollatine

Photoregulation

VLFR

Saccharomyces cerevisiae

Antioxidant activity

Antimutagenic activity

Alcalóides de Psychotria : fotorregulação e propriedades antioxidantes e antimutagênicas

Fragoso, Variluska

January 2007

Espécies de Psychotria encontradas no sul do Brasil produzem alcalóides do tipo monoterpeno indólicos, alguns deles com interessantes atividades biológicas e oriundos de novas rotas biossintéticas. P. leiocarpa Cham. & Schlecht. acumula N, b-D-glicopiranosilvincosamida (GPV), o primeiro alcalóide N-glicosilado desta classe a ser descrito. O extrato contendo GPV apresenta atividade analgésica inespecífica e, na planta, sua biossíntese é regulada pelo desenvolvimento e por luz. P. umbellata Vell., por sua vez, produz psicolatina, que apresenta alto potencial farmacológico, pois apresenta atividade analgésica do tipo opióide, ansiolítica e antipsicótica, interagindo com receptores de diversos sistemas de neurotransmissores no sistema nervoso central. Além disso, psicolatina é um eficiente agente redutor de peróxidos e quencher de oxigênio singlet in vitro. Os objetivos do presente trabalho foram estudar a fotorregulação de GPV em plântulas de P. leiocarpa, assim como avaliar os efeitos antioxidantes e antimutagênicos in vivo do extrato foliar bruto de P. umbellata e de psicolatina purificada, utilizando a levedura Saccharomyces cerevisiae. Essas duas últimas substâncias também foram avaliadas quanto à capacidade antioxidante contra o radical hidroxila in vitro. Em ensaios de transição luz-escuro realizados com plântulas assépticas de P. leiocarpa, o acúmulo de GPV mostrou ser responsivo a alterações na condição luminosa de cultivo. O papel negativo do escuro contínuo na biossíntese de GPV foi comprovado pela redução dos níveis deste alcalóide em plântulas cultivadas na luz e transferidas para o escuro. Por outro lado, quando plântulas cultivadas no escuro foram expostas à luz, os níveis de GPVaumentaram, indicando o caráter promotor da luz na produção de GPV. Os efeitos das transições foram mais evidentes em plântulas cultivadas em meio sem sacarose do que em plântulas cultivadas com suprimento exógeno de carboidratos. A biossíntese de GPV é regulada por diferentes faixas de luz. As regiões do azul e do vermelho-extremo aumentaram os teores de GPV. A luz vermelha não afetou de forma significativa o teor de GPV. Os resultados revelam um padrão típico de VLFRs (Very Low Fluence Responses), possivelmente envolvendo ação de PhyA em conjunto com criptocromo.Tanto o extrato bruto foliar de P. umbellata quanto psicolatina apresentaram efeito antioxidante in vivo, reduzindo a inibição do crescimento de Saccharomyces cerevisiae sob estresse oxidativo induzido por peróxido de hidrogênio e paraquat. O extrato e o alcalóide purificado também apresentaram ótima atividade antioxidante in vitro, protegendo contra o ataque do radical hidroxila. Os índices de mutagênese induzida por peróxido de hidrogêncio foram significativamente reduzidos quando as células de S. cerevisiae foram co-cultivadas na presença tanto do extrato quanto de psicolatina. / Species of Psychotria founded in southern Brazil produce a set of novel monoterpene indole alkaloids (MIAs), several of which have interesting biological activities and originate from new metabolic pathways. P. leiocarpa Cham. & Schlecht. accumulates N, b-D-glucopyranosylvincosamide (GPV), the first N-glycosylated MIA described. Leaf extracts containing GPV display nonspecific analgesic activity and, in planta, its biosynthesis is regulated by development and light. P. umbellata Vell., in turn, produces psychollatine which has significant pharmacological potential, since it yields opioid-like analgesic, anxiolytic and antipsychotic activities, interacting with receptors of different neurotransmitter systems in the central nervous system. In addition, psychollatine is an efficient peroxide reducing agent and a singlet oxygen chemical quencher in vitro. This work aimed at studying the photoregulation of GPV in P. leiocarpa seedlings, as well as at investigating the antimutagenic and antioxidant in vivo effects of the crude foliar extract of P. umbellata and purified psychollatine using the yeast Saccharomyces cerevisiae. These last substances were also evaluated for their in vitro antioxidant properties against hydroxyl radicals.In light-dark transition assays with aseptic P. leiocarpa seedlings, GPV accumulation showed to be responsive to changes in light condition. The negative role of continuous dark on GPV biosynthesis was shown by reduction of the alkaloid contents when light growing seedlings were transferred to dark. On the other hand, dark growing seedlings increased GPV contents after light exposure, suggesting a positive light regulation of GPV production. Theseresults were more evident in seedlings cultivated in media without sucrose than in seedlings cultivated with carbohydrate supplementation. GPV biosynthesys is also regulated by different light qualities. Light in the blue and far-red regions increased GPV accumulation, whereas red ligh had no significant influence on GPV yield. These results are in agreement with the profile of VLFRs (Very Low Fluence Responses), mediated by PhyA with coaction of cryptochrome. Both the crude foliar extract of P. umbellata and psychollatine showed in vivo antioxidant effects by reducing the growth inhibition of Saccharomyces cerevisiae under hydrogen peroxide- and paraquat-induced oxidative stress. The extract and the purified alkaloid also showed strong in vitro antioxidant activity against hydroxyl radicals. The levels of hydrogen peroxide-induced mutagenicity were significantly reduced when S. cerevisiae cells were cocultivated with leaf crude extract or psychollatine.

Psychotria leiocarpa

Psychotria umbellata

Saccharomyces cerevisiae

Atividade antioxidante

Biotecnologia vegetal

Alcalóides

Psychotria umbellata Vell.

Monoterpene indole alkaloids

N

b-D-Glucopyranosylvincosamide

Psychollatine

Photoregulation

VLFR

Saccharomyces cerevisiae

Antioxidant activity

Antimutagenic activity

Tryptamines as Ligands and Modulators of the Serotonin 5‑HT2A Receptor and the Isolation of Aeruginascin from the Hallucinogenic Mushroom Inocybe aeruginascens / Tryptamine als Liganden und Modulatoren des 5‑HT2A Serotonin-Rezeptors und die Isolierung von Aeruginascin aus dem halluzinogenen Pilz Inocybe aeruginascens

Jensen, Niels

04 November 2004

No description available.

540 Chemie

Mathematics and Computer Science

Aeruginascin

Psilocybin

Inocybe

Indol-Alkaloide

Halluzinogene

Tryptamine

5-HT2A Serotonin Rezeptor

Aeruginascin

Psilocybin

Inocybe

Indole Alkaloids

Hallucinogens

Tryptamines

5-HT2A Serotonin Receptor

44.38

42.63

35.50

MED 351: Pharmakologie

SXE 000: Naturstoffe {Biochemie}

SXY 100: Alkaloide {Biochemie}

WWG 000: Fungi

Mycophyta

Mykologie

Pilze {Botanik}