Otimização das condições de cultivo e investigação das atividades citotóxica e antimicrobiana de metabólitos secundários do fungo endofítico Drechslera ravenelii / Optimization of the culture conditions and investigation of the cytotoxic and antimicrobial activities of the secondary metabolites from the endophytic fungus Drechslera ravenelii.

Eliane de Oliveira Silva

08 June 2010

O interesse na obtenção de novos fármacos a partir de micro-organismos endofíticos vem crescendo, uma vez que esta é uma fonte ainda pouco explorada. Além disso, o estudo das interações entre plantas e micro-organismos tem sido amplamente discutido ao longo dos últimos anos. No presente trabalho, o fungo endofítico Drechslera ravenelii (SS33), isolado das folhas de Smallanthus sonchifolius (yacon), foi cultivado sob diferentes condições fermentativas, objetivando a determinação das melhores condições para produzir metabólitos secundários com atividades antimicrobiana e/ou citotóxica. Para tal avaliaram-se dois parâmetros: meio fermentativo e tempo de incubação. Os meios fermentativos líquidos utilizados foram Czapek e caldo de batata (PDB), sob agitação (120 RPM), cultivados por 216 e 480 horas. Também foi desenvolvida cultura por fermentação em substrato sólido, meio de arroz-aveia, durante 720 horas. Todos os cultivos foram realizados em temperatura de 30 ºC e precedidos por pré-fermentação. Dos cultivos em meio líquido foram obtidas frações em diclorometano e em acetato de etila. Já dos cultivos provenientes do meio fermentativo sólido foram obtidas frações em n-hexano, diclorometano, acetato de etila e n-butanol. Dessa forma, obtiveram-se 12 frações que foram concentradas em rotaevaporador até a secura, pesadas e identificadas. As frações tiveram sua atividade antimicrobiana avaliada através de duas técnicas: técnica da bioautografia e técnica da microdiluição em microplaca (determinação da Concentração Inibitória Mínima), utilizando-se como indicadores biológicos as cepas Kocuria rhizophila, Staphylococcus aureus, Escherichia coli e Pseudomonas aeruginosa. A avaliação da atividade citotóxica foi realizada pela técnica do MTT, utilizando-se três linhagens de células tumorais MB435 (melanoma humano), HCT-8 (cólon humano) e SF-295 (glioblastoma humano). As frações tiveram também seus perfis químicos avaliados por Cromatografia Líquida de Alta Eficiência. Após observação dos resultados obtidos, concluiu-se que a fração diclorometânica, proveniente do meio fermentativo sólido, foi a que apresentou maior rendimento, manejo mais simples e perfil cromatográfico mais interessante, quando comparada às outras frações obtidas dos meios sólido e líquido. Desse modo, foi realizada ampliação da escala fermentativa em meio sólido e a fração diclorometânica obtida foi submetida a processos cromatográficos visando o isolamento das substâncias majoritárias. Assim, foram isoladas a substância 1 (não identificada) e a substância 2, identificada como terpestacina, um sesterpeno incomum com conhecida atividade na inibição da formação de sincícios pelo vírus HIV. A terpestacina foi isolada pela primeira vez do fungo Drechslera ravenelii no presente estudo. A substância 2 não apresentou atividade antimicrobiana quando submetida ao ensaio da microdiluição em microplaca e apresentou atividade citotóxica discreta, frente a três linhagens de células cancerígenas humanas. / The interest in obtaining new drugs from endophytic microorganisms is growing, since this is a source still little exploited. In addition, the study of the interactions between plants and microorganisms has been widely discussed over the past few years. In this work, the endophytic fungus Drechslera ravenelii (SS33), isolated from the leaves of Smallanthus sonchifolius (yacon), was grown under different conditions, targeting the determination of the best conditions to produce secondary metabolites with antimicrobial and/or cytotoxic activities. For that, two parameters were evaluated: culture medium type and incubation time. The liquid media used were Czapek and Potato Dextrose Broth (PDB), swirling (120 RPM), cultivated for 216 and 480 hours, respectively. The fungus has also been culture by fermentation in solid substrate, rice-oats medium, during 720 hours. All crops were conducted in temperature of 30 °C and preceded by pre-fermentation. The obtained liquid mediums were submitted to liquid partition to furnish dichloromethane and ethyl acetate fractions. The solid medium was submitted to extraction to furnish the fractions in n-hexane, dichloromethane, ethyl acetate and n-butanol, in sequence. |Then, the 12 fractions obtained were dried, cumbersome and identified. The antimicrobial activity of the fractions was evaluated through two techniques: bioautography and Microdiluition method (Minimum Inhibitory Concentration-MIC), and for that, the biological indicators used were Kocuria rhizophila, Staphylococcus aureus, Escherichia coli and Pseudomonas aeruginosa. The cytotoxic activity evaluation was performed by MTT test, using three tumor cell lines: MB435 (human melanoma), HCT-8 (human colon) and SF-295 (human glioblastoma). The chromatographic profiles of the fractions were evaluated by High Performance Liquid Chromatography. Analysis of the results allowed to conclude that the dichloromethane fraction from the solid medium gave greater yield, was easier to manager and more displayed an interesting chromatographic profile when compared to other fractions obtained from both solid and liquid media. Thus, the fungus was cultivated in a larger scale in solid medium and the dichloromethane fraction obtained was subjected to chromatographic processes aiming the isolation of the major compounds. Thus, two compounds were isolated the substance 1 (unidentified) and the substance 2, witch was identified as terpestacin, an uncommon sesterpene, which inhibits the formation of syncytia in the course of HIV infection. The terpestacin was isolated for the first time from the fungus Drechslera ravenelii in this study. The compound 2 did not presented antimicrobial activity when subjected to the microdilution test and it displayed discreet cytotoxic activity in three human cancer cell lines.

Drechslera ravenelii

fungo endofítico

metabólitos secundários

Drechslera ravenelii

endophytic fungus

secondary metabolites

Prospecção química e avaliação do potencial biológico do fungo endofítico Aspergillus unguis obtido da alga Palmaria decipiens proveniente da Antártica / Chemical prospection and evaluation of the biological potential of the endophytic fungus Aspergillus unguis obtained from the algae Palmaria decipiens from Antarctica

Moraes, Verônica Rêgo de

18 July 2017

Organismos marinhos são reconhecidos por apresentarem potencial elevado para a produção de produtos naturais com estruturas moleculares únicas. Neste âmbito marinho, os fungos endofíticos são considerados como uma fonte promissora de substâncias bioativas, apresentando moléculas oriundas do metabolismo secundário mais significativas biologicamente do que aquelas produzidas por seus hospedeiros. Dentro deste contexto, este trabalho teve como objetivo principal a avaliação dos perfis químico e biológico do fungo endofítico Aspergillus unguis isolado da alga Palmaria decipiens, proveniente da Ilha Robert, Antártica. Para análise dos metabólitos secundários produzidos por A. unguis foram utilizados métodos cromatográficos como cromatografia em camada delgada (CCD) e cromatografia líquida de alta eficiência (CLAE), bem como técnicas espectroscópicas e espectrométricas de RMN 1-D e 2-D, CL-EM, CG-EM, inclusive para elucidação estrutural das substâncias isoladas. Todos os dados obtidos foram comparados com aqueles descritos na literatura e/ou com aqueles apresentados no software MarinLit® e o Dicionário de Produtos Naturais. Foram isoladas três substâncias do fungo estudado: Nidulina (DEP-1), pico 4-fração 8 (DEP-2) e pico 6-fração 8 (DEP-3). Todas são moléculas da classe das depsidonas, cuja nidulina já é uma molécula reportada na literatura. As outras duas são estruturas inéditas na literatura até o presente momento, uma vez que ainda não foram encontrados dados possibilitando a comparação com moléculas conhecidas. Concomitantemente, foram realizados experimentos para avaliação da atividade biológica de extratos, frações e substância isolada. As substâncias DEP-2 e DEP-3 foram submetidas para avaliação do potencial leishmanicida. As promastigotas IC50 para DEP-2 foram 68,1 ± 8,1, com índice de seletividade de 5,7, enquanto para os amastigotas o valor foi de 55,9 ± 0,6, com índice de seletividade 6,9, em comparação com os controles Amfotericina B com IC50 promastigota 3,5 ± 0,03 com índice de seletividade 6,6 e IC50 amastigotas 5,3 ± 0,2, índice de seletividade 4, 6 e Pentamidina com IC50 promastigotas 29,9 ± 0,08, índice de seletividade 1.2 e amastigotas IC50 18,2 ± 0,6, 1,9. Para DEP-3, o IC50 para promastigotas foi de 69,6 ± 0,7, com índice de seletividade 1,2. Considerando que a IC50 para amastigotas foi de 55,0 ± 0,2, com índice de seletividade 1,6, em comparação com os controles Amfotericina B com IC50 promastigote 3,48 ± 0,03, com índice de seletividade 6,6 e IC50 amastigotas 5,3 ± 0,2, índice de seletividade 4,6. Pentamidina com promastigotas IC50 29,9 ± 0,08, índice de seletividade 1,2 e amastigotas IC50 18,2 ± 0,6; índice de seletividade 1,9. O DEP-1 foi submetido para a avaliação da fotoestabilidade e fototoxicidade como considerado foto estável com uma queda na fotoestabilidade inferior a 0,1. E a DEP-2 e a DEP-3 estavam em mistura foram enviadas para análise da atividade microbiana e concluiu-se que há atividade sinérgica contra S. aureus, uma vez que o DEP-2 sozinha apresentou CIM de 100 ?g / mL e em mistura foi obtido CIM de 6,25 ?g / mL. / Marine organisms are recognized by present high potential for the production of natural products with unique molecular structures. In this context, the endophytic fungi are considered as a promising source of bioactive compounds, showing molecules from the secondary metabolism more biologically meaningful than those produced by their hosts. Within this context, this work had as main objective the evaluation of the chemical and biological profiles of the endophytic fungus Aspergillus unguis isolated from the alga Palmaria decipiens, from Robert Island, Antarctica. For analysis of secondary metabolites produced by A. unguis chromatographic methods were used as thin-layer chromatography (CCD) and high performance liquid chromatography (HPLC), as well as spectroscopic and spectrophotometric techniques such as NMR 1-D and 2-D, LC-MS, GC-MS, including for structural elucidation of isolated substances. All the data obtained were compared with those described in the literature and/or with those presented in the MarinLit ® software and the Dictionary of Natural Products. From the studied fungi, three substances were isolated: Niduline (DEP-1), peak-4 fraction-8 (DEP-2) and peak-6 fraction-8 (DEP-3). All molecules present depsidone skeleton, whose Niduline is the most molecule reported in the literature. The other two are unpublished structures in the literature up to the present time, since until now it has not yet been found enabling data for comparison with known molecules. At the same time, experiments were performed to evaluate the biological activity of extracts, fractions and isolated substance. The substances DEP-2 and DEP-3 were submitted to test to evaluate the leishmanicidal potential. The promastigotes IC50 for DEP-2 was 68.1 ± 8.1, with selectivity index was 5.7; while for amastigotes the value was 55.9 ± 0.6, with selectivity index 6.9, compared with controls Amphotericin B with IC50 promastigote 3,5 ± 0,03 with selectivity index 6.6, and IC50 amastigotes 5.3 ± 0.2; selectivity index 4.6 and Pentamidine with IC50 promastigotes 29.9 ±0.08, selectivity index 1.2 and IC50 amastigotes 18.2 ± 0.6, selectivity index 1.9. For DEP-3 the IC50 for promastigotes was 69.6±0.7, with selectivity index 1.2; whereas the IC50 for amastigotes was 55.0±0.2, with selectivity index 1.6, compared with controls Amphotericin B with IC50 promastigote 3.48 ± 0.03, with selectivity index 6.6 and IC50 amastigotes 5.3 ± 0.2, selectivity index 4.6. Pentamidine with IC50 promastigotes 29.9 ±0.08, selectivity index 1.2 and IC50 amastigotes 18.2 ± 0.6, selectivity index 1.9. DEP-1 was submitted for evaluation of photostability and phototoxicity as considered photostable with a drop in photostability of less than 0.1. Since the compounds DEP-2 and DEP-3 were sent in a mixture for analysis of the microbial activity and it was concluded that there is a synergistic activity against S. aureus, since DEP-2 alone had a MIC of 100 ?g/mL and in mixture obtained a MIC of 6.25 ?g/mL.

Nidulina.

Influence of grassland management on the abundance of the endophytic fungi Neotyphodium

Dobrindt, Lana

15 November 2011

No description available.

630

Land- und Forstwirtschaft (PPN621302791)

Caracterização bioquímica e secagem em \"spray dryer\" de lipases produzidas pelo fungo endofítico Cercospora kikuchii / Biochemical characterization and spray drying of lipases produced by the endophytic fungus Cercospora kicuchii.

Silva, Tales Alexandre da Costa e

18 November 2010

Lipases são enzimas que catalisam a hidrólise de triacilgliceróis em ácidos graxos, mono e diacilgliceróis e glicerol. Em contraste com as esterases, lipases são ativadas apenas quando estão adsorvidas a uma interface óleo-água. Lipases têm sido amplamente utilizadas em muitos processos industriais, tais como química orgânica, formulações de detergentes e de produtos como cosméticos e farmacêuticos. A principal preocupação na produção de enzimas comerciais é a proteção da sua estabilidade em solução aquosa. A água facilita ou medeia uma variedade de vias de degradação física e química, durante as etapas de purificação, transporte e armazenamento. Por conseguinte, formulações sólidas são desenvolvidas para alcançar uma vida útil aceitável para essas substâncias. Spray drying é comumente usado como uma técnica de desidratação na indústria farmacêutica para fabricação de produtos em pó diretamente do estado líquido. No presente trabalho, a purificação e caracterização bioquímica de lipases produzidas pelo fungo endofítico Cercospora kikuchii, bem como os efeitos de adjuvantes no processo de secagem destas enzimas foram estudados. A lipase bruta foi purificada à homogeneidade através de cromatografia de interação hidrofóbica e gel filtração. A lipase foi purificada 5,54 vezes, com rendimento de 9% e a atividade específica de 223,6 U/mg. O peso molecular da enzima foi estimado em 65,1 kDa por SDS-PAGE e 73,5 kDa utilizando cromatografia de gel filtração, indicando que provavelmente trata-se de um monômero. A lipase mostrou um pH ótimo em 4,6 e uma temperatura ótima de 35°C. Cerca de 80,2% de sua atividade foi mantida após incubação a 40°C durante 2 horas. A Vmax e Km foram 10,28 mmol/min/mg de proteína e 0,03240 mM, respectivamente, utilizando pNPP como substrato. As lipases presentes no extrato bruto e as lipases ligadas ao micélio foram caracterizadas para avaliar o potencial de utilização em biocatálise. A lipases no extrato bruto apresentaram atividade máxima a 60ºC e pH 6,2, enquanto que as lipases ligadas ao micélio apresentaram atividade máxima a 50ºC e pH 5,4. Nos estudos de efeito da temperatura sobre a atividade enzimática, as lipases no extrato bruto mantiveram-se estáveis a 50°C, com 85,3% de atividade residual após 2 horas de incubação. As lipases ligadas ao micélio mantiveram pelo menos 75,1% de atividade residual após 2 horas de incubação a 80°C. Estes resultados mostram que as lipases de C. kikuchii têm propriedades cinéticas e termoestabilidade desejáveis para aplicações em biocatálise. As lipases presentes no extrato bruto foram secas em spray dryer com diferentes adjuvantes, e sua estabilidade foi avaliada. A recuperação da atividade enzimática após a secagem, com a adição de 10% de lactose, -ciclodextrina, maltodextrina, manitol, goma arábica, e trealose variou de 63 a 100%. A atividade da enzima foi totalmente perdida durante a secagem do extrato bruto na ausência de adjuvantes. A maioria dos adjuvantes utilizados manteve pelo menos 50% da atividade enzimática a 5°C e 40% a 25°C, após 8 meses de armazenagem. As lipases secas com 10% de - ciclodextrina mantiveram 72% da atividade a 5°C no mesmo período. A partir destes resultados preliminares foi realizada a otimização do processo de secagem utilizando -ciclodextrina, maltodextrina e lactose como adjuvantes. A análise estatística dos resultados experimentais permitiu a determinação das condições ótimas para a retenção da atividade enzimática (RAE), a saber: concentração de adjuvantes de secagem de 12,05%, temperatura de entrada do gás de secagem em 153,6oC e vazão do extrato enzimático alimentado de 9,36 g/min, para - ciclodextrina e maltodextrina como adjuvantes. Para lactose, o estudo mostrou que o aumento da quantidade de adjuvante de secagem e/ou diminuindo a temperatura do gás de entrada tem um efeito positivo sobre a retenção da atividade enzimática do produto seco. Após o processo de purificação foi realizada a secagem da enzima parcialmente purificada e da lipase pura, com estes três adjuvantes. A manutenção da atividade enzimática variou 90,6-100% quando foram utilizadas as condições ótimas para cada adjuvante de secagem. Concluindo, as lipases produzidas por C. kikuchii podem ser eficientemente secas por spray dryer, uma vez que a atividade enzimática foi mantida no extrato bruto, na lipase pura e na lipase semi-purificada submetidas à secagem. / Lipases are enzymes that catalyze the hydrolysis of triacylglycerols to fatty acids, mono and diacylglycerols, and glycerol. In contrast to esterases, lipases are activated only when they are adsorbed to an oilwater interface. They have been widely used in many industrial processes such as organic chemical, detergent and cleaning formulations and in products like cosmetics and pharmaceutical products. The main concern in the production of commercial enzymes is to protect their stability in aqueous solution. Water facilitates or mediates a variety of physical and chemical degradation pathways, active during protein purification, shipping and storage. Consequently, dry solid formulations are developed to achieve an acceptable protein shelf life. Spray drying is commonly used as a dehydration technique in the pharmaceutical industry for making powdery products directly from the liquid. In the present work, the purification and biochemical characterization of lipases produced by endophytic fungus Cercospora kikuchii as well as the effects of adjuvants on the spray drying process of theses enzymes were studied. The crude lipase was purified to homogeneity by hydrophobic interaction chromatography and gel filtration. The lipase purified was 5.54-fold with 9% recovery and the specific activity was 223.6. The molecular mass of the lipase was estimated to be 65.1 kDa using SDS-PAGE and 73.5 using gel filtration chromatography, indicating that the lipase is a monomer. The lipase demonstrated an optimum pH at 4.6, an optimum temperature of 35°C. About 80.2% of its activity was retained after incubation at 40°C for 2 hours. The Vmax and Km were 10.28 mol/min/mg protein and 0.03240 mM, respectively, using pNPP as substrate. The lipases present in crude extract and the mycelium-bound lipases were characterized in order to evaluate the potential for use in biocatalysis. The crude extract showed maximum activity at 60ºC and pH 6.2 while the myceliumbound lipases showed maximum activity at 50ºC and pH 5.4. In tests of the temperature effect on the enzymatic activity, the lipases in the crude extract was stable at 50°C, with 85.3% residual activity after 2 hours of incubation. The mycelium-bound lipases maintained at least 75.1% of residual activity after 2 h incubation at 80°C. These results show that the lipases of C. kikuchii have kinetic properties and stability characteristics suitable to applications in biocatalysis. The lipases present in crude extract were spray dried with different adjuvants, and their stability was evaluated. The recovery of the enzyme after drying with 10% of lactose, -cyclodextrin, maltodextrin, mannitol, gum arabic, and trehalose ranged from 63% to 100%; but the enzyme activity was lost in the absence of adjuvants. Most of the adjuvants used kept up at least 50% of the enzymatic activity at 5°C and 40% at 25°C after 8 months. The lipase dried with 10% of -cyclodextrin retained 72% of activity at 5°C. From these preliminary results the optimization of drying process using -cyclodextrin, maltodextrin and lactose as adjuvants was carried out. Statistical optimization of the experimental results allowed the determination of the processing conditions that maximized the retention of the enzymatic activity (RAE), namely: concentration of drying adjuvants of 12.05 %, inlet temperature of the drying gas of 153.6oC, and flow rate of the enzymatic extract fed to the dryer of 9.36 g/min, for the b-cyclodextrin and maltodextrin as adjuvants. For lactose as adjuvant the study showed that increasing the amount of drying adjuvant and/or decreasing the inlet gas temperature has positive effect on the retention of enzymatic activity of the dried product. After the purification process was carried out the drying of the partially purified enzyme and pure lipase, using these three adjuvants. The retention of enzymatic activity ranged from 90.6 to 100% when was used the optimal conditions for each drying adjuvant. Concluding, the lipases produced by C. kikuchii may be efficiently spray dried since its activity enzimatic was retained in crude extract, pure lipase and in semi-purified lipase after drying.

Caracterização enzimática

Cercospora kikuchii

Cercospora kikuchii

Endophytic fungus.

Enzyme characterization

Enzyme stabilization

Estabilização enzimática

Fungo endofítico.

Lipase

Lipase

Spray dryer

Spray drying

Estudo da variação do meio na produção de metabólitos secundários pelo fungo endofítico Aspergillus niger / STUDY OF THE VARIATION OF THE MEANS IN THE PRODUCTION OF SECONDARY METABOLITES BY ENDOPHYTIC FUNGUS ASPERGILLUS NIGER.

Araujo, Nailson Correia de

17 December 2010

The endophytic fungus Aspergillus niger isolated from specie plant Hancornia speciosa, commonly known as mangabeira, was cultivated in different culture media and used for identification of six substances in their extracts, such as oxalic, citric, tartaric, p-acetylbenzoic, hexylitaconic acids and phyrofen. For quantification of pyrophen in different extracts, it was developed a method by High Performance Liquid Chromatography that was efficient for both extract analysis and fermented broth. The method allowed to evaluate the effect of different media ways and culture time on the pyrophen. The analyzed media for pyrophen production were mangaba juice, Czapeck and potato dextrose broth (PDB) and the highest yield was obtained using mangaba juice. The effect of culture time was evaluated by cultivating the fungus in the PDB medium, being the ideal period of fermentation for pyrophen production was 12 days. / O fungo endofítico Aspergilus niger isolado da espécie vegetal Hancornia speciosa, conhecida popularmente como mangabeira, foi cultivado nos meios suco de mangaba, Czapeck e Caldo de Batata Dextrose (CDB) e levou ao isolamento e identificação de seis substâncias em seus extratos, sendo elas os ácidos oxálico, cítrico, tartárico, p-acetil-benzóico e hexilitacônico e a substância pirofeno. Visando encontrar a melhor condição de cultivo para produção de pirofeno foi desenvolvido um método analítico por Cromatografia Líquida de Alta Eficiência para análise desta substância. O método desenvolvido foi eficiente tanto para análise dos extratos quanto para análise do caldo fermentado e permitiu avaliar o efeito dos diferentes meios e do tempo de cultivo na produção desta substância. A maior produção de pirofeno foi obtida utilizando suco de mangaba como meio de cultivo e o período ideal de fermentação para a produção de pirofeno foi de 12 dias, quando cultivado no meio líquido CDB.

Aspergillus niger

Fungos endofíticos

Ácidos orgânicos

Metabólitos fúngicos

Aspergillus niger

Endophytic fungus

Organic acid

Fungus metabolites

Estudo da variação do meio na produção de metabólitos secundários pelo fungo endofítico Aspergillus niger / STUDY OF THE VARIATION OF THE MEANS IN THE PRODUCTION OF SECONDARY METABOLITES BY ENDOPHYTIC FUNGUS ASPERGILLUS NIGER.

Araujo, Nailson Correia de

17 December 2010

The endophytic fungus Aspergillus niger isolated from specie plant Hancornia speciosa, commonly known as mangabeira, was cultivated in different culture media and used for identification of six substances in their extracts, such as oxalic, citric, tartaric, p-acetylbenzoic, hexylitaconic acids and phyrofen. For quantification of pyrophen in different extracts, it was developed a method by High Performance Liquid Chromatography that was efficient for both extract analysis and fermented broth. The method allowed to evaluate the effect of different media ways and culture time on the pyrophen. The analyzed media for pyrophen production were mangaba juice, Czapeck and potato dextrose broth (PDB) and the highest yield was obtained using mangaba juice. The effect of culture time was evaluated by cultivating the fungus in the PDB medium, being the ideal period of fermentation for pyrophen production was 12 days. / O fungo endofítico Aspergilus niger isolado da espécie vegetal Hancornia speciosa, conhecida popularmente como mangabeira, foi cultivado nos meios suco de mangaba, Czapeck e Caldo de Batata Dextrose (CDB) e levou ao isolamento e identificação de seis substâncias em seus extratos, sendo elas os ácidos oxálico, cítrico, tartárico, p-acetil-benzóico e hexilitacônico e a substância pirofeno. Visando encontrar a melhor condição de cultivo para produção de pirofeno foi desenvolvido um método analítico por Cromatografia Líquida de Alta Eficiência para análise desta substância. O método desenvolvido foi eficiente tanto para análise dos extratos quanto para análise do caldo fermentado e permitiu avaliar o efeito dos diferentes meios e do tempo de cultivo na produção desta substância. A maior produção de pirofeno foi obtida utilizando suco de mangaba como meio de cultivo e o período ideal de fermentação para a produção de pirofeno foi de 12 dias, quando cultivado no meio líquido CDB.

Aspergillus niger

Fungos endofíticos

Ácidos orgânicos

Metabólitos fúngicos

Aspergillus niger

Endophytic fungus

Organic acid

Fungus metabolites

Caracterização bioquímica e secagem em \"spray dryer\" de lipases produzidas pelo fungo endofítico Cercospora kikuchii / Biochemical characterization and spray drying of lipases produced by the endophytic fungus Cercospora kicuchii.

Tales Alexandre da Costa e Silva

18 November 2010

Lipases são enzimas que catalisam a hidrólise de triacilgliceróis em ácidos graxos, mono e diacilgliceróis e glicerol. Em contraste com as esterases, lipases são ativadas apenas quando estão adsorvidas a uma interface óleo-água. Lipases têm sido amplamente utilizadas em muitos processos industriais, tais como química orgânica, formulações de detergentes e de produtos como cosméticos e farmacêuticos. A principal preocupação na produção de enzimas comerciais é a proteção da sua estabilidade em solução aquosa. A água facilita ou medeia uma variedade de vias de degradação física e química, durante as etapas de purificação, transporte e armazenamento. Por conseguinte, formulações sólidas são desenvolvidas para alcançar uma vida útil aceitável para essas substâncias. Spray drying é comumente usado como uma técnica de desidratação na indústria farmacêutica para fabricação de produtos em pó diretamente do estado líquido. No presente trabalho, a purificação e caracterização bioquímica de lipases produzidas pelo fungo endofítico Cercospora kikuchii, bem como os efeitos de adjuvantes no processo de secagem destas enzimas foram estudados. A lipase bruta foi purificada à homogeneidade através de cromatografia de interação hidrofóbica e gel filtração. A lipase foi purificada 5,54 vezes, com rendimento de 9% e a atividade específica de 223,6 U/mg. O peso molecular da enzima foi estimado em 65,1 kDa por SDS-PAGE e 73,5 kDa utilizando cromatografia de gel filtração, indicando que provavelmente trata-se de um monômero. A lipase mostrou um pH ótimo em 4,6 e uma temperatura ótima de 35°C. Cerca de 80,2% de sua atividade foi mantida após incubação a 40°C durante 2 horas. A Vmax e Km foram 10,28 mmol/min/mg de proteína e 0,03240 mM, respectivamente, utilizando pNPP como substrato. As lipases presentes no extrato bruto e as lipases ligadas ao micélio foram caracterizadas para avaliar o potencial de utilização em biocatálise. A lipases no extrato bruto apresentaram atividade máxima a 60ºC e pH 6,2, enquanto que as lipases ligadas ao micélio apresentaram atividade máxima a 50ºC e pH 5,4. Nos estudos de efeito da temperatura sobre a atividade enzimática, as lipases no extrato bruto mantiveram-se estáveis a 50°C, com 85,3% de atividade residual após 2 horas de incubação. As lipases ligadas ao micélio mantiveram pelo menos 75,1% de atividade residual após 2 horas de incubação a 80°C. Estes resultados mostram que as lipases de C. kikuchii têm propriedades cinéticas e termoestabilidade desejáveis para aplicações em biocatálise. As lipases presentes no extrato bruto foram secas em spray dryer com diferentes adjuvantes, e sua estabilidade foi avaliada. A recuperação da atividade enzimática após a secagem, com a adição de 10% de lactose, -ciclodextrina, maltodextrina, manitol, goma arábica, e trealose variou de 63 a 100%. A atividade da enzima foi totalmente perdida durante a secagem do extrato bruto na ausência de adjuvantes. A maioria dos adjuvantes utilizados manteve pelo menos 50% da atividade enzimática a 5°C e 40% a 25°C, após 8 meses de armazenagem. As lipases secas com 10% de - ciclodextrina mantiveram 72% da atividade a 5°C no mesmo período. A partir destes resultados preliminares foi realizada a otimização do processo de secagem utilizando -ciclodextrina, maltodextrina e lactose como adjuvantes. A análise estatística dos resultados experimentais permitiu a determinação das condições ótimas para a retenção da atividade enzimática (RAE), a saber: concentração de adjuvantes de secagem de 12,05%, temperatura de entrada do gás de secagem em 153,6oC e vazão do extrato enzimático alimentado de 9,36 g/min, para - ciclodextrina e maltodextrina como adjuvantes. Para lactose, o estudo mostrou que o aumento da quantidade de adjuvante de secagem e/ou diminuindo a temperatura do gás de entrada tem um efeito positivo sobre a retenção da atividade enzimática do produto seco. Após o processo de purificação foi realizada a secagem da enzima parcialmente purificada e da lipase pura, com estes três adjuvantes. A manutenção da atividade enzimática variou 90,6-100% quando foram utilizadas as condições ótimas para cada adjuvante de secagem. Concluindo, as lipases produzidas por C. kikuchii podem ser eficientemente secas por spray dryer, uma vez que a atividade enzimática foi mantida no extrato bruto, na lipase pura e na lipase semi-purificada submetidas à secagem. / Lipases are enzymes that catalyze the hydrolysis of triacylglycerols to fatty acids, mono and diacylglycerols, and glycerol. In contrast to esterases, lipases are activated only when they are adsorbed to an oilwater interface. They have been widely used in many industrial processes such as organic chemical, detergent and cleaning formulations and in products like cosmetics and pharmaceutical products. The main concern in the production of commercial enzymes is to protect their stability in aqueous solution. Water facilitates or mediates a variety of physical and chemical degradation pathways, active during protein purification, shipping and storage. Consequently, dry solid formulations are developed to achieve an acceptable protein shelf life. Spray drying is commonly used as a dehydration technique in the pharmaceutical industry for making powdery products directly from the liquid. In the present work, the purification and biochemical characterization of lipases produced by endophytic fungus Cercospora kikuchii as well as the effects of adjuvants on the spray drying process of theses enzymes were studied. The crude lipase was purified to homogeneity by hydrophobic interaction chromatography and gel filtration. The lipase purified was 5.54-fold with 9% recovery and the specific activity was 223.6. The molecular mass of the lipase was estimated to be 65.1 kDa using SDS-PAGE and 73.5 using gel filtration chromatography, indicating that the lipase is a monomer. The lipase demonstrated an optimum pH at 4.6, an optimum temperature of 35°C. About 80.2% of its activity was retained after incubation at 40°C for 2 hours. The Vmax and Km were 10.28 mol/min/mg protein and 0.03240 mM, respectively, using pNPP as substrate. The lipases present in crude extract and the mycelium-bound lipases were characterized in order to evaluate the potential for use in biocatalysis. The crude extract showed maximum activity at 60ºC and pH 6.2 while the myceliumbound lipases showed maximum activity at 50ºC and pH 5.4. In tests of the temperature effect on the enzymatic activity, the lipases in the crude extract was stable at 50°C, with 85.3% residual activity after 2 hours of incubation. The mycelium-bound lipases maintained at least 75.1% of residual activity after 2 h incubation at 80°C. These results show that the lipases of C. kikuchii have kinetic properties and stability characteristics suitable to applications in biocatalysis. The lipases present in crude extract were spray dried with different adjuvants, and their stability was evaluated. The recovery of the enzyme after drying with 10% of lactose, -cyclodextrin, maltodextrin, mannitol, gum arabic, and trehalose ranged from 63% to 100%; but the enzyme activity was lost in the absence of adjuvants. Most of the adjuvants used kept up at least 50% of the enzymatic activity at 5°C and 40% at 25°C after 8 months. The lipase dried with 10% of -cyclodextrin retained 72% of activity at 5°C. From these preliminary results the optimization of drying process using -cyclodextrin, maltodextrin and lactose as adjuvants was carried out. Statistical optimization of the experimental results allowed the determination of the processing conditions that maximized the retention of the enzymatic activity (RAE), namely: concentration of drying adjuvants of 12.05 %, inlet temperature of the drying gas of 153.6oC, and flow rate of the enzymatic extract fed to the dryer of 9.36 g/min, for the b-cyclodextrin and maltodextrin as adjuvants. For lactose as adjuvant the study showed that increasing the amount of drying adjuvant and/or decreasing the inlet gas temperature has positive effect on the retention of enzymatic activity of the dried product. After the purification process was carried out the drying of the partially purified enzyme and pure lipase, using these three adjuvants. The retention of enzymatic activity ranged from 90.6 to 100% when was used the optimal conditions for each drying adjuvant. Concluding, the lipases produced by C. kikuchii may be efficiently spray dried since its activity enzimatic was retained in crude extract, pure lipase and in semi-purified lipase after drying.

Caracterização enzimática

Cercospora kikuchii

Estabilização enzimática

Fungo endofítico.

Lipase

Spray dryer

Cercospora kikuchii

Endophytic fungus.

Enzyme characterization

Enzyme stabilization

Lipase

Spray drying

Biological control of clubroot (Plasmodiophora brassicae) by an endophytic fungus (Acremonium alternatum) / Biologische Kontrolles der Kohlhernie (Klumpfusskrankheit; Plasmodiophora brassicae) durch einen endophytischen Pilz (Acremonium alternatum)

Auer, Susann

18 September 2015

The biological control of plant pests with beneficial microbes has become increasingly important over the last decades. Soil microbes such as fungi and bacteria colonise the roots of plants and promote their growth. Some beneficial microbes can trigger a weak plant defence response that enhances the immune response of the plant at subsequent pathogen attacks and therefore increase the resistance of the plant to other invaders. This mechanism is called “priming”. While biocontrol agents are applied against a variety of plant pests fundamental knowledge of the molecular mechanisms of plant-microbe interactions is still lacking. Especially molecular studies on the role of resistance genes in the interaction of plants with beneficial endophytic fungi are rare. In this study it was investigated how the fungal biocontrol agent Acremonium alternatum affects the development of the clubroot pathogen Plasmodiophora brassicae within the plant host Arabidopsis thaliana. Clubroot is a devastating disease in crop plants such as cabbage and rapeseed and causes abnormal root growth that leads to so called “club roots”. P. brassicae develops within the plant roots and forms resting spores that are very durable and stay infective in soils for up to 2 decades. The control of clubroot by chemical means is difficult and the disease continues to spread on all continents and was also found in Saxony, Germany in recent years. In 2 preliminary studies the co-inoculation of clubroot plants with the fungus A. alternatum resulted in reduced clubroot symptoms in Chinese cabbage and Arabidopsis. It was therefore hypothesised that A. alternatum induces resistance mechanisms in the plant and thus enhances immunity. The focus of this study was to test this hypothesis by carrying out expression analyses on root tissue of infected Arabidopsis plants. For this the plants were inoculated with spores of P. brassicae and A. alternatum before RNA was extracted from the roots, followed by cDNA synthesis and quantitative Reverse Transcriptase Polymerase Chain Reaction (RT-qPCR). A microarray of root tissue of infected Arabidopsis plants was carried out to depict the events at the stage of initial root hair infection with the clubroot pathogen. The findings from the gene expression analyses were verified for 2 genes with Arabidopsis mutants that are defective in the respective gene and with 2 overexpressor lines. Clubroot symptoms were assessed by rating the root galls according to their stage of development. The overall plant health was further evaluated by recording the developmental stage of the plants (generative vs. vegetative), stem lengths and plant biomass. In addition, 2 local varieties of the economically important crop plant rapeseed (Brassica napus var. Ability and var. Visby) were investigated with qRT-PCR and by recording the disease parameters just described. A second goal of this study was to assess the general biocontrol potential of the yet relatively unknown endophyte A. alternatum in terms of enzymatic activity and competitive behaviour against other phytopathogenic fungi. The potential of this fungus for the use in integrative pest management was investigated. The results presented here are novel findings for this fungus and have not been studied before. The microarray from Arabidopsis roots revealed that the clubroot pathogen P. brassicae suppresses its recognition by pathogen receptors of the plant and thus prevents the host to induce resistance mechanisms. The fungus A. alternatum boosted the level of the pathogen recognition-related genes BAK1 and FLS2 and thus helped to establish early plant defence responses. PCR analyses confirmed that these early responses led to salicylic acid-dependent resistance in the plants which was maintained for several days as shown by elevated levels of the PATHOGENESIS-RELATED gene PR1. Marker genes for an alternative resistance pathway that is mediated over the plant signals jasmonate and ethylene were not activated in Arabidopsis. The co-inoculation of Arabidopsis plants with the endophyte A. alternatum resulted in a significant reduction of clubroot symptoms by up to 24%. In rapeseed the reduction of disease symptoms was 19% and 28% when the plants were treated with a crude cell wall extract of A. alternatum before inoculation with the clubroot pathogen. PCR analyses from Arabidopsis showed a strong response of pathogen recognition genes to the cell wall extract and spores of the endophytic fungus. In rapeseed all of the investigated pathogen recognition genes were upregulated after the endophyte treatment but not with the clubroot pathogen. Together with the PCR results from the microarray these findings suggest that A. alternatum primes its host plant and enhances the resistance of the plant towards P. brassicae. In addition, the fungus increased biomass, stem lengths and survival rates of clubroot-infected plants. In vitro tests revealed that the endophyte can solubilise phosphate and is not very competitive against other phytopathogenic fungi such as Aspergillus or Fusarium which is likely an effect of the relatively slow growth of the endophyte on agar plates. From this study it can be concluded that i) the fungus Acremonium alternatum induces resistance mechanisms in Arabidopsis and 2 Brassica napus cultivars and facilitates the recognition of the clubroot pathogen Plasmodiophora brassicae; ii) that Arabidopsis and Brassica react differently to this beneficial microbe, a fact that has been observed for Plasmodiophora and other microorganisms as well; iii) living spores are not necessary for clubroot biocontrol in rapeseed as a crude cell wall extract reduces symptoms more efficiently. Overall the endophyte A. alternatum is a very promising candidate for the use in integrative pest management in plant strengtheners or as biocontrol agent. / Die biologische Kontrolle von Pflanzenkrankheiten gewinnt zunehmend an Bedeutung. Bodenbewohnende Mikroben wie Pilze oder Bakterien kolonisieren die Wurzeln von Pflanzen und fördern deren Wachstum. Einige dieser förderlichen Mikroben aktivieren eine schwache Abwehrreaktion in der Pflanze die sich verstärkt bei einer weiteren Infektion mit einem Krankheitserreger. Dieser Mechanismus, den man “Priming” nennt, führt zu einer verbesserten Resistenz der Pflanze gegenüber Pflanzenpathogenen. Obwohl natürliche Schädlingsbekämpfer bereits gegen eine Vielzahl an Krankheiten eingesetzt werden, weiss man über grundsätzliche molekulare Mechanismen dieser Pflanzen-Mikroben-Interaktionen nur wenig. Besonders die Rolle von Resistenzgenen ist bisher wenig erforscht, welche bei der Beziehung zwischen Pilzen und Pflanzen eine Rolle spielen. In der hier vorliegenden Arbeit wurde untersucht, wie der endophytische Pilz Acremonium alternatum die Entwicklung des Krankheitserregers Plasmodiophora brassicae in der Pflanze Arabidopsis thaliana beeinflusst. Die Kohlhernie, ausgelöst von P. brassicae, ist eine verheerende Krankheit die u. a. bei Kohl und Raps auftritt und Wurzelgallen, so genannte “Hernien”, hervorruft. Der Krankheitserreger entwickelt sich im Wurzelsystem der Pflanze und bildet Dauersporen, die bis zu 20 Jahre lang im Boden infektiös überdauern können. Ein Eindämmen der Krankheit mit Pflanzenschutzmitteln ist durch den komplexen Lebenslauf des Erregers sehr schwierig, das führte zu einer weltweiten Verbreitung der Kohlhernie. Auch in Sachsen wurden in den letzten Jahren Fälle von Kohlhernie gemeldet. Wie 2 Studien zeigen, führt die Ko-Inokulation von Kohlhernie-erkrankten Pflanzen mit A. alternatum zu einer Verringerung der Symptome in Chinakohl und Arabidopsis. Es wurde daher die Hypothese aufgestellt, dass der Pilz Resistenzmechanismen in der Pflanze anschaltet und damit ihre Immunität erhöht. Um diese Hypothese zu testen, wurden in der hier vorliegenden Studie Genexpressionsanalysen an infizierten Arabidopsiswurzeln durchgeführt. Dafür wurden die Pflanzen zunächst mit Sporen des Kohlhernieerregers und des Pilzes inokuliert, es wurde RNA aus den Wurzeln extrahiert, in cDNA umgeschrieben und diese mittels quantitativer Reverse-Transkriptase-Polymerasenkettenreaktion (RT-qPCR) untersucht. Ein Microarray von Wurzeln infizierter Pflanzen wurde durchgeführt um die Ereignisse abzubilden, die sich zeitnah nach der Infektion in den Wurzeln abspielen. Die Ergebnisse der Genexpressionsanalysen wurden dann an Arabidopsismutanten, die einen Gendefekt im jeweiligen Gen haben, und an Überexprimierer-Pflanzen verifiziert. Kohlherniesymptome an Pflanzen wurden durch eine Kategorisierung der Schadsymptome erfasst. Die allgemeine Pflanzengesundheit sowie der Entwicklungsstand der Pflanze, Stengellängen und das Frischgewicht wurden bestimmt. Zusätzlich wurden 2 Rapssorten, die in Sachsen angebaut werden, untersucht im Hinblick auf die Krankheitsenwicklung und die Reguation von Abwehrgenen. Ein weiteres Ziel dieser Arbeit war es das Biokontrollpotential des bisher schlecht untersuchten Pilzes A. alternatum zu bestimmen. Dazu wurde in vitro die Enzymaktivität des Pilzes getestet sowie seine Konkurrenzfähigkeit gegenüber anderen pflanzenpathogenen Pilzen. Das Potential des Pilzes für die Anwendung im integrierten Pflanzenschutz wurde getestet. Die hier präsentieren Ergebnisse stellen neue Erkenntnisse dar, die für diesen Pilz noch nie untersucht wurden. Der Microarray von Arabidopsiswurzeln zeigte, dass der Kohlhernieerregers die Erkennung durch die Pflanze verhindert und damit Abwehrmechanismen verhindert. Der Pilz A. alternatum förderte die Aktivität der pflanzlichen Erkennungsrezeptoren FLS2 und BAK1 und setzte damit die Erkennung von P. brassicae in Gang. PCR-Analysen ergaben, dass diese früh induzierten Abwehrmechanismen zu einer systemischen Resistenz in der Pflanze führte durch die Aktivierung des Pathogenese-relevanten Gens PR1. Genmarker, die die Aktivität eines alternativen, von Jasmonat und Ethylen vermittelten Abwehrweges anzeigen, waren nicht ativiert. Die Ko-Inokulation von Arabidopsis mit dem Endophyten führte zu einer signifikanten Reduktion der Krankheitssymptome um 24%. In Raps betrug die Reduktion 19% und 24% wenn die Pflanzen vor der Kohlhernie-Infektion mit einem Zellwandextrakt des Pilzes behandelt wurden. Mittels PCR konnte gezeigt werden, dass Gene für das Erkennen von Pathogenen in der Wurzel von Arabidopsis auf den Zellwandextrakt und Sporen des Pilzes reagieren. In Raps wurden alle der untersuchten Erkennungsgene aufreguliert nach der Infektion mit A. alternatum, nicht jedoch bei der Infektion mit P. brassicae. Zusammenfassend lässt sich sagen, dass der endophytische Pilz A. alternatum die Wirtspflanze auf eine folgende Infektion vorbereitet (Priming) und systemische Abwehr-mechanismen in der Pflanze induziert, wenn diese mit Kohlhernie infiziert ist. Außerdem treibt der Pilz das Sprosswachstum voran, erhöht die Biomasse und fördert das Überleben von Kohlhernie-infizierten Pflanzen. In vitro-Tests ergaben, dass der Endophyt Kalziumphosphat löslich machen kann und wenig kompetitiv gegenüber Pflanzenpathogenen wie Aspergillus oder Fusarium ist. Dies ist vermutlich mit dem langsameren Wachstum des Endophyten im Gegensatz zu den anderen Pilzen zu erklären. Aus den Ergebnissen dieser Arbeit lassen sich folgende Schlüsse ziehen: i) der endophytische Pilz Acremonium alternatum induziert Resistenzmechanismen in Arabidopsis und Raps und und fördert die Erkennung des Kohlhernieerregers Plasmodiophora brassicae; ii) Arabidopsis und Raps reagieren unterschiedlich auf diesen förderlichen Pilz, ein solcher Unterschied wurde bereits für Plasmodiophora und andere Mikroben beschrieben; iii) lebende Sporen des Pilzes sind nicht notwendig um Krankheitssymptome der Kohlhernie in Raps zu verringern, ein Zellwandextrakt von A. alternatum ist dafür besser geeignet. Ganz allgemein lässt sich sagen, dass der endophytische Pilz Acremonium alternatum ein sehr vielversprechender Kandidat ist für den Einsatz im integrierten Pflanzenschutz in Pflanzenstärkungsmitteln oder als Biokontrollorganismus.

Plasmodiophora

Acremonium alternatum

Kohlhernie

Biologischer Pflanzenschutz

Resistenz

Pflanzliche Abwehr

Pflanzenkrankheiten

endophytischer Pilz

Plasmodiophora

Acremonium alternatum

clubroot

induced resistance

endophytic fungus

plant disease

pest

plant immunity

biocontrol

ddc:570

rvk:ZC 25000

Structure Elucidation and Biological Evaluation of a Novel Steroidal Saponin, Cholestanol Glucoside Isolated from Saraca Asoca Enodophytic Fuungus, Lasiodiplodia Theobromae

Valayil, Jinu Mathew

January 2015

Although the molecular mechanisms underlying the onset and progression of cancer has been unraveled to a great extend, cancer continues to remain a leading cause of death around the world. Clinical efficacy of the existing anticancer drugs are largely compromised by the inherent and acquired resistance of cancer cell types and the severe side effects evoked by chemotherapeutic agents. Hence, the search for novel anticancer drugs with minimum side effects remains an active area of cancer research. Although molecular targeted drugs are preferred over the conventional cytotoxic chemotherapy, the screening of natural compounds with cytotoxic potentialities continues as they can serve as lead structures for the development of tumor selective anticancer drugs. Plants and microorganisms have been the prominent sources of therapeutic agents. Microorganisms being readily renewable, inexhaustible sources of diverse bioactive secondary metabolites are preferred over plants as sources of bioactive compounds. Endophytes are microorganisms that reside within the living tissue of host plant and they enhance the survival value of the host plant by mediating various stress tolerance mechanisms. Endophytic fungi have gained attention as potential sources of bioactive secondary metabolites following the discovery of a taxol producing endophytic fungus Taxomyces adrenae, from Taxus brevifolia. Moreover, endophytes occupy a unique biological niche in which they maintain a balanced interaction with the host organism and other co-inhabiting microorganisms. All these factors contribute to the chemical diversity of the metabolites they produce. Plants restricted to extreme or unique habitats or those with ethnobotanical value are likely to lodge endophytes that possess a unique hoard of secondarymetabolites. Saraca asoca is a traditionalmedicinal plant with its occurrence restricted to countries such as India, Sri Lanka, Burma and Malaysia. The purpose of the present study is to explore the endophytic fungal population associated with S. asoca in search of novel anticancer lead structures. S. asoca was found to house a diverse endophytic fungal population belonging to 37 different species. Identification of the fungal isolates was based on ITS (internal transcribed spacer region) sequence analysis as well as colony and spore characteristics. The organic extracts of all fungal species were assessed for their in vitro cytotoxicities in three human cancer cell lines, HeLa, HepG2 and PC3 byMTT assay. 18 species exhibited remarkable cytotoxic activities, among which Pestalotiopsis sp. 6 exhibited themost significant cytotoxicity. The strain with second highest activity was Lasiodiplodia theobromae. In order to identify the active principle present in the organic extracts of Pestalotiopsis sp. 6 and L. theobromae, the organic extracts were chromatographed on TLC plates and individual compounds were recovered by scraping off from the TLC plates and extracting with methanol. The cytotoxicity assay of the TLC purified compounds suggested the cytotoxic activity of Pestalotiopsis sp.6 to be a synergetic effect of two or more compounds whereas the cytotoxicity of L. theobromae organic extract was largely due to a single compound. Hence the active principle present in L. theobromae organic extract was purified by bioassay - guided column chromatography. Repeated chromatography of the crude extract using three silica gel columns resulted in the isolation of anticancer compound. Based on the analysis of ESI-MS, IR, NMR and UV spectral data, the isolated compound was identified as a novel steroidal saponin, cholestan-3-O-¯-Dglucopyranoside (cholestanol glucoside - CG). The in vitro cytotoxic effects of CG towards seven human cancer cell lines, HeLa, HepG2, PC3, U251,MCF 7, OVCAR3 and A549 were examined. Among the cell lines screened, HeLa cells weremost vulnerable to CG treatment, with an IC50 value of 3.2 ¹M. Hence themode of cell death induction in HeLa cells by CG was further investigated. Analysis of cell cycle progression by propidium iodide (PI) staining revealed that CG arrests the cells in S phase of cell cycle prior to the induction of cell death. The morphological and biochemical features of apoptosis were investigated by nuclear staining, DNA fragmentation assay and Annexin V-FITC/ PI dual staining. All these results suggested that CG effectively induced apoptosis in HeLa cells in a concentration dependent manner. It was also found that CG treatment induced remarkable ROS generation and mitochondrial membrane potential loss. The pretreatment of cells with an antioxidant, N-acetyl cysteine (NAC), blocked CG induced ROS generation, mitochondrialmembrane depolarization and apoptotic cell death. Hence it could be concluded that CG kills the cancer cells by augmenting their basal oxidative stress and hence is less likely to be toxic to normal cells. Moreover, a high Bax to Bcl-2 ratio, high levels of Apaf-1 and p53, activation of procaspase-3 and procaspase-9 and cleavage of PARP were observed in CG treated HeLa cells. Taken together, our results suggested that CG induced apoptosis in HeLa cells via ROS mediated mitochondria dependent pathway. Biosynthesis of secondarymetabolites by filamentous fungi is influenced by the availability of nutrient factors. Therefore, it is essential to optimize the culturemedium components to ensure a maximum and consistent yield of desired metabolite by the fungal isolate. We designed a chemically defined production medium for CG production by L. theobromae. Carbon source, nitrogen source and microelements in the production medium were further optimized in stationary flask cultures to improve the mycelial growth and yield of CG by L. theobromae. The conventional one-factor at a time (OFAT)method was employed for the optimization of carbon and nitrogen sourceswhose contribution effects towards the final yield are large. Response surface methodology (RSM) was employed for the optimization of microelements. Optimization of culturemedium enhanced the yield of CG from 10mg L¡1 to 50mg L¡1. Various secondarymetabolites are produced by organisms in response to different stress conditions. This knowledge has been exploited in plant cell culture systems to increase the yield of particular secondary metabolites by artificial implementation of stress conditions. We investigated the effect of oxidative, osmotic and heat shock stresses on the production of CG by L. theobromae. Heat shock and osmotic stresses in liquid cultures were found to enhance the yield of CG by 1.2-fold, relative to the controls. Oxidative stress by both menadione and H2O2 enhanced the yield by 1.8-fold compared to the controls. Thus oxidative stress proved to be an efficient enhancer of CG production by L. theobromae. These findings ensure a large scale, cost-effective production of CG.

Endophytic Fungi

Saraca Asoca Endophytic Fungus

Steroidal Saponin Cholestanol Glucoside

HeLa Cells Apoptosis

Endophytes

Anti Cancer Compounds

Bioactive Secondary Metabolites

Natural Products Drug Therapy

Enodophytic Fuungus

Saraca asoca

Lasiodiplodia theobromae

Cholestanol Glucoside

Steroidal Saponin

Biochemistry

Biological control of clubroot (Plasmodiophora brassicae) by an endophytic fungus (Acremonium alternatum)

Auer, Susann

18 August 2015

The biological control of plant pests with beneficial microbes has become increasingly important over the last decades. Soil microbes such as fungi and bacteria colonise the roots of plants and promote their growth. Some beneficial microbes can trigger a weak plant defence response that enhances the immune response of the plant at subsequent pathogen attacks and therefore increase the resistance of the plant to other invaders. This mechanism is called “priming”. While biocontrol agents are applied against a variety of plant pests fundamental knowledge of the molecular mechanisms of plant-microbe interactions is still lacking. Especially molecular studies on the role of resistance genes in the interaction of plants with beneficial endophytic fungi are rare. In this study it was investigated how the fungal biocontrol agent Acremonium alternatum affects the development of the clubroot pathogen Plasmodiophora brassicae within the plant host Arabidopsis thaliana. Clubroot is a devastating disease in crop plants such as cabbage and rapeseed and causes abnormal root growth that leads to so called “club roots”. P. brassicae develops within the plant roots and forms resting spores that are very durable and stay infective in soils for up to 2 decades. The control of clubroot by chemical means is difficult and the disease continues to spread on all continents and was also found in Saxony, Germany in recent years. In 2 preliminary studies the co-inoculation of clubroot plants with the fungus A. alternatum resulted in reduced clubroot symptoms in Chinese cabbage and Arabidopsis. It was therefore hypothesised that A. alternatum induces resistance mechanisms in the plant and thus enhances immunity. The focus of this study was to test this hypothesis by carrying out expression analyses on root tissue of infected Arabidopsis plants. For this the plants were inoculated with spores of P. brassicae and A. alternatum before RNA was extracted from the roots, followed by cDNA synthesis and quantitative Reverse Transcriptase Polymerase Chain Reaction (RT-qPCR). A microarray of root tissue of infected Arabidopsis plants was carried out to depict the events at the stage of initial root hair infection with the clubroot pathogen. The findings from the gene expression analyses were verified for 2 genes with Arabidopsis mutants that are defective in the respective gene and with 2 overexpressor lines. Clubroot symptoms were assessed by rating the root galls according to their stage of development. The overall plant health was further evaluated by recording the developmental stage of the plants (generative vs. vegetative), stem lengths and plant biomass. In addition, 2 local varieties of the economically important crop plant rapeseed (Brassica napus var. Ability and var. Visby) were investigated with qRT-PCR and by recording the disease parameters just described. A second goal of this study was to assess the general biocontrol potential of the yet relatively unknown endophyte A. alternatum in terms of enzymatic activity and competitive behaviour against other phytopathogenic fungi. The potential of this fungus for the use in integrative pest management was investigated. The results presented here are novel findings for this fungus and have not been studied before. The microarray from Arabidopsis roots revealed that the clubroot pathogen P. brassicae suppresses its recognition by pathogen receptors of the plant and thus prevents the host to induce resistance mechanisms. The fungus A. alternatum boosted the level of the pathogen recognition-related genes BAK1 and FLS2 and thus helped to establish early plant defence responses. PCR analyses confirmed that these early responses led to salicylic acid-dependent resistance in the plants which was maintained for several days as shown by elevated levels of the PATHOGENESIS-RELATED gene PR1. Marker genes for an alternative resistance pathway that is mediated over the plant signals jasmonate and ethylene were not activated in Arabidopsis. The co-inoculation of Arabidopsis plants with the endophyte A. alternatum resulted in a significant reduction of clubroot symptoms by up to 24%. In rapeseed the reduction of disease symptoms was 19% and 28% when the plants were treated with a crude cell wall extract of A. alternatum before inoculation with the clubroot pathogen. PCR analyses from Arabidopsis showed a strong response of pathogen recognition genes to the cell wall extract and spores of the endophytic fungus. In rapeseed all of the investigated pathogen recognition genes were upregulated after the endophyte treatment but not with the clubroot pathogen. Together with the PCR results from the microarray these findings suggest that A. alternatum primes its host plant and enhances the resistance of the plant towards P. brassicae. In addition, the fungus increased biomass, stem lengths and survival rates of clubroot-infected plants. In vitro tests revealed that the endophyte can solubilise phosphate and is not very competitive against other phytopathogenic fungi such as Aspergillus or Fusarium which is likely an effect of the relatively slow growth of the endophyte on agar plates. From this study it can be concluded that i) the fungus Acremonium alternatum induces resistance mechanisms in Arabidopsis and 2 Brassica napus cultivars and facilitates the recognition of the clubroot pathogen Plasmodiophora brassicae; ii) that Arabidopsis and Brassica react differently to this beneficial microbe, a fact that has been observed for Plasmodiophora and other microorganisms as well; iii) living spores are not necessary for clubroot biocontrol in rapeseed as a crude cell wall extract reduces symptoms more efficiently. Overall the endophyte A. alternatum is a very promising candidate for the use in integrative pest management in plant strengtheners or as biocontrol agent. / Die biologische Kontrolle von Pflanzenkrankheiten gewinnt zunehmend an Bedeutung. Bodenbewohnende Mikroben wie Pilze oder Bakterien kolonisieren die Wurzeln von Pflanzen und fördern deren Wachstum. Einige dieser förderlichen Mikroben aktivieren eine schwache Abwehrreaktion in der Pflanze die sich verstärkt bei einer weiteren Infektion mit einem Krankheitserreger. Dieser Mechanismus, den man “Priming” nennt, führt zu einer verbesserten Resistenz der Pflanze gegenüber Pflanzenpathogenen. Obwohl natürliche Schädlingsbekämpfer bereits gegen eine Vielzahl an Krankheiten eingesetzt werden, weiss man über grundsätzliche molekulare Mechanismen dieser Pflanzen-Mikroben-Interaktionen nur wenig. Besonders die Rolle von Resistenzgenen ist bisher wenig erforscht, welche bei der Beziehung zwischen Pilzen und Pflanzen eine Rolle spielen. In der hier vorliegenden Arbeit wurde untersucht, wie der endophytische Pilz Acremonium alternatum die Entwicklung des Krankheitserregers Plasmodiophora brassicae in der Pflanze Arabidopsis thaliana beeinflusst. Die Kohlhernie, ausgelöst von P. brassicae, ist eine verheerende Krankheit die u. a. bei Kohl und Raps auftritt und Wurzelgallen, so genannte “Hernien”, hervorruft. Der Krankheitserreger entwickelt sich im Wurzelsystem der Pflanze und bildet Dauersporen, die bis zu 20 Jahre lang im Boden infektiös überdauern können. Ein Eindämmen der Krankheit mit Pflanzenschutzmitteln ist durch den komplexen Lebenslauf des Erregers sehr schwierig, das führte zu einer weltweiten Verbreitung der Kohlhernie. Auch in Sachsen wurden in den letzten Jahren Fälle von Kohlhernie gemeldet. Wie 2 Studien zeigen, führt die Ko-Inokulation von Kohlhernie-erkrankten Pflanzen mit A. alternatum zu einer Verringerung der Symptome in Chinakohl und Arabidopsis. Es wurde daher die Hypothese aufgestellt, dass der Pilz Resistenzmechanismen in der Pflanze anschaltet und damit ihre Immunität erhöht. Um diese Hypothese zu testen, wurden in der hier vorliegenden Studie Genexpressionsanalysen an infizierten Arabidopsiswurzeln durchgeführt. Dafür wurden die Pflanzen zunächst mit Sporen des Kohlhernieerregers und des Pilzes inokuliert, es wurde RNA aus den Wurzeln extrahiert, in cDNA umgeschrieben und diese mittels quantitativer Reverse-Transkriptase-Polymerasenkettenreaktion (RT-qPCR) untersucht. Ein Microarray von Wurzeln infizierter Pflanzen wurde durchgeführt um die Ereignisse abzubilden, die sich zeitnah nach der Infektion in den Wurzeln abspielen. Die Ergebnisse der Genexpressionsanalysen wurden dann an Arabidopsismutanten, die einen Gendefekt im jeweiligen Gen haben, und an Überexprimierer-Pflanzen verifiziert. Kohlherniesymptome an Pflanzen wurden durch eine Kategorisierung der Schadsymptome erfasst. Die allgemeine Pflanzengesundheit sowie der Entwicklungsstand der Pflanze, Stengellängen und das Frischgewicht wurden bestimmt. Zusätzlich wurden 2 Rapssorten, die in Sachsen angebaut werden, untersucht im Hinblick auf die Krankheitsenwicklung und die Reguation von Abwehrgenen. Ein weiteres Ziel dieser Arbeit war es das Biokontrollpotential des bisher schlecht untersuchten Pilzes A. alternatum zu bestimmen. Dazu wurde in vitro die Enzymaktivität des Pilzes getestet sowie seine Konkurrenzfähigkeit gegenüber anderen pflanzenpathogenen Pilzen. Das Potential des Pilzes für die Anwendung im integrierten Pflanzenschutz wurde getestet. Die hier präsentieren Ergebnisse stellen neue Erkenntnisse dar, die für diesen Pilz noch nie untersucht wurden. Der Microarray von Arabidopsiswurzeln zeigte, dass der Kohlhernieerregers die Erkennung durch die Pflanze verhindert und damit Abwehrmechanismen verhindert. Der Pilz A. alternatum förderte die Aktivität der pflanzlichen Erkennungsrezeptoren FLS2 und BAK1 und setzte damit die Erkennung von P. brassicae in Gang. PCR-Analysen ergaben, dass diese früh induzierten Abwehrmechanismen zu einer systemischen Resistenz in der Pflanze führte durch die Aktivierung des Pathogenese-relevanten Gens PR1. Genmarker, die die Aktivität eines alternativen, von Jasmonat und Ethylen vermittelten Abwehrweges anzeigen, waren nicht ativiert. Die Ko-Inokulation von Arabidopsis mit dem Endophyten führte zu einer signifikanten Reduktion der Krankheitssymptome um 24%. In Raps betrug die Reduktion 19% und 24% wenn die Pflanzen vor der Kohlhernie-Infektion mit einem Zellwandextrakt des Pilzes behandelt wurden. Mittels PCR konnte gezeigt werden, dass Gene für das Erkennen von Pathogenen in der Wurzel von Arabidopsis auf den Zellwandextrakt und Sporen des Pilzes reagieren. In Raps wurden alle der untersuchten Erkennungsgene aufreguliert nach der Infektion mit A. alternatum, nicht jedoch bei der Infektion mit P. brassicae. Zusammenfassend lässt sich sagen, dass der endophytische Pilz A. alternatum die Wirtspflanze auf eine folgende Infektion vorbereitet (Priming) und systemische Abwehr-mechanismen in der Pflanze induziert, wenn diese mit Kohlhernie infiziert ist. Außerdem treibt der Pilz das Sprosswachstum voran, erhöht die Biomasse und fördert das Überleben von Kohlhernie-infizierten Pflanzen. In vitro-Tests ergaben, dass der Endophyt Kalziumphosphat löslich machen kann und wenig kompetitiv gegenüber Pflanzenpathogenen wie Aspergillus oder Fusarium ist. Dies ist vermutlich mit dem langsameren Wachstum des Endophyten im Gegensatz zu den anderen Pilzen zu erklären. Aus den Ergebnissen dieser Arbeit lassen sich folgende Schlüsse ziehen: i) der endophytische Pilz Acremonium alternatum induziert Resistenzmechanismen in Arabidopsis und Raps und und fördert die Erkennung des Kohlhernieerregers Plasmodiophora brassicae; ii) Arabidopsis und Raps reagieren unterschiedlich auf diesen förderlichen Pilz, ein solcher Unterschied wurde bereits für Plasmodiophora und andere Mikroben beschrieben; iii) lebende Sporen des Pilzes sind nicht notwendig um Krankheitssymptome der Kohlhernie in Raps zu verringern, ein Zellwandextrakt von A. alternatum ist dafür besser geeignet. Ganz allgemein lässt sich sagen, dass der endophytische Pilz Acremonium alternatum ein sehr vielversprechender Kandidat ist für den Einsatz im integrierten Pflanzenschutz in Pflanzenstärkungsmitteln oder als Biokontrollorganismus.

info:eu-repo/classification/ddc/570

ddc:570