Natural product discovery and biosynthesis from soil actinobacteria

Wang, Xiaoling

January 2013

New structurally diverse natural products can be discovered when carefully designed screening procedures have been applied and when a prolific organism from a different biological source is examined, such as, rare actinobacteria from an untapped environment. Chapter 3 describes the isolation and structure characterisation of eight compounds from the rare actinobacterum, Saccharothrix xinjiangensis (NRRL B-24321), including, two new 16-member macrolides, Tianchimycin A and B, respectively. OSMAC (One Strain - Many Compounds) is used to search bioactive compounds from the metabolic profile of S. xinjiangensis, isolated from a semi-arid or desert area, Tanchi, Xinjiang in the study. Isolated compounds were characterised by NMR spectroscopy and accurate mass spectrometric analysis. Investigations of the natural products at all levels, from genes, to enzymes, to molecules has revealed insights into differentiating features of the biosynthetic pathways that lead to structural diversity of natural products. The presence of a halogen substituent in natural products profoundly influences their biology activity. Actinomycins are a well-known class of antibiotics/anticancer agents. Here, the gene cluster directing chlorinated actinomycin G biosynthesis in Streptomyces iakyrus (DSM 41873) has been identified and sequenced. It contains one actinomycin synthetase I (ACMS I) gene and two copies of ACMS II and III genes. Genetic analysis demonstrates a unique partnership between the putative hydroxylation and chlorination activities as both acm8 and acm9 genes need to be transcribed for the biosynthesis of actinomycin G2 and actinomycin G3, respectively. In chapter 5, I descries a possible metabolic flux rebalancing pathway for increasing phenazinomycin production in S. iakyrus (DSM 41873) after interruption of the methyltrasfer gene (acmG5') in actinomycin G gene cluster. The gene cluster of phenazinomycin was identified by in silico analysis and by comparison with a known phenazine gene cluster from S. iakyrus (DSM 41873).

540

Gene mining of biosynthesis genes and biosynthetic manipulation of marine bacteria for the production of new antibiotic candidates

Zarins-Tutt, Joseph Scott

January 2015

Natural product drug discovery has traditionally been the corner stone of medicine having provided cures to many of today's most common diseases. In particular, antibiotics have revolutionised healthcare and extended human lifespan. However, since their introduction into the clinic, resistance to these drugs has arisen. With the number of new antibiotics being discovered in recent years declining, and fewer drugs making it past clinical trials, we have reached the point where antibiotic resistant infections have become common place and a serious threat to health and society. There is now an urgent requirement for the discovery of new antibiotics and in particular those with unexploited mode of action. This thesis details the different areas of natural product drug development from discovery through to analogue generation. In Chapter one, the history of natural products as therapeutics is explored with a particular focus on antibiotics and how resistance arises against these agents. It outlines why the discovery of new antibiotics is so important and new methods used to facilitate this search. Chapter two follows with the development of a screening platform for antibiotic induction, using the model Streptomyces; Streptomyces coleiolor M145. A variety of culture additives are explored for their ability to induce secondary metabolism production. Chapter three then details the sampling and identification of microbes from a pseudo-marine environment and their screening for their ability to produce secondary metabolites with antibiotic properties. The second half of this thesis centres on the non-ribosomal peptide echinomycin. Collaborators Aquapharm supplied the marine derived strain AQP-4895, capable of producing echinomycin. Chapter four details the establishment of AQP-4895 culturing conditions and the shift observed in production profile. Next Chapter five looks at producing echinomycin analogues through precursor directed biosynthesis. A range of halogenated quinoxaline carboxylic acids are synthesised and fed to AQP-4895, and the respective echinomycin analogues monitored by LC-MS. Chapter Six then aims to direct biosynthesis of the halogenated analogues, using mutasynthesis. Due to the lack of genetic data available surrounding the strain, an unusual approach was taken, using iPCR to create a template for homologous recombination.

615.1

Cultura mista, manipulação química e genética de micro-organismos: estratégias para a diversificação do metabolismo secundário / Mixed culture, chemical and genetic manipulation of microorganisms:strategies for diversifying the secondary metabolism.

Chagas, Fernanda Oliveira das

24 April 2014

Recentes estudos genômicos têm mostrado que vários fungos e bactérias possuem um potencial biossintético superior à quantidade de me tabólitos secundários já isolados desses micro-organismos. A descoberta de produtos naturais inéditos e bioativos é limitada pela impossibilidade dos micro-organismos expressarem to das as suas rotas biossintéticas em laboratório. Assim, estratégias alternativas para i nduzir a produção de produtos naturais microbianos são necessárias. A utilização de cultur as mistas de micro-organismos é uma estratégia que vem sendo recentemente utilizada, na tentativa de mimetizar condições mais naturais de crescimento. Além disso, a adição de mo duladores químicos e epigenéticos às culturas microbianas também pode potencialmente est imular a produção de compostos de interesse, seja por ativar mecanismos celulares em resposta à condição de estresse, ou por alterar a taxa de transcrição de certos genes, em f unção de mudanças no grau de enovelamento da cromatina. Alternativamente, a indu ção de certos genes, e até mesmo a diversificação do metabolismo secundário, podem ser conseguidos através de engenharia genética, pela manipulação direta de genes de inter esse. A linhagem endofítica Alternaria tenuissima SS77, selecionada para os experimentos de modulaçã o química e epigenética, teve seu metabolismo secundário alterado após o tra tamento com diferentes moduladores. Provavelmente, o efeito observado ocorreu em função de uma eliciação inespecífica dos diferentes moduladores. Além disso, o cultivo misto desse fungo com o fungo endofítico Nigrospora sphaerica SS67 , isolada da mesma planta hospedeira ( Smallanthus sonchifolius ), levou ao isolamento de dois novos policetídeos, da classe das perilenequinonas, juntamente com um já relatado na literatura científica. Para r ealizar os cultivos microbianos mistos, envolvendo uma linhagem bacteriana e uma fúngica, t rês linhagens de actinobactérias e cinco de fungos, todos endofíticos da planta Lychnophora ericoides , foram selecionadas. Alterações no perfil metabólico da cultura mista de Phomopsis sp FLe6 com Streptomyces albospinus RLe7 foram as mais evidentes e por isso a maioria das investigações foram focadas nessa cultura mista. Várias condições de cu ltivo foram testadas e diferentes resultados foram obtidos. Em alguns casos, o desenv olvimento da linhagem fúngica foi inibido pela bacteriana, e em outros, foi observado o inverso. Da mesma forma, houve acentuada inibição da produção de alguns metabólito s secundários na presença da linhagem desafiadora, mas também foi verificada a eliciação de outros. Os extratos das culturas simples desses micro-organismos também apresentaram relativas alterações nos perfis metabólicos em função das condições de cultivo. Os metabólitos produzidos pelo fungo Phomopsis sp FLe6 e pela actinobactéria Streptomyces albospinus RLe7 foram isolados e caracterizados. Os resultados mostram que as intera ções entre os micro-organismos endofíticos são bastante complexas, estando sujeita s a ação de diversos fatores externos que muitas vezes não podem ser pré-determinados. Po r isso, estabelecer um cultivo misto adequado, do ponto de vista da eliciação da produçã o de metabólitos secundários, pode requerer uma série de tentativas. Ainda assim, os r esultados almejados podem ser conseguidos utilizando essa estratégia. Diferenteme nte das linhagens endofíticas, manipuladas quimicamente através de diferentes estr atégias, a linhagem sequenciada de Fusarium heterosporum ATCC 74349, foi manipulada geneticamente para a co nstrução de um gene biossintético híbrido pks-nrps , contendo a porção nrps do gene híbrido da equisetina e um pks críptico de Aspergillus fumigatus . Era esperado que a linhagem hibridizada fosse capaz de produzir o metabólito se cundário geneticamente planejado, entretanto, após seu cultivo, esse produto não foi detectado nos extratos, e as possíveis razões são discutidas. Ainda que os resultados espe rados não tenham sido obtidos, estudos que contribuam para a ampliação do entendimento das megassintases fúngicas são de extrema valia. / Recently, genetic studies have shown that several b acteria and fungi hold a greater biosynthetic potential than the amount of secondary metabolites isolated from these microorganisms. The discovery of novel bioactive na tural products is limited by the inability of microorganisms to express all their biosynthetic pa thways in laboratory conditions. Therefore, alternative strategies to induce the production of microbial natural products are required. Mixed cultures of microorganisms are a strategy tha t has been used to mimic more natural conditions of growth. Furthermore, the addition of chemical and epigenetic modulators to the microbial cultures can also stimulate the productio n of compounds by activating cellular mechanisms in response to stress conditions or by c hanging the transcription rate of certain genes, due to changes in the chromatin folding. Alt ernatively, the induction of some genes, and even the diversification of secondary metabolis m, can be achieved by genetic engineering, by manipulating genes of interest. The endophytic strain Alternaria tenuissima SS77, which was selected for the experiments of che mical and epigenetic modulation, had changed its secondary metabolism after treatment wi th different modulators. Probably, the observed effect was due to a nonspecific elicitatio n of those modulators. Moreover, the mixed cultures of this fungus with the endophytic fungus Nigrospora sphaerica SS67, isolated from the same host plant ( Smallanthus sonchifolius ), led to the isolation of two new polyketides, belonging to perylene quinone class, along with ano ther one already reported in the scientific literature. Three strains of actinobacteria and fiv e fungi, all endophytes of Lychnophora ericoides , were selected to grow in microbial mixed cultures comprising one bacteria and one fungus. Changes in the metabolic profile of the mix ed culture of Phomopsis sp. FLe6 with Streptomyces albospinus RLe7 were the most obvious, and then further studi es were focused on this mixed culture. Many culture conditions were analyzed and different results were obtained. In some cases, the development of the fun gal strain was inhibited by bacteria, and in other cases was observed the opposite. Similarly , there was a remarkable inhibition of the production of certain secondary metabolites in the presence of the challenging strain, but the eliciting of others was also observed. The extracts of the single cultures of these microorganisms also showed changes in metabolic pro files due to culture conditions. The metabolites produced by the fungus Phomopsis sp. FLe6 and the actinobacteria S. albospinus RLe7 were isolated and characterized. The results show that interactions between endophytic microorganisms are quite complex and are influenced by various external factors that often can not be previously determined. Theref ore, establishing a suitable mixed culture to elicit the production of secondary metabolites m ay require some attempts. Still, the expected results can be achieved using this strateg y. Unlike the endophytic strains, that was chemically manipulated by different strategies, the sequenced strain Fusarium heterosporum ATCC 74349 was genetically manipulated to construct a hybrid PKS-NRPS biosynthetic gene containing the NRPS portion of the hybrid gene of e quisetin and a cryptic PKS gene of Aspergillus fumigatus . It was expected that hybridized strain could be a ble to produce the secondary metabolite genetically planned, however, after its cultivation, this product was not detected in any extracts, and some possible reasons are discussed. Although the expected results have not been obtained, studies that contri bute to increasing the understanding of fungal megasynthases are extremely valuable

biossíntese de produtos naturais

biosynthesis of natural products

chemica l and epigenetic modulation

culturas mistas de endofíticos

genetic engineering of filamentous fungi

metabolismo secund ário

mixed c ulture of endophytes

modulação química e epigenética

secondary metabolism

Cultura mista, manipulação química e genética de micro-organismos: estratégias para a diversificação do metabolismo secundário / Mixed culture, chemical and genetic manipulation of microorganisms:strategies for diversifying the secondary metabolism.

Fernanda Oliveira das Chagas

24 April 2014

Recentes estudos genômicos têm mostrado que vários fungos e bactérias possuem um potencial biossintético superior à quantidade de me tabólitos secundários já isolados desses micro-organismos. A descoberta de produtos naturais inéditos e bioativos é limitada pela impossibilidade dos micro-organismos expressarem to das as suas rotas biossintéticas em laboratório. Assim, estratégias alternativas para i nduzir a produção de produtos naturais microbianos são necessárias. A utilização de cultur as mistas de micro-organismos é uma estratégia que vem sendo recentemente utilizada, na tentativa de mimetizar condições mais naturais de crescimento. Além disso, a adição de mo duladores químicos e epigenéticos às culturas microbianas também pode potencialmente est imular a produção de compostos de interesse, seja por ativar mecanismos celulares em resposta à condição de estresse, ou por alterar a taxa de transcrição de certos genes, em f unção de mudanças no grau de enovelamento da cromatina. Alternativamente, a indu ção de certos genes, e até mesmo a diversificação do metabolismo secundário, podem ser conseguidos através de engenharia genética, pela manipulação direta de genes de inter esse. A linhagem endofítica Alternaria tenuissima SS77, selecionada para os experimentos de modulaçã o química e epigenética, teve seu metabolismo secundário alterado após o tra tamento com diferentes moduladores. Provavelmente, o efeito observado ocorreu em função de uma eliciação inespecífica dos diferentes moduladores. Além disso, o cultivo misto desse fungo com o fungo endofítico Nigrospora sphaerica SS67 , isolada da mesma planta hospedeira ( Smallanthus sonchifolius ), levou ao isolamento de dois novos policetídeos, da classe das perilenequinonas, juntamente com um já relatado na literatura científica. Para r ealizar os cultivos microbianos mistos, envolvendo uma linhagem bacteriana e uma fúngica, t rês linhagens de actinobactérias e cinco de fungos, todos endofíticos da planta Lychnophora ericoides , foram selecionadas. Alterações no perfil metabólico da cultura mista de Phomopsis sp FLe6 com Streptomyces albospinus RLe7 foram as mais evidentes e por isso a maioria das investigações foram focadas nessa cultura mista. Várias condições de cu ltivo foram testadas e diferentes resultados foram obtidos. Em alguns casos, o desenv olvimento da linhagem fúngica foi inibido pela bacteriana, e em outros, foi observado o inverso. Da mesma forma, houve acentuada inibição da produção de alguns metabólito s secundários na presença da linhagem desafiadora, mas também foi verificada a eliciação de outros. Os extratos das culturas simples desses micro-organismos também apresentaram relativas alterações nos perfis metabólicos em função das condições de cultivo. Os metabólitos produzidos pelo fungo Phomopsis sp FLe6 e pela actinobactéria Streptomyces albospinus RLe7 foram isolados e caracterizados. Os resultados mostram que as intera ções entre os micro-organismos endofíticos são bastante complexas, estando sujeita s a ação de diversos fatores externos que muitas vezes não podem ser pré-determinados. Po r isso, estabelecer um cultivo misto adequado, do ponto de vista da eliciação da produçã o de metabólitos secundários, pode requerer uma série de tentativas. Ainda assim, os r esultados almejados podem ser conseguidos utilizando essa estratégia. Diferenteme nte das linhagens endofíticas, manipuladas quimicamente através de diferentes estr atégias, a linhagem sequenciada de Fusarium heterosporum ATCC 74349, foi manipulada geneticamente para a co nstrução de um gene biossintético híbrido pks-nrps , contendo a porção nrps do gene híbrido da equisetina e um pks críptico de Aspergillus fumigatus . Era esperado que a linhagem hibridizada fosse capaz de produzir o metabólito se cundário geneticamente planejado, entretanto, após seu cultivo, esse produto não foi detectado nos extratos, e as possíveis razões são discutidas. Ainda que os resultados espe rados não tenham sido obtidos, estudos que contribuam para a ampliação do entendimento das megassintases fúngicas são de extrema valia. / Recently, genetic studies have shown that several b acteria and fungi hold a greater biosynthetic potential than the amount of secondary metabolites isolated from these microorganisms. The discovery of novel bioactive na tural products is limited by the inability of microorganisms to express all their biosynthetic pa thways in laboratory conditions. Therefore, alternative strategies to induce the production of microbial natural products are required. Mixed cultures of microorganisms are a strategy tha t has been used to mimic more natural conditions of growth. Furthermore, the addition of chemical and epigenetic modulators to the microbial cultures can also stimulate the productio n of compounds by activating cellular mechanisms in response to stress conditions or by c hanging the transcription rate of certain genes, due to changes in the chromatin folding. Alt ernatively, the induction of some genes, and even the diversification of secondary metabolis m, can be achieved by genetic engineering, by manipulating genes of interest. The endophytic strain Alternaria tenuissima SS77, which was selected for the experiments of che mical and epigenetic modulation, had changed its secondary metabolism after treatment wi th different modulators. Probably, the observed effect was due to a nonspecific elicitatio n of those modulators. Moreover, the mixed cultures of this fungus with the endophytic fungus Nigrospora sphaerica SS67, isolated from the same host plant ( Smallanthus sonchifolius ), led to the isolation of two new polyketides, belonging to perylene quinone class, along with ano ther one already reported in the scientific literature. Three strains of actinobacteria and fiv e fungi, all endophytes of Lychnophora ericoides , were selected to grow in microbial mixed cultures comprising one bacteria and one fungus. Changes in the metabolic profile of the mix ed culture of Phomopsis sp. FLe6 with Streptomyces albospinus RLe7 were the most obvious, and then further studi es were focused on this mixed culture. Many culture conditions were analyzed and different results were obtained. In some cases, the development of the fun gal strain was inhibited by bacteria, and in other cases was observed the opposite. Similarly , there was a remarkable inhibition of the production of certain secondary metabolites in the presence of the challenging strain, but the eliciting of others was also observed. The extracts of the single cultures of these microorganisms also showed changes in metabolic pro files due to culture conditions. The metabolites produced by the fungus Phomopsis sp. FLe6 and the actinobacteria S. albospinus RLe7 were isolated and characterized. The results show that interactions between endophytic microorganisms are quite complex and are influenced by various external factors that often can not be previously determined. Theref ore, establishing a suitable mixed culture to elicit the production of secondary metabolites m ay require some attempts. Still, the expected results can be achieved using this strateg y. Unlike the endophytic strains, that was chemically manipulated by different strategies, the sequenced strain Fusarium heterosporum ATCC 74349 was genetically manipulated to construct a hybrid PKS-NRPS biosynthetic gene containing the NRPS portion of the hybrid gene of e quisetin and a cryptic PKS gene of Aspergillus fumigatus . It was expected that hybridized strain could be a ble to produce the secondary metabolite genetically planned, however, after its cultivation, this product was not detected in any extracts, and some possible reasons are discussed. Although the expected results have not been obtained, studies that contri bute to increasing the understanding of fungal megasynthases are extremely valuable

biossíntese de produtos naturais

culturas mistas de endofíticos

metabolismo secund ário

modulação química e epigenética

biosynthesis of natural products

chemica l and epigenetic modulation

genetic engineering of filamentous fungi

mixed c ulture of endophytes

secondary metabolism