Metagenomic natural product discovery in lichen provides evidence for a family of biosynthetic pathways in diverse symbioses

Kampa, Annette; Gagunashvili, Andrey; Gulder, Tobias A. M.; Morinaka, Brandon I.; Daolio, Cristina; Godejohann, Markus; Miao, Vivian; Piel, Jörn; Andrésson, Ólafur S.

doi:10.1073/pnas.1305867110

Cited by 125 publications

(130 citation statements)

References 62 publications

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“…Little is known about natural products involved in symbioses with eukaryotic hosts (14,(22)(23)(24). In particular, their roles and distributions among gut communities have mainly remained elusive.…”

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confidence: 99%

“…In particular, their roles and distributions among gut communities have mainly remained elusive. Furthermore, natural products of animal-dwelling symbionts often reveal chemical and structural properties distinct from those of free-living microbes and thus hold promise for novel drug discovery (24,25). In Escherichia coli strains and related coliform Enterobacteriaceae, a hybrid NRPS-PKS biosynthetic gene cluster was found to be involved in symbiotic interactions in the human gut (26)(27)(28)(29).…”

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confidence: 99%

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Gut Symbionts from Distinct Hosts Exhibit Genotoxic Activity via Divergent Colibactin Biosynthesis Pathways

Engel

Vizcaino

Crawford

2015

Appl Environ Microbiol

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e Secondary metabolites produced by nonribosomal peptide synthetase (NRPS) or polyketide synthase (PKS) pathways are chemical mediators of microbial interactions in diverse environments. However, little is known about their distribution, evolution, and functional roles in bacterial symbionts associated with animals. A prominent example is colibactin, a largely unknown family of secondary metabolites produced by Escherichia coli via a hybrid NRPS-PKS biosynthetic pathway that inflicts DNA damage upon eukaryotic cells and contributes to colorectal cancer and tumor formation in the mammalian gut. Thus far, homologs of this pathway have only been found in closely related Enterobacteriaceae, while a divergent variant of this gene cluster was recently discovered in a marine alphaproteobacterial Pseudovibrio strain. Herein, we sequenced the genome of Frischella perrara PEB0191, a bacterial gut symbiont of honey bees and identified a homologous colibactin biosynthetic pathway related to those found in Enterobacteriaceae. We show that the colibactin genomic island (GI) has conserved gene synteny and biosynthetic module architecture across F. perrara, Enterobacteriaceae, and the Pseudovibrio strain. Comparative metabolomics analyses of F. perrara and E. coli further reveal that these two bacteria produce related colibactin pathway-dependent metabolites. Finally, we demonstrate that F. perrara, like E. coli, causes DNA damage in eukaryotic cells in vitro in a colibactin pathway-dependent manner. Together, these results support that divergent variants of the colibactin biosynthetic pathway are widely distributed among bacterial symbionts, producing related secondary metabolites and likely endowing its producer with functional capabilities important for diverse symbiotic associations. C haracteristic bacterial communities colonize the digestive tracts of almost all animals and influence the health and disease of their hosts (1-4). These communities are typically dominated by specialist bacteria, which are adapted to live in the gut of their host and have evolved specific functions for symbiotic interactions. The honey bee, Apis mellifera, harbors such a characteristic gut microbiota (5). Its simple composition of only eight bacterial species makes the honey bee gut microbiota an ideal model to study the ecology and evolution of gut bacteria and to understand mutualistic, commensal, and parasitic relationships (6). Furthermore, honey bees are important pollinators for agriculture and almost all terrestrial ecosystems. Thus, it is essential to characterize the genomic capabilities of these symbiotic bacteria so as to better understand their impact on the health of their host.In the anterior part of the honey bee hindgut, two gammaproteobacteria, Gilliamella apicola and Frischella perrara, and one betaproteobacterium, Snodgrassella alvi, are the dominant members of this gut community (7-9). Comparative genomics and functional analyses have recently revealed that S. alvi and G. apicola harbor complementary metabolic pathways, co...

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confidence: 99%

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confidence: 99%

Gut Symbionts from Distinct Hosts Exhibit Genotoxic Activity via Divergent Colibactin Biosynthesis Pathways

Engel

Vizcaino

Crawford

2015

Appl Environ Microbiol

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“…Finally there was a recent very intriguing report showing the presence of pederin-like compound, nosperin (19) in a lichen, so the genes are extremely widespread. 45 As mentioned earlier, pederin certainly excited synthetic organic chemists and over the years, effectively all of the molecules that contain the pederin backbone, even when ring-opened as in irciniastatin (20) Thus what started as a discussion of the toxin produced by the blister beetle that was known in Brazilian forests/ jungles, led to the ability to identify and express genetic loci related to the biosynthesis of the agent, but then moved into areas not even thought to be possible; that the beetle toxin was in fact, used by "Mother Nature" (or biodiversity) to generate molecules in organisms as diverse as shallow and deep water marine sponges, warm and cold waters environments and even terrestrial lichens. None of these were even thought of in the wildest dreams of the original scientists working on beetle toxins irrespective of their geographic locations.…”

Section: Brazilian Paederus Beetles and Marine Sponge Metabolitesmentioning

confidence: 99%

The Influence of Brazilian Biodiversity on Searching for Human Use Pharmaceuticals

Newman¹

2016

J. Braz. Chem. Soc.

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This relatively short review will cover the history of some potential drug entities whose beginnings were from Brazilian flora and fauna that led to scientific findings many years later that could not even have been thought of at the time of their initial discovery. The first two are the discoveries of the effects of peptidic toxins from the highly poisonous snake Bothrops jararaca upon the control of bradykinins that led to the angiotensin converting enzyme inhibitors, and the identification of pederin from the blister beetle Paederus species that 50 plus years later led to brand new discoveries as the source of many marine sponge metabolites. All occurred well before the Convention on Biological Diversity (CBD), in 1992. Then come discussions on lapachol and its congeners and then the potential for the investigation of microbes that are associated with insects, plants and marine invertebrates and their control of the syntheses of novel metabolites with pharmaceutical potential. The review finishes with comments on the biodiversity programs that São Paulo State has put in place and how they are materially aiding in investigations of Brazilian flora and fauna but under conditions that are CBD-compliant.

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“…Today's major themes in sponge chemical ecology are to test the bioactivity of natural products regardless of the origin of these metabolites (Wright et al 2011, Freeman and Gleason 2012, Nuñez-Pons et al 2012 and to screen for new drugs with potential pharmacological and biotechnological applications (Leal et al 2012a,b, Acevedo et al 2013, Kampa et al 2013). There are several papers about the variability of bioactive compounds at multiple temporal and spatial scales (Sacristán-Soriano et al 2011a, 2012, Evans-Illidge et al 2013) and many others that link host metabolites with symbionts from the sponge (Hochmuth et al 2010, Penesyan et al 2010, Indraningrat et al 2016.…”

Section: Sponge Chemical Ecology and Microbial Ecologymentioning

confidence: 99%

“…The vast majority of studies in chemical ecology deal with the biological activity of natural products from sponges (Wright et al 2011, Freeman and Gleason 2012, Nuñez-Pons et al 2012 and their biotechnological potential (Leal et al 2012a, b, Acevedo et al 2013, Kampa et al 2013). However, sponges harbour complex microbial communities that must be taken into consideration in the ecology research field.…”

Section: Sponge Chemical and Microbial Ecology: Past Present And Futurementioning

confidence: 99%

Publication impact in sponge chemical and microbial ecology

Sacristán-Soriano

Becerro²

2016

Sci. Mar.

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Summary:It is well known that sponges constitute one of the most prevalent groups in marine benthic communities based on their challenging structural organization, abundance and diversity, and their functional roles in natural communities. The evolutionary success of this group may be explained by the close interaction between sponges and microbes, which dates back to the Precambrian era. This particular symbiosis has become a key factor within sponge research and is an emerging topic of two scientific disciplines: chemical and microbial ecology. This mini-review evaluates the influence of these two disciplines on the general scientific community using a series of bibliometric indicators to ensure objectivity. Our analyses showed that, although sponge chemical ecology has a greater overall impact on the scientific community, both disciplines are cited equally and more frequently than expected. Both research areas show a great impact on applied sciences, but the ecological perspectives of sponge chemistry and microbiology may fall outside the interests of a broader ecological audience. Moreover, we highlight some research topics (e.g. effects of environmental stress) that may require further attention. Hence, sponge chemical and microbial ecology have the opportunity to contribute to broader ecological issues in topics that make sponges particularly important, such as symbiosis.Keywords: Porifera research; natural products; microbiology; symbiosis; h-index; bibliometric indicators. Impacto de las publicaciones en ecología química y microbiana de esponjasResumen: Las esponjas constituyen uno de los grupos predominantes en las comunidades bentónicas marinas gracias a su potencial organización estructural, abundancia, diversidad y a las funciones que desempeñan en las comunidades naturales. El éxito evolutivo de este grupo yace en la estrecha interacción con microorganismos que data del Precámbrico. Esta particular simbiosis se ha convertido en un factor clave en la investigación sobre esponjas y está emergiendo en dos campos como el de la ecología química y microbiana. Esta mini-revisión evalúa la influencia de estas dos disciplinas en la comunidad científica utilizando una serie de indicadores bibliométricos para asegurar la objetividad. Nuestro análisis muestra que aunque la ecología química presenta un mayor impacto global, ambos campos son citados de manera similar y con una frecuencia superior a la esperada. Ambas áreas presentan un gran impacto en ciencias aplicadas, pero las perspectivas ecológicas de las dos disciplinas científicas deben quedar fuera de los intereses generales de la comunidad de ecólogos. Además, señalamos algunas áreas (e.g. efectos del estrés ambiental) que necesitarían mayor atención. Por tanto, la ecología química y microbiana de esponjas tienen la oportunidad de contribuir sobre cuestiones de ecología general con temas que las hace particularmente relevantes, como es la simbiosis.Palabras clave: investigación en Porifera; productos naturales; microbiología; simbiosis; índice h; indicad...

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Metagenomic natural product discovery in lichen provides evidence for a family of biosynthetic pathways in diverse symbioses

Cited by 125 publications

References 62 publications

Gut Symbionts from Distinct Hosts Exhibit Genotoxic Activity via Divergent Colibactin Biosynthesis Pathways

Gut Symbionts from Distinct Hosts Exhibit Genotoxic Activity via Divergent Colibactin Biosynthesis Pathways

The Influence of Brazilian Biodiversity on Searching for Human Use Pharmaceuticals

Publication impact in sponge chemical and microbial ecology

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