Víctor González-Menéndez scite author profile

BackgroundNodulisporic acids (NAs) are indole diterpene fungal metabolites exhibiting potent systemic efficacy against blood-feeding arthropods, e.g., bedbugs, fleas and ticks, via binding to arthropod specific glutamate-gated chloride channels. Intensive medicinal chemistry efforts employing a nodulisporic acid A template have led to the development of N-tert-butyl nodulisporamide as a product candidate for a once monthly treatment of fleas and ticks on companion animals. The source of the NAs is a monophyletic lineage of asexual endophytic fungal strains that is widely distributed in the tropics, tentatively identified as a Nodulisporium species and hypothesized to be the asexual state of a Hypoxylon species.Methods and ResultsInferences from GenBank sequences indicated that multiple researchers have encountered similar Nodulisporium endophytes in tropical plants and in air samples. Ascomata-derived cultures from a wood-inhabiting fungus, from Martinique and closely resembling Hypoxylon investiens, belonged to the same monophyletic clade as the NAs-producing endophytes. The hypothesis that the Martinique Hypoxylon collections were the sexual state of the NAs-producing endophytes was tested by mass spectrometric analysis of NAs, multi-gene phylogenetic analysis, and phenotypic comparisons of the conidial states. We established that the Martinique Hypoxylon strains produced an ample spectrum of NAs and were conspecific with the pantropical Nodulisporium endophytes, yet were distinct from H. investiens. A new species, H. pulicicidum, is proposed to accommodate this widespread organism.Conclusions and SignificanceKnowledge of the life cycle of H. pulicicidum will facilitate an understanding of the role of insecticidal compounds produced by the fungus, the significance of its infections in living plants and how it colonizes dead wood. The case of H. pulicicidum exemplifies how life cycle studies can consolidate disparate observations of a fungal organism, whether from environmental sequences, vegetative mycelia or field specimens, resulting in holistic species concepts critical to the assessment of the dimensions of fungal diversity.

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Multicomponent Analysis of the Differential Induction of Secondary Metabolite Profiles in Fungal Endophytes

González-Menéndez

Pérez-Bonilla

Pérez-Victoria

et al. 2016

Molecules

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Small molecule histone deacetylase (HDAC) and DNA methyltransferase (DNMT) inhibitors are commonly used to perturb the production of fungal metabolites leading to the induction of the expression of silent biosynthetic pathways. Several reports have described the variable effects observed in natural product profiles in fungi treated with HDAC and DNMT inhibitors, such as enhanced chemical diversity and/or the induction of new molecules previously unknown to be produced by the strain. Fungal endophytes are known to produce a wide variety of secondary metabolites (SMs) involved in their adaptation and survival within higher plants. The plant-microbe interaction may influence the expression of some biosynthetic pathways, otherwise cryptic in these fungi when grown in vitro. The aim of this study was to setup a systematic approach to evaluate and identify the possible effects of HDAC and DNMT inhibitors on the metabolic profiles of wild type fungal endophytes, including the chemical identification and characterization of the most significant SMs induced by these epigenetic modifiers.

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MDN-0104, an Antiplasmodial Betaine Lipid from Heterospora chenopodii

et al. 2014

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Bioassay-guided fractionation of the crude fermentation extract of Heterospora chenopodii led to the isolation of a novel monoacylglyceryltrimethylhomoserine (1). The structure of this new betaine lipid was elucidated by detailed spectroscopic analysis using one- and two-dimensional NMR experiments and high-resolution mass spectrometry. Compound 1 displayed moderate in vitro antimalarial activity against Plasmodium falciparum, with an IC50 value of 7 μM. This betaine lipid is the first monoacylglyceryltrimethylhomoserine ever reported in the Fungi, and its acyl moiety also represents a novel natural 3-keto fatty acid. The new compound was isolated during a drug discovery program aimed at the identification of new antimalarial leads from a natural product library of microbial extracts. Interestingly, the related fungus Heterospora dimorphospora was also found to produce compound 1, suggesting that species of this genus may be a promising source of monoacylglyceryltrimethylhomoserines.

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Assessing the effects of adsorptive polymeric resin additions on fungal secondary metabolite chemical diversity

et al. 2014

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Adsorptive polymeric resins have been occasionally described to enhance the production of specific secondary metabolites (SMs) of interest. Methods that induce the expression of new chemical entities in fungal fermentations may lead to the discovery of new bioactive molecules and should be addressed as possible tools for the creation of new microbial chemical libraries for drug lead discovery. Herein, we apply both biological activity and chemical evaluations to assess the use of adsorptive resins as tools for the differential expression of SMs in fungal strain sets. Data automation approaches were applied to ultra high performance liquid chromatography analysis of extracts to evaluate the general influence in generating new chemical entities or in changing the production of specific SMs by fungi grown in the presence of resins and different base media.

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Biodiversity and chemotaxonomy of Preussia isolates from the Iberian Peninsula

et al. 2017

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Discovery of New Compounds Active against Plasmodium falciparum by High Throughput Screening of Microbial Natural Products

et al. 2016

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Due to the low structural diversity within the set of antimalarial drugs currently available in the clinic and the increasing number of cases of resistance, there is an urgent need to find new compounds with novel modes of action to treat the disease. Microbial natural products are characterized by their large diversity provided in terms of the chemical complexity of the compounds and the novelty of structures. Microbial natural products extracts have been underexplored in the search for new antiparasitic drugs and even more so in the discovery of new antimalarials. Our objective was to find new druggable natural products with antimalarial properties from the MEDINA natural products collection, one of the largest natural product libraries harboring more than 130,000 microbial extracts. In this work, we describe the optimization process and the results of a phenotypic high throughput screen (HTS) based on measurements of Plasmodium lactate dehydrogenase. A subset of more than 20,000 extracts from the MEDINA microbial products collection has been explored, leading to the discovery of 3 new compounds with antimalarial activity. In addition, we report on the novel antiplasmodial activity of 4 previously described natural products.

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Cyclic Colisporifungin and Linear Cavinafungins, Antifungal Lipopeptides Isolated fromColispora cavincola

et al. 2015

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Colisporifungin (1), a cyclic depsilipopeptide structurally related to the aselacins, and cavinafungins A and B, two linear peptides, were isolated from liquid culture broths of the hitherto unstudied fungus Colispora cavincola using a Candida albicans whole-cell assay as well as a bioassay to detect compounds potentiating the antifungal activity of caspofungin. The structural elucidation, including the absolute configuration of the new molecules, was accomplished using a combination of spectroscopic and chemical techniques, including 1D and 2D NMR, HRMS, and Marfey's analysis. The cyclic peptide colisporifungin displayed a strong potentiation of the growth inhibitory effect of caspofungin against Aspergillus fumigatus and, to a lesser extent, against Candida albicans. The linear peptides displayed broad-spectrum antifungal activities inhibiting growth of Candida species (MIC values 0.5-4 μg/mL) as well as A. fumigatus with a prominent inhibition of 8 μg/mL.

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Graminin B, a furanone from the fungus Paraconiothyrium sp.

et al. 2014

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