Daan V. Bunt scite author profile

A disturbed interaction between the gut microbiota and the mucosal immune system plays a pivotal role in the development of inflammatory bowel disease (IBD). Various compounds that are produced by the gut microbiota, from its metabolism of diverse dietary sources, have been found to possess anti-inflammatory and anti-oxidative properties in in vitro and in vivo models relevant to IBD. These gut microbiota-derived metabolites may have similar, or more potent gut homeostasis-promoting effects compared to the widely-studied short-chain fatty acids (SCFAs). Available data suggest that mainly members of the Firmicutes are responsible for producing metabolites with the aforementioned effects, a phylum that is generally underrepresented in the microbiota of IBD patients. Further efforts aiming at characterizing such metabolites and examining their properties may help to develop novel modulatory microbiome therapies to treat or prevent IBD.

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Divergent Total Synthesis of Fornicin A, Fornicin D, and Ganodercin D, Meroterpenoids from Ganoderma Mushrooms

Bunt

Aidy

Minnaard

2023

Eur J Org Chem

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The meroterpenoids fornicin A, fornicin D, and ganodercin D, found in mushrooms of the Ganoderma genus, have been prepared in a concise and divergent synthesis route. The characteristic unsaturated γ-ketoacid moiety was obtained via an optimized step-wise aldol condensation between two readily accessible building blocks. THP-protection of a phenolic hydroxyl group under basic conditions was developed, a protocol that adds to the versatility of this protecting group.

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Identification of three new inhibitor classes against Plasmodium falciparum

Johannsen

Gierse

Krüger

et al. 2022

Preprint

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In this study, we identified three novel compound classes with potent activity against Plasmodium falciparum, the most dangerous human malarial parasite. Resistance of this pathogen to known drugs is increasing and compounds with different modes of action are urgently needed. One promising drug target is the enzyme 1-deoxy-D-xylulose-5-phosphate synthase (DXPS) of the methylerythritol 4-phosphate (MEP) pathway for which we have previously identified three active compound classes against Mycobacterium tuberculosis. The close structural similarities in the active sites of the DXPS enzymes of P. falciparum and M. tuberculosis prompted investigation of its antiparasitic action, displaying good cell-based activity for all classes. Through structure-activity relationship studies we increased their antimalarial potency, and two classes also show good metabolic stability and low toxicity against human liver cells. The most active compound 1 inhibits the growth of blood-stage P. falciparum with an IC50 of 600 nM. The results from three different methods for target validation of compound 1 suggest intracellular polypharmacy. Similarity-based searches revealed two other possible target enzymes for this compound, which were further analyzed by docking calculations. All inhibitor classes are active against chloroquine resistant strains, confirming a new mode of action.

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Daan V. Bunt

Potential Modulatory Microbiome Therapies for Prevention or Treatment of Inflammatory Bowel Diseases

Divergent Total Synthesis of Fornicin A, Fornicin D, and Ganodercin D, Meroterpenoids from Ganoderma Mushrooms

Identification of three new inhibitor classes against Plasmodium falciparum

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