Abstract
Coumarins are plant-derived secondary metabolites. The crystal structure of three coumarins—bergamottin, osthole and fraxidin—are described and we analyze intermolecular interactions and their role in crystal formation. Bergamottin is a furanocoumarin found in citrus plants, which is a strong inhibitor of the principal human metabolizing enzyme, cytochrome P450 3A4 (CYP3A4). The crystal structure determinations of three coumarins give us the geometrical parameters and reveal the parallel-displaced π–π stacking and hydrogen bonding intermolecular interactions used for molecular assembly in the crystal structure. A quite strong (less than 3.4 Å) stacking interaction of bergamottin appears to be a determining feature that distinguishes it from other coumarins studied in this work. Our DFT computational studies on the three natural products of the same coumarin family docked into the active site of CYP3A4 (PDB 4D78) show different behavior for these coumarins at the active site. When the substrate is bergamottin, the importance of π-π stacking and hydrogen bonding, which can anchor the substrate in place, appears fundamental. In contrast, fraxidin and osthole show carbonyl coordination to iron. Our docking calculations show that the bergamottin tendency towards π–π stacking is important and likely influences its interactions with the heme group of CYP3A4.
Highlights
Coumarins are plant-derived secondary metabolites, with the parent compound being coumarin, chromen-2-one
Indofine at the active site, we note a crystal structure of that shows the bergamottin (Hillsborough, NJ, USA) and osthole was from Cayman Chemical Co. (Ann Arbor, MI, USA) and they were geranoxy tailfreezer bent over stored in the
The purpose of the current study was to study how the crystal structure results of three different coumarin structures can assist us in probing cytochrome P450 3A4 (CYP3A4) active site flexibility
Summary
Coumarins are plant-derived secondary metabolites, with the parent compound being coumarin, chromen-2-one. The biological activities of these compounds have been well studied and include competing with Vitamin K to produce the anticoagulant activity of coumarins such as warfarin [1]. Citrus plants produce coumarins and furanocoumarins and different citrus species show diversity in coumarin and furanocoumarin content. A 2015 study shows that pomelos, citrons and papedas synthesize high amounts of these compounds, whereas mandarins produce less [2]. The furanocoumarin, bergamottin (5-Geranoxypsoralen), Scheme 1, is a mechanism-based inhibitor of the Cytochrome P450 CYP3A4 enzyme, the major liver and intestinal P450 in humans.
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