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Abstract
The development of innovative antiviral strategies is critical to address the global health threats posed by RNA viruses, including the Zika virus (ZIKV), which can cause severe neurological complications. The lipid transporter OxySterol Binding Protein (OSBP), essential for cholesterol and phosphatidylinositol 4-phosphate trafficking, is exploited by many positive-strand RNA viruses, making it an attractive novel antiviral target. This study investigates simplified analogues of macarangin B, a natural compound with potent OSBP-targeted antiviral activity against ZIKV, but limited stability due to its flavonol moiety. A series of analogues was synthesized, replacing the flavonol with a flavone core while retaining the essential hexahydroxanthene (HHX) motif. These compounds demonstrated improved stability, high OSBP binding affinity, and low cytotoxicity. The most active compounds exhibited antiviral activity comparable to established OSBP inhibitors and were stable in physiologic media, highlighting their potential as leads for therapeutic development. This work advances the structure-activity relationship (SAR) understanding of macarangin B analogues and provides a foundation for designing effective antivirals targeting in ZIKV infections.
Supplementary materials
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Supplementary information
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Supplementary figures and NMR spectra
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