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Design, Synthesis, and In Vivo Evaluation of Isosteviol Derivatives as New SIRT3 Activators with Highly Potent Cardioprotective Effects

Zhen‐Yu Chen, Zhiyin Li, Ruilong Xu, Yufeng Xie, Dehuai Li, Yu Zhao

2024Journal of Medicinal Chemistry10 citationsDOI

Abstract

Cardiovascular diseases (CVDs) persist as the predominant cause of mortality, urging the exploration of innovative pharmaceuticals. Mitochondrial dysfunction stands as a pivotal contributor to CVDs development. Sirtuin 3 (SIRT3), a prominent mitochondrial deacetylase known for its crucial role in protecting mitochondria against damage and dysfunction, has emerged as a promising therapeutic target for CVDs treatment. Utilizing isosteviol, a natural ent -beyerene diterpenoid, 24 derivatives were synthesized and evaluated in vivo using a zebrafish model, establishing a deduced structure–activity relationship. Among these, derivative 5v exhibited significant efficacy in doxorubicin-induced cardiomyopathy in zebrafish and murine models. Subsequent investigations revealed that 5v selectively elevated SIRT3 expression, leading to the upregulation of SOD2 and OPA1 expression, effectively preventing mitochondrial dysfunction, mitigating oxidative stress, and preserving cardiomyocyte viability. As a novel structural class of SIRT3 activators with robust therapeutic effects, 5v emerges as a promising candidate for further drug development.

Topics & Concepts

SIRT3SirtuinSOD2ZebrafishPharmacologyIn vivoOxidative stressChemistrySIRT2AutophagyDownregulation and upregulationMitochondrionBiochemistryMedicineApoptosisBiologyAcetylationGeneSuperoxide dismutaseBiotechnologySirtuins and Resveratrol in MedicineCalcium signaling and nucleotide metabolismChemotherapy-induced cardiotoxicity and mitigation
Design, Synthesis, and In Vivo Evaluation of Isosteviol Derivatives as New SIRT3 Activators with Highly Potent Cardioprotective Effects | Litcius