A Novel Dipterocarpol Derivative that Targets Alpha‐Glucosidase and NLRP3 Inflammasome Activity for Treatment of Diabetes Mellitus

Type 2 diabetes mellitus is a chronic metabolic disorder characterized by persistent hyperglycemia, chronic inflammation, impaired insulin secretion, and/or peripheral insulin resistance. Current α‐glucosidase inhibitors approved for clinical use exhibit limited efficacy compared to other glucose‐lowering agents. In this study, a series of mono‐ and bis‐benzylidene derivatives were synthesized via aldol condensation of 3‐oxo‐dammarane triterpenoids with terephthalic aldehyde. The target mono‐ and bis‐benzylidene derivatives, based on the dammarane triterpenoids hollongdione 1, (20S)‐23,24‐epoxy‐25,26,27‐trinordammar‐3,24‐dione 2, and 24(R,S)‐20(S)‐epoxy‐25‐hydroxy‐dammar‐3‐one 3, were successfully synthesized. Several of these inhibitors demonstrated significantly greater efficacy than the reference drug acarbose. Notably, compound 4 inhibited S. cerevisiae α‐glucosidase with an IC50 of 2.67 μM. Furthermore, the target compounds effectively inhibited NLRP3 inflammasome activation, reducing IL‐1β production in LPS+ATP‐stimulated murine peritoneal macrophages without detectable cytotoxicity. Compound 8, which exhibited dual activity, was further characterized as an inhibitor of NLRP3 activation in peripheral blood mononuclear cells, leading to the prevention of pyroptosis and IL‐1β release. Additionally, compound 8 was shown to promote neuronal survival in LPS+ATP‐treated rat hippocampal slices, highlighting its potential as a promising antidiabetic agent that targets both postprandial hyperglycemia and metaflammation.