Type 2 diabetes mellitus (T2DM) remains a significant global health issue, marked by insulin resistance and disrupted glucose metabolism. AMP-activated protein kinase (AMPK) serves as a key regulator of cellular energy balance, playing a crucial role in enhancing insulin sensitivity, promoting glucose uptake, and reducing glucose production in the liver. Recently, there has been growing interest in plant-derived flavonoids as natural activators of AMPK, offering a promising complementary approach to conventional diabetes treatments. This review delves into ten flavonoids identified as AMPK activators, including baicalein, dihydromyricetin, bavachin, 7-O-MA, derrone, and alpinumisoflavone. Their activation mechanisms are explored, which include both direct binding to the AMPK complex and indirect pathways involving upstream signaling. Through molecular docking studies, the binding affinities and interaction profiles of these flavonoids with AMPK are assessed, revealing varying levels of activation potential. Notably, baicalein and dihydromyricetin showed strong binding to the α1 subunit of AMPK, indicating high potential for robust activation. Additionally, this review provides a thorough analysis of the pharmacokinetic properties and drug-likeness of these flavonoids using the SwissADME tool, focusing on aspects such as ADME (Absorption, Distribution, Metabolism, and Excretion). While the overall profiles of these compounds are promising, issues like solubility and possible drug–drug interactions are areas that need further refinement. In summary, plant-derived flavonoids emerge as a promising avenue for developing new natural therapies for T2DM. Moving forward, research should aim at optimizing these compounds for clinical application, elucidating their specific mechanisms of AMPK activation, and confirming their efficacy in T2DM treatment. This review highlights the potential of flavonoids as safer and more holistic alternatives or adjuncts to current diabetes therapies.
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