Identification and molecular characterization of anti-diabetic flavonoids
Virginia Polytechnic Inst And St Univ, Blacksburg VA
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Abstract
DESCRIPTION (provided by applicant): The long-range goal of this research is to identify and characterize natural agents that can effectively prevent type 2 diabetes (T2D). T2D is a result of chronic insulin resistance and loss of ?-cell mass and function. Therefore, a method to simultaneously prevent insulin resistance and protect functional ?-cell mass could be a more effective strategy to prevent T2D. We discovered for the first time that genistein, an isoflavone present in soybean and some Chinese herbs, directly protect pancreatic ?-cells from apoptosis and ameliorates hyperglycemia without affecting insulin sensitivity in diabetic mice, while kaempferol, a flavonol present in gingko biloba, improves insulin sensitivity and glucose homeostasis in obese mice. Notably, genistein in combination with kaempferol produces a potent additive effect on blood glycemic control in middle-aged obese diabetic mice. We used mice at this age because T2D usually occurs at middle and older age in humans. These exciting findings demonstrate a great potential for using these natural compounds to effectively prevent T2D. The goal of this application is to determine molecular mechanisms by which genistein and kaempferol exert an anti-diabetic effect. The central hypothesis of this grant is that dietary intae of both genistein and kaempferol simultaneously preserves functional ?-cell mass and improves insulin sensitivity, thereby exerting the additive effect in preventing T2D. Aim #1 will determine whether genistein protects against ?-cell apoptosis through the G-protein coupled receptor GPR30-mediated activation of G?s, and subsequent stimulation of the cAMP/PKA/CREB and PI3K/Akt pathways. Isolated mouse and human islets will be used to identify the signaling molecules targeted by genistein. Specifically, GPR30-deficient mice and genetic and pharmacological probes will be utilized to explore whether these pathways mediate the anti-apoptotic action of genistein in ?-cells. Aim #2 will explore the effects of genistein, kaempferol, or a combination of both on pancreatic beta-cell function, energy metabolism, and insulin sensitivity as well as the underlying molecular mechanisms for these actions in vivo. We will first use GPR30-deificent diabetic mice to determine whether genistein improves glucose homeostasis and ?-cell survival and mass via this receptor. We will then test whether kaempferol promotes energy metabolism and insulin sensitivity and whether these effects are mediated via activation of AMPK??, a master regulator of cellular energy homeostasis and potential therapeutic target for T2D. Completion of this grant is expected to define novel mechanisms by which genistein and kaempferol exert the anti-diabetic effects, which may potentially lead to the development of complementary or alternative (CAM) strategies using these low-cost natural compounds for the prevention of diabetes, a major and growing public health problem in the U.S. and worldwide.
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