4.6 Article

Diacylated anthocyanins from purple sweet potato (Ipomoea batatas L.) attenuate hyperglycemia and hyperuricemia in mice induced by a high-fructose/high-fat diet

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JOURNAL OF ZHEJIANG UNIVERSITY-SCIENCE B
卷 24, 期 7, 页码 587-601

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ZHEJIANG UNIV PRESS
DOI: 10.1631/jzus.B2200587

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Diacylated anthocyanins from purple sweet potato (diacylated AF-PSPs); Hyperglycemia; Hyperuricemia; Metabolism syndrome; Regulation of renal function

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Studies have shown that diacylated anthocyanins from purple sweet potato (diacylated AF-PSPs) have dual regulatory effects on hyperuricemia and hyperglycemia induced by a high-fructose/high-fat diet. The effects of diacylated AF-PSPs include alleviating hyperuricemia, regulating liver XO activity, lipid accumulation, relevant renal transporters, reducing body weight, improving lipid metabolism disorder, liver oxidative stress, enhancing insulin utilization and sensitivity, lowering blood sugar and reducing hyperglycemia, restoring mRNA levels related to renal fructose metabolism, reducing kidney injury and inflammation.
Studies have shown that targeting xanthine oxidase (XO) can be a feasible treatment for fructose-induced hyperuricemia and hyperglycemia. This study aimed to evaluate the dual regulatory effects and molecular mechanisms of diacylated anthocyanins from purple sweet potato (diacylated AF-PSPs) on hyperglycemia and hyperuricemia induced by a high-fructose/high-fat diet. The body weight, organ index, serum biochemical indexes, and liver antioxidant indexes of mice were measured, and the kidneys were observed in pathological sections. The relative expression levels of messenger RNAs (mRNAs) of fructose metabolism pathway enzymes in kidney were detected by fluorescent real-time quantitative polymerase chain (qPCR) reaction technique, and the expression of renal transporter protein and inflammatory factor pathway protein was determined by immunohistochemistry (IHC) technique. Results showed that diacylated AF-PSPs alleviated hyperuricemia in mice, and that this effect might be related to the regulation of liver XO activity, lipid accumulation, and relevant renal transporters. Diacylated AF-PSPs reduced body weight and relieved lipid metabolism disorder, liver lipid accumulation, and liver oxidative stress, thereby enhancing insulin utilization and sensitivity, lowering blood sugar, and reducing hyperglycemia in mice. Also, diacylated AF-PSPs restored mRNA levels related to renal fructose metabolism, and reduced kidney injury and inflammation. This study provided experimental evidence for the mechanisms of dual regulation of blood glucose and uric acid (UA) by diacylated AF-PSPs and their utilization as functional foods in the management of metabolic syndrome.

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