Huei-Fen Jheng1, Kanako Hayashi1, Yasuki Matsumura2, Teruo Kawada1, Shigeto Seno3, Hideo Matsuda3, Kazuo Inoue1, Wataru Nomura1, Haruya Takahashi1, Tsuyoshi Goto1. 1. Division of Food Science and Biotechnology, Laboratory of Molecular Function of Food, Graduate School of Agriculture, Kyoto University, Uji, 611-0011, Japan. 2. Division of Agronomy and Horticultural Science, Laboratory of Quality Analysis and Assessment, Graduate School of Agriculture, Kyoto University, Uji, 611-0011, Japan. 3. Department of Bioinformatic Engineering, Graduate School of Information Science and Technology, Osaka University, Suita, 565-0871, Japan.
Abstract
SCOPE: Dietary soy reportedly protects from diabetic nephropathy (DN), but its active components and mechanism of action remain unknown. METHODS AND RESULTS: In this study, KKAy mice are fed three types of diet: Dietary soy isoflavones with soy protein (Soy-IP) diet, reduced isoflavones soy protein (RisoP), and oral administration of isoflavones aglycones (IsoAgc). Albuminuria and glycosuria are decreased only in the soy-IP group. The risoP group show reduced expansion of mesangial matrix and renal fibrosis, the IsoAgc group show renal anti-fibrotic and anti-inflammatory effects; however, these renal pathological changes are repressed in the soy-IP group, suggesting the distinct protective roles of soy protein or isoflavones in DN. The isoflavone genistein has a better inhibitory effect on the inflammatory response and cellular interactions in both mouse tubular cells and macrophages when exposed to high glucose and albumin (HGA). Genistein also represses HGA-induced activator protein 1 activation and reactive oxidases stress generation, accompanied by reduced NADPH oxidase (NOX) gene expression. Finally, diabetic mice show a decrease in lipid peroxidation levels in both plasma and urine, along with lower NOXs gene expression. CONCLUSION: The data elucidate the detailed mechanism by which isoflavones inhibit renal inflammation and provide a potential practical adjunct therapy to restrict DN progression.
SCOPE: Dietary soy reportedly protects from diabetic nephropathy (DN), but its active components and mechanism of action remain unknown. METHODS AND RESULTS: In this study, KKAy mice are fed three types of diet: Dietary soy isoflavones with soy protein (Soy-IP) diet, reduced isoflavones soy protein (RisoP), and oral administration of isoflavones aglycones (IsoAgc). Albuminuria and glycosuria are decreased only in the soy-IP group. The risoP group show reduced expansion of mesangial matrix and renal fibrosis, the IsoAgc group show renal anti-fibrotic and anti-inflammatory effects; however, these renal pathological changes are repressed in the soy-IP group, suggesting the distinct protective roles of soy protein or isoflavones in DN. The isoflavonegenistein has a better inhibitory effect on the inflammatory response and cellular interactions in both mouse tubular cells and macrophages when exposed to high glucose and albumin (HGA). Genistein also represses HGA-induced activator protein 1 activation and reactive oxidases stress generation, accompanied by reduced NADPH oxidase (NOX) gene expression. Finally, diabeticmice show a decrease in lipid peroxidation levels in both plasma and urine, along with lower NOXs gene expression. CONCLUSION: The data elucidate the detailed mechanism by which isoflavones inhibit renal inflammation and provide a potential practical adjunct therapy to restrict DN progression.
Authors: Felipe Sanchez Bragagnolo; Bárbara Socas-Rodríguez; Jose A Mendiola; Alejandro Cifuentes; Cristiano Soleo Funari; Elena Ibáñez Journal: Front Nutr Date: 2022-09-08