Effects of Acarbose on the Acceleration of Postprandial Hyperglycemia–Induced Pathological Changes Induced by Intermittent Hypoxia in Lean Mice

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概要

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• Postprandial hyperglycemia (PPH) and intermittent hypoxia related to the sleep apnea syndrome are important predictors of cardiovascular disease. We investigated the effects of intermittent hypoxia on pathological changes in the left ventricular (LV) myocardium caused by PPH in lean mice and evaluated the influence of acarbose, an α-glucosidase inhibitor. Male C57BL/6J mice aged 8 weeks were exposed to intermittent hypoxia (8 h/day during the daytime) or kept under normoxia. PPH was induced by restriction of feeding to 1-h periods twice a day, with the restricted diet (RD) mice receiving either standard chow or chow containing 0.02% acarbose. Another group of mice were fed standard chow ad libitum (AL). Plasma glucose levels after food intake were significantly elevated in RD but not in AL mice, and glucose levels were suppressed by acarbose. Intermittent hypoxia exacerbated cardiomyocyte hypertrophy and interstitial fibrosis in the LV myocardium of RD mice. Superoxide production and expression of 4-hydroxy-2-nonenal in the LV myocardium with intermittent hypoxia were increased in RD mice, but not AL mice. In addition, expression of tumor necrosis factor α (TNF-α) mRNA was increased in hypoxic RD mice. Treatment with acarbose inhibited oxidative stress and TNF-α mRNA expression and preserved the histological architecture of the LV myocardium.

著者

• Ukimura Akira

  Department Of Cardiology Shiga Medical Center For Adult Diseases

• Miyazaki Mizuo

  Department Of Pharmacology Osaka Medical College Takatsuki City

• Matsumoto Chika

  Laboratory Of Pathological And Molecular Pharmacology Osaka University Of Pharmaceutical Sciences

• Matsumura Yasuo

  Laboratory Of Pathological And Molecular Pharmacology Osaka University Of Pharmaceutical Sciences

• Yamashita Chika

  Laboratory Of Pathological And Molecular Pharmacology Osaka University Of Pharmaceutical Sciences

• Yoshioka Toshitaka

  Laboratory Of Pathological And Molecular Pharmacology Osaka University Of Pharmaceutical Sciences

• Miyamura Masatoshi

  Department Of Internal Medicine Iii Osaka Medical College

• Miyamura Masatoshi

  Department Of Cardiology Saiseikai Izuo Hospital

• Mori Tatsuhiko

  Department Of Internal Medicine Iii Osaka Medical College

• Hayashi Tetsuya

  Department Of Bacteriology School Of Medicine Shinsu University

• Miyamura Masatoshi

  Department Of Pharmacology Osaka Medical College

• Kitaura Yasushi

  Department Of Cardiology Institute Of Clinical Medicine University Of Tsukuba

• Ishizaka Nobukazu

  Department Of Cardiovascular Medicine University Of Tokyo

• Schnell Oliver

  Diabetes Research Institute, Germany

• Schnell Oliver

  Diabetes Research Institute

• Mori Tatsuhiko

  Department Of Gastroenterology And Neurology Faculty Of Medicine Kagawa University

• Miyamura Masatoshi

  Department Of Cardiology Osaka Medical College

• Ishizaka Nobukazu

  Department Of Cardiology Osaka Medical College

• Ishizaka Nobukazu

  Department of Internal Medicine III, Osaka Medical College, Japan

• Matsumura Yasuo

  Laboratory of Pathological and Molecular Pharmacology, Osaka University of Pharmaceutical Sciences, Japan

• Mori Tatsuhiko

  Department of Internal Medicine III, Osaka Medical College, Japan

• Hayashi Tetsuya

  Department of Internal Medicine III, Osaka Medical College, Japan

• Kitaura Yasushi

  Department of Internal Medicine III, Osaka Medical College, Japan

• Matsumoto Chika

  Laboratory of Pathological and Molecular Pharmacology, Osaka University of Pharmaceutical Sciences, Japan

• Ukimura Akira

  Department of Internal Medicine III, Osaka Medical College, Japan

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