1. Academic Validation
  2. Antidiabetic effects of pterosin A, a small-molecular-weight natural product, on diabetic mouse models

Antidiabetic effects of pterosin A, a small-molecular-weight natural product, on diabetic mouse models

  • Diabetes. 2013 Feb;62(2):628-38. doi: 10.2337/db12-0585.
Feng-Lin Hsu 1 Chun-Fa Huang Ya-Wen Chen Yuan-Peng Yen Cheng-Tien Wu Biing-Jiun Uang Rong-Sen Yang Shing-Hwa Liu
Affiliations

Affiliation

  • 1 Graduate Institute of Pharmacognosy, Taipei Medical University, Taipei, Taiwan.
Abstract

The therapeutic effect of pterosin A, a small-molecular-weight natural product, on diabetes was investigated. Pterosin A, administered orally for 4 weeks, effectively improved hyperglycemia and glucose intolerance in streptozotocin, high-fat diet-fed, and db/db diabetic mice. There were no adverse effects in normal or diabetic mice treated with pterosin A for 4 weeks. Pterosin A significantly reversed the increased serum Insulin and Insulin resistance (IR) in dexamethasone-IR mice and in db/db mice. Pterosin A significantly reversed the reduced muscle GLUT-4 translocation and the increased liver phosphoenolpyruvate carboxyl kinase (PEPCK) expression in diabetic mice. Pterosin A also significantly reversed the decreased phosphorylations of AMP-activated protein kinase (AMPK) and Akt in muscles of diabetic mice. The decreased AMPK phosphorylation and increased p38 phosphorylation in livers of db/db mice were effectively reversed by pterosin A. Pterosin A enhanced glucose uptake and AMPK phosphorylation in cultured human muscle cells. In cultured liver cells, pterosin A inhibited inducer-enhanced PEPCK expression, triggered the phosphorylations of AMPK, acetyl CoA carboxylase, and glycogen synthase kinase-3, decreased glycogen synthase phosphorylation, and increased the intracellular glycogen level. These findings indicate that pterosin A may be a potential therapeutic option for diabetes.

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