Planta Medica, Inhaltsverzeichnis Planta Med 2005; 71(7): 617-621DOI: 10.1055/s-2005-871266 Original Paper Pharmacology © Georg Thieme Verlag KG Stuttgart · New York Myricetin as the Active Principle of Abelmoschus moschatus to Lower Plasma Glucose in Streptozotocin-Induced Diabetic Rats I-Min Liu1 , Shorong-Shii Liou1 , Ting-Wei Lan1 , Feng-Lin Hsu2 , Juei-Tang Cheng3 1Department of Pharmacy, Tajen Institute of Technology, Yen-Pou, Ping Tung Shien, Taiwan, R.O.C. 2Institute of Pharmacognosy, School of Pharmacy, Taipei Medical University, Taipei City, Taiwan, R.O.C. 3Department of Pharmacology, College of Medicine, National Cheng Kung University, Tainan City, Taiwan, R.O.C. Artikel empfehlen Abstract Artikel einzeln kaufen Abstract The antihyperglycemic action of myricetin, purified from the aerial part of Abelmoschus moschatus (Malvaceae), was investigated in streptozotocin-induced diabetic rats (STZ-diabetic rats). Bolus intravenous injection of myricetin decreased the plasma glucose concentrations in a dose-dependent manner in STZ-diabetic rats. Myricetin at the effective dose (1.0 mg/kg) significantly attenuated the increase of plasma glucose induced by an intravenous glucose challenge test in normal rats. A stimulatory effect of myricetin on glucose uptake of the soleus muscles isolated from STZ-diabetic rats was obtained in a concentration-dependent manner from 0.01 to 10.0 μmol/L. The increase of glucose utilization by myricetin was further characterized using the enhancement of glycogen synthesis in isolated hepatocytes of STZ-diabetic rats. These results suggest that myricetin has an ability to enhance glucose utilization to lower plasma glucose in diabetic rats lacking insulin. Key words Myricetin - Abelmoschus moschatus - Malvaceae - STZ-diabetic rats - glucose uptake - glycogen synthesis Volltext Referenzen References 1 Lopez-Candales A. Metabolic syndrome X: a comprehensive review of the pathophysiology and recommended therapy. J Med. 2001; 32 283-300 2 Bown D. Encyclopaedia of Herbs and their Uses. Dorling Kindersley London; 1995 3 Mira L, Fernandez M T, Santos M, Rocha R, Florencio M H, Jennings K R. Interactions of flavonoids with iron and copper ions: a mechanism for their antioxidant activity. Free Radic Res. 2002; 36 1199-208 4 Dajas F, Rivera F, Blasina F, Arredondo F, Echeverry C, Lafon L, Morquio A, Heizen H. Cell culture protection and in vivo neuroprotective capacity of flavonoids. Neurotox Res. 2003; 5 425-32 5 Ong K C, Khoo H E. Biological effects of myricetin. Gen Pharmacol. 1997; 29 21-6 6 Knekt P, Kumpulainen J, Jarvinen R, Rissanen H, Heliovaara M, Reunanen A, Hakulinen T, Aromaa A. Flavonoid intake and risk of chronic diseases. Am J Clin Nutr. 2002; 76 560-8 7 Ong K C, Khoo H E. Insulinomimetic effects of myricetin on lipogenesis and glucose transport in rat adipocytes but not glucose transport translocation. Biochem Pharmacol. 1996; 51 423-9 8 Geissman T A. The Chemistry of Flavonoids Compounds. Pergamon Press Oxford; 1962: p 419 9 Markham K R. Techniques of Flavonoid Identification. Academic Press New York; 1982: p 84 10 Nuraliev I uN, Avezov G A. The efficacy of quercetin in alloxan diabetes. Eksp Klin Farmakol. 1992; 55 42-4 11 Liu I M, Chi T C, Hsu F L, Chen C F, Cheng J T. Isoferulic acid as active principle from the rhizoma of Cimicifuga dahurica to lower plasma glucose in diabetic rats. Planta Med. 1999; 65 712-4 12 Ziel F H, Venkatesan N, Davidson M B. Glucose transport is rate limiting for skeletal muscle glucose metabolism in normal and STZ-induced diabetic rats. Diabetes. 1988; 37 885-90 13 Berger J, Biswas C, Vicario P P, Strout H V, Saperstein R, Pilch P F. Decreased expression of the insulin-responsive glucose transporter in diabetes and fasting. Nature. 1989; 340 70-2 14 Bollen M, Keppens S, Stalmans W. Specific features of glycogen metabolism in the liver. Biochem J. 1998; 336 1-31 15 Consoli A, Nurjhan N, Capani F, Gerich J. Predominant role of gluconeogenesis in increased hepatic glucose production in NIDDM. Diabetes. 1989; 38 550-7 I-Min Liu, Ph. D. Department of Pharmacy Tajen Institute of Technology Yen-Pou Ping Tung Shien Taiwan, R.O.C. Telefon: +886-7-346-0961 Fax: +886-8-762-5308 eMail: iml@ccsun.tajen.edu.tw
