Journal of Animal and Veterinary Advances

Year: 2010
Volume: 9
Issue: 22
Page No. 2883 - 2889

Changes in Glycolipid Metabolism During A High-Sucrose Feeding in Spontaneously Diabetic Torii (SDT) Rats, A Genetic Model of Nonobese Type 2 Diabetes

Authors : Takeshi Ohta, Katsuhiro Miyajima and Takahisa Yamada

References

Basciano, H., L. Federico and K. Adeli, 2005. Fructose, insulin resistance, and metabolic dyslipidemia. Nutr. Metab., 2: 5-5.
Direct Link  |  

Bizeau, M.E., C. Short, J.S. Thresher, S.R. Commerford, W.T. Williis and M.J. Pagliassotti, 2001. Increased pyruvate flux capacities account for diet-induced increases in gluconeogenesis in vitro. Am. J. Physiol. Regulatory Integrative Comp. Physiol., 281: R427-R433.
Direct Link  |  

Chan, J.C.N., V. Malik, W. Jia, T. Kadowaki, C.S. Yajnik, K.H. Yoon and F.B. Hu, 2009. Diabetes in Asia: Epidemiology, risk factors and pathophysiology. J. Am. Med. Assoc., 301: 2129-2140.
CrossRef  |  PubMed  |  Direct Link  |  

Chiasson, J.L., R.G. Josse, R. Gomis, M. Hanefeld, A. Karasik and M. Laakso, 2002. Acarbose for prevention of type 2 diabetes mellitus: The STOP-NIDDM randomised trial. Lancet, 359: 2072-2077.
CrossRef  |  Direct Link  |  

Commerford, S.R., J.B. Ferniza, M.E. Bizeau, J.S. Thresher, W.T. Willis and M.J. Pagliassotti, 2002. Diets enriched in sucrose or fat increase gluconeogenesis and G-6-Pase but not basal glucose production in rats. Am. J. Physiol. Endocrinol. Metab., 283: E545-E555.
CrossRef  |  

Daly, M.E., C. Vale, M. Walker, K.G. Alberti and J.C. Mathers, 1997. Dietary carbohydrates and insulin sensitivity: A review of the evidence and clinical implications. Am. J. Clin. Nutr., 66: 1072-1085.
Direct Link  |  

De Souza, C.J., M. Eckhardt, K. Gagen, M. Dong, W. Chen, D. Laurent and B.F. Burkey, 2001. Effects of pioglitazone on adipose tissue remodeling within the setting of obesity and insulin resistance. Diabetes, 50: 1863-1871.
CrossRef  |  

Huang, W., N. Dedousis and R.M. O`Doherty, 2007. Hepatic steatosis and plasma dyslipidemia induced by a high-sucrose diet are corrected by an acute leptin infusion. J. Applied Physiol., 102: 2260-2265.
CrossRef  |  Direct Link  |  

Kim, J.Y., L.A. Nolte, P.A. Hansen, D.H. Han, K. Kawanaka and J.O. Holloszy, 1999. Insulin resistance of muscle glucose transport in male and female rats fed a high-sucrose diet. Am. J. Physiol., 276: R665-R672.
Direct Link  |  

Krebs, M. and M. Roden, 2005. Molecular mechanisms of lipid-induced insulin resistance in muscle, liver and vasculature. Diabetes Obes. Metab., 7: 621-632.
CrossRef  |  

Masuyama, T., K. Komeda, A. Hara, M. Noda and M. Shinohara et al., 2004. Chronological characterization of diabetes development in male Spontaneously Diabetic Torii rats. Biochem. Biophys. Res. Commun., 314: 870-877.
CrossRef  |  

Matsui, K., T. Ohta, T. Oda, T. Sasase and N. Ueda et al., 2008. Diabetes-associated complications in Spontaneously Diabetic Torii fatty rats. Exp. Anim., 57: 111-121.
CrossRef  |  

Ohta, T., K. Matsui, K. Miyajima, T. Sasase, T. Masuyama et al., 2007. Effect of insulin therapy on renal changes in Spontaneously Diabetic Torii rats. Exp. Anim., 56: 355-362.
PubMed  |  

Ohta, T., K. Miyajima and T. Yamada, 2009. A high-sucrose diet induces fatty liver but not deterioration of diabetes mellitus in zucker diabetic fatty rats. Res. Commun. Mol. Pathol. Pharmacol.

Ohta, T., K. Miyajima and T. Yamada, 2010. Pancreatic weakness in zucker fatty rats, a genetic obese model. J. Anim. Vet. Adv., (In Press).

Ohta, T., K. Miyajima, G. Komuro, N. Furukawa and F. Yonemori, 2003. Antidiabetic effect of chronic administration of JTT-608, a new hypoglycemic agent in diabetic Goto-Kakizaki rats. Eur. J. Pharmacol., 476: 159-166.
PubMed  |  

Okuno, A., H. Tamemoto, K. Tobe, K. Ueki and Y. Mori et al., 1998. Troglitazone increases the number of small adipocytes without the change of white adipose tissue mass in obese Zucker rats. J. Clin. Invest., 101: 1354-1361.
Direct Link  |  

Pagliassotti, M.J. and P.A. Prach, 1997. Increased net hepatic glucose output from gluconeogenic precursors after high-sucrose diet feeding in male rats. Am. J. Physiol., 272: R526-R531.
Direct Link  |  

Pagliassotti, M.J., P.A. Prach, T.A. Koppenhafer and D.A. Pan, 1996. Changes in insulin action, triglycerides and lipid composition during sucrose feeding in rats. Am. J. Physiol., 271: R1319-R1326.
Direct Link  |  

Sasase, T., T. Ohta, N. Ogawa, K. Miyajima and M. Ito et al., 2006. Preventive effects of glycaemic control on ocular complications of spontaneously diabetic torii rats. Diabetes Obes. Metab., 8: 501-507.
PubMed  |  

Shinohara, M., T. Masuyama and A. Kakehashi, 2007. The Spontaneously Diabetic Torii (SDT) Rat with Retinopathy Lesions Resembling those of Humans. In: Animal Models of Diabetes: Frontiers in Research, Shafrir, E. (Ed.). 2nd Edn., CRC Press, Boca Raton.

Shinohara, M., T. Masuyama, T. Shoda, T. Takahashi and Y. Katsuda et al., 2000. A new spontaneously diabetic non-obese Torii rat strain with severe ocular complications. Int. J. Exp. Diabetes Res., 1: 89-100.
PubMed  |  

Zimmet, P., K.G.M.M. Alberti and J. Shaw, 2001. Global and societal implications of the diabetes epidemic. Nature, 414: 782-787.
CrossRef  |  PubMed  |  Direct Link  |  

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