Rosiglitazone Enhances Glucose Tolerance by Mechanisms Other than Reduction of Fatty Acid Accumulation within Skeletal Muscle

doi:10.1210/en.2004-0659

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Rosiglitazone Enhances Glucose Tolerance by Mechanisms Other than Reduction of Fatty Acid Accumulation within Skeletal Muscle

Sarah J. Lessard, Sonia L. Lo Giudice, Winnie Lau, Julianne J. Reid, Nigel Turner, Mark A. Febbraio, John A. Hawley and Matthew J. Watt

Exercise Metabolism Group (S.J.L., S.L.L.G., J.A.H.), Skeletal Muscle Research Laboratory (M.A.F., M.J.W.), and Diabetic Complications Group (W.L., J.J.R.), RMIT University School of Medical Sciences, Bundoora, Victoria 3083, Australia; and Metabolic Research Centre and Department of Biomedical Science, University of Wollongong (N.T.), Wollongong, New South Wales 2522, Australia

Address all correspondence and requests for reprints to: Dr. Matthew J. Watt, Skeletal Muscle Research Laboratory, School of Medical Sciences, RMIT University, P.O. Box 71, Bundoora 3083, Victoria, Australia. E-mail: matthew.watt{at}rmit.edu.au.

We hypothesized that improved glucose tolerance with rosiglitazonetreatment would coincide with decreased levels of im triacylglycerol(IMTG), diacylglycerol, and ceramide. Obese Zucker rats wererandomly divided into two experimental groups: control (n =9) and rosiglitazone (n = 9), with lean Zucker rats (n = 9)acting as a control group for obese controls. Rats receivedeither vehicle or 3 mg/kg rosiglitazone for 6 wk. Glucose tolerancewas impaired (P < 0.01) in obese compared with lean rats,but was normalized after rosiglitazone treatment. IMTG contentwas higher in obese compared with lean rats (70.5 ± 5.1vs. 27.5 ± 2.0 µmol/g dry mass; P < 0.05) andincreased an additional 30% (P < 0.05) with rosiglitazonetreatment. Intramuscular fatty acid composition shifted towarda higher proportion of monounsaturates (P < 0.05) in obeserosiglitazone-treated rats due to an increase in palmitoleate(16:1; P < 0.05). Rosiglitazone treatment increased (P <0.05) skeletal muscle diacylglycerol and ceramide levels by65% and 100%, respectively, compared with obese rats, but elevatedmuscle diacylglycerol was not associated with changes in thetotal or membrane contents of the diacylglycerol-sensitive proteinkinase C isoforms ${theta}$ , ${delta}$ , ${alpha}$ , and ß. In summary, we observeda disassociation among skeletal muscle IMTG, diacylglyceroland ceramide content, and glucose tolerance with rosiglitazonetreatment in obese Zucker rats. Our data suggest, therefore,that rosiglitazone enhances glucose tolerance by mechanismsother than reduction of fatty acid accumulation within skeletalmuscle.

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				F. J. Spargo, S. L. McGee, N. Dzamko, M. J. Watt, B. E. Kemp, S. L. Britton, L. G. Koch, M. Hargreaves, and J. A. Hawley Dysregulation of muscle lipid metabolism in rats selectively bred for low aerobic running capacity Am J Physiol Endocrinol Metab, June 1, 2007; 292(6): E1631 - E1636. [Abstract] [Full Text] [PDF]

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				M. J. Serlie, G. Allick, J. E. Groener, M. T. Ackermans, R. Heijligenberg, B. C. Voermans, J. M. Aerts, A. J. Meijer, and H. P. Sauerwein Chronic Treatment with Pioglitazone Does Not Protect Obese Patients with Diabetes Mellitus Type II from Free Fatty Acid-Induced Insulin Resistance J. Clin. Endocrinol. Metab., January 1, 2007; 92(1): 166 - 171. [Abstract] [Full Text] [PDF]

				J. S. Lee, S. K. Pinnamaneni, S. J. Eo, I. H. Cho, J. H. Pyo, C. K. Kim, A. J. Sinclair, M. A. Febbraio, and M. J. Watt Saturated, but not n-6 polyunsaturated, fatty acids induce insulin resistance: role of intramuscular accumulation of lipid metabolites J Appl Physiol, May 1, 2006; 100(5): 1467 - 1474. [Abstract] [Full Text] [PDF]

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				B. Kiens Skeletal Muscle Lipid Metabolism in Exercise and Insulin Resistance Physiol Rev, January 1, 2006; 86(1): 205 - 243. [Abstract] [Full Text] [PDF]

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