Pioglitazone improves insulin sensitivity through reduction in muscle lipid and redistribution of lipid into adipose tissue

doi:10.1152/ajpendo.00522.2004

Pioglitazone improves insulin sensitivity through reduction in muscle lipid and redistribution of lipid into adipose tissue

Neda Rasouli, Ulrika Raue, Leslie M. Miles, Tong Lu, Gina B. Di Gregorio, Steven C. Elbein, and Philip A. Kern

The Central Arkansas Veterans Healthcare System, and the Department of Medicine, Division of Endocrinology, University of Arkansas for Medical Sciences, Little Rock, Arkansas

Submitted 29 October 2004 ; accepted in final form 16 December 2004

Patients with insulin resistance often manifest increased intramyocellularlipid (IMCL) along with increased visceral adipose tissue. Thisstudy was designed to determine whether the insulin sensitizerdrugs pioglitazone and metformin would improve glucose intoleranceand insulin sensitivity by decreasing IMCL. In this study, 23generally healthy subjects with impaired glucose tolerance wererandomized to receive either pioglitazone 45 mg/day or metformin2,000 mg/day for 10 wk. Before and after treatment, we measuredinsulin sensitivity and abdominal subcutaneous and visceraladipose tissue with CT scanning. In addition, muscle biopsieswere performed for measurement of IMCL and muscle oxidativeenzymes. After treatment with pioglitazone, 2-h glucose fellfrom 9.6 mmol/l (172 mg/dl) to 6.1 mmol/l (119 mg/dl), whereasthere was no change in 2-h glucose with metformin. With pioglitazonetreatment, there was a 65% increase in insulin sensitivity alongwith a 34% decrease in IMCL (both P $≤$ 0.002). This decrease inIMCL was not due to increased muscle lipid oxidation, as therewere no changes in muscle lipid oxidative enzymes. However,pioglitazone resulted in a 2.6-kg weight gain along with a significantdecrease in the visceral-to-subcutaneous adipose tissue ratio.In contrast, metformin treatment resulted in no change in insulinsensitivity, IMCL, oxidative enzymes, or adipose tissue volumes.Pioglitazone improved glucose tolerance and insulin sensitivityby reducing IMCL. This reduction in IMCL was not due to an increasein muscle lipid oxidation but to a diversion of lipid from ectopicsites into subcutaneous adipose tissue.

lipotoxicity; thiazolidinediones; ectopic fat; metformin

Address for reprint requests and other correspondence: N. Rasouli, Central Arkansas Veterans Healthcare System, 111J LR, 4300 West 7th St., Little Rock, AR 72205 (E-mail: Rasoulineda{at}UAMS.edu)

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