Regulation of PPAR gamma gene expression by nutrition and obesity in rodents. (original) (raw)
Research Article Free access | 10.1172/JCI118703
M Jimenez-Liñan, B B Lowell, A Hamann, E Hu, B Spiegelman, J S Flier, and D E Moller
Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Department of Medicine, Beth Israel Hospital, Boston, Massachusetts 02215, USA.
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Published June 1, 1996 -More info
Published June 1, 1996 -Version history
The orphan nuclear receptor, peroxisome proliferator-activated receptor (PPAR) gamma, is implicated in mediating expression of fat-specific genes and in activating the program of adipocyte differentiation. The potential for regulation of PPAR gamma gene expression in vivo is unknown. We cloned a partial mouse PPAR gamma cDNA and developed an RNase protection assay that permits simultaneous quantitation of mRNAs for both gamma l and gamma 2 isoforms encoded by the PPAR gamma gene. Probes for detection of adipocyte P2, the obese gene product, leptin, and 18S mRNAs were also employed. Both gamma l and gamma 2 mRNAs were abundantly expressed in adipose tissue. PPAR gamma 1 expression was also detected at lower levels in liver, spleen, and heart; whereas, gamma l and gamma 2 mRNA were expressed at low levels in skeletal muscle. Adipose tissue levels of gamma l and gamma 2 were not altered in two murine models of obesity (gold thioglucose and ob/ob), but were modestly increased in mice with toxigene-induced brown fat ablation uncoupling protein diphtheria toxin A mice. Fasting (12-48 h) was associated with an 80% fall in PPAR gamma 2 and a 50% fall in PPAR gamma mRNA levels in adipose tissue. Western blot analysis demonstrated a marked effect of fasting to reduce PPAR gamma protein levels in adipose tissue. Similar effects of fasting on PPAR gamma mRNAs were noted in all three models of obesity. Insulin-deficient (streptozotocin) diabetes suppressed adipose tissue gamma l and gamma 2 expression by 75% in normal mice with partial restoration during insulin treatment. Levels of adipose tissue PPAR gamma 2 mRNA were increased by 50% in normal mice exposed to a high fat diet. In obese uncoupling protein diphtheria toxin A mice, high fat feeding resulted in de novo induction of PPAR gamma 2 expression in liver. We conclude (a) PPAR gamma 2 mRNA expression is most abundant in adipocytes in normal mice, but lower level expression is seen in skeletal muscle; (b) expression of adipose tissue gamma1 or gamma2 mRNAs is increased in only one of the three models of obesity; (c) PPAR gamma 1 and gamma 2 expression is downregulated by fasting and insulin-deficient diabetes; and (d) exposure of mice to a high fat diet increases adipose tissue expression of PPAR gamma (in normal mice) and induces PPAR gamma 2 mRNA expression in liver (in obese mice). These findings demonstrate in vivo modulation of PPAR gamma mRNA levels over a fourfold range and provide an additional level of regulation for the control of adipocyte development and function.
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