Peroxisome Proliferator-Activated Receptor γ and Its Role in Adipocyte Homeostasis and Thiazolidinedione-Mediated Insulin Sensitization

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ABSTRACT

Adipose tissue is a dynamic organ that makes critical contributions to whole-body metabolic homeostasis. Although recent studies have revealed that different fat depots have distinct molecular signatures, metabolic functions and adipogenic mechanisms, peroxisome proliferator-activated receptor γ (PPARγ) is still widely viewed as the master regulator of adipogenesis and critical for maintaining mature adipocyte function. Using an inducible, adipocyte-specific knockout system, we explored the role of PPARγ in mature adipocytes in vivo . Short-term PPARγ deficiency in adipocytes reduces whole-body insulin sensitivity, but adipocytes are viable both in vitro and in vivo . However, after exposure to a high-fat diet, even short-term PPARγ deficiency leads to rapid adipocyte death. When mature adipocytes are depleted of both PPARγ and CCAAT-enhancer-binding protein α (C/EBPα), they are rapidly depleted of lipids and undergo adipocyte death, both in vitro and in vivo . Surprisingly, although thiazolidinediones (TZDs; PPARγ agonists) are thought to act mainly on PPARγ, PPARγ in adipocytes is not required for the whole-body insulin-sensitizing effect of TZDs. This offers new mechanistic aspects of PPARγ/TZD action and its effect on whole-body metabolic homeostasis.

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Targeting adipose tissue in the treatment of obesity-associated diabetes

Christine M Kusminski, Perry Bickel, Philipp Scherer (2016)

Adipose tissue regulates numerous physiological processes, and its dysfunction in obese humans is associated with disrupted metabolic homeostasis, insulin resistance and type 2 diabetes mellitus (T2DM). Although several US-approved treatments for obesity and T2DM exist, these are limited by adverse effects and a lack of effective long-term glucose control. In this Review, we provide an overview of the role of adipose tissue in metabolic homeostasis and assess emerging novel therapeutic strategies targeting adipose tissue, including adipokine-based strategies, promotion of white adipose tissue beiging as well as reduction of inflammation and fibrosis.

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Deletion of PPARgamma in adipose tissues of mice protects against high fat diet-induced obesity and insulin resistance.

Yuka Fujimoto, Emily B Kahn, Robert A Kesterson … (2005)

Peroxisome proliferator-activated receptor gamma (PPARgamma) plays a crucial role in adipocyte differentiation, glucose metabolism, and other physiological processes. To further explore the role of PPARgamma in adipose tissues, we used a Cre/loxP strategy to generate adipose-specific PPARgamma knockout mice. These animals exhibited marked abnormalities in the formation and function of both brown and white adipose tissues. When fed a high-fat diet, adipose-specific PPARgamma knockout mice displayed diminished weight gain despite hyperphagia, had diminished serum concentrations of both leptin and adiponectin, and did not develop glucose intolerance or insulin resistance. Characterization of in vivo glucose dynamics pointed to improved hepatic glucose metabolism as the basis for preventing high-fat diet-induced insulin resistance. Our findings further illustrate the essential role for PPARgamma in the development of adipose tissues and suggest that a compensatory induction of hepatic PPARgamma may stimulate an increase in glucose disposal by the liver.

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Macrophage PPAR gamma is required for normal skeletal muscle and hepatic insulin sensitivity and full antidiabetic effects of thiazolidinediones.

J. Hernandez, Brian Folian, Paul L. Nguyen … (2007)

PPAR gamma is required for fat cell development and is the molecular target of antidiabetic thiazolidinediones (TZDs), which exert insulin-sensitizing effects in adipose tissue, skeletal muscle, and liver. Unexpectedly, we found that inactivation of PPAR gamma in macrophages results in the development of significant glucose intolerance plus skeletal muscle and hepatic insulin resistance in lean mice fed a normal diet. This phenotype was associated with increased expression of inflammatory markers and impaired insulin signaling in adipose tissue, muscle, and liver. PPAR gamma-deficient macrophages secreted elevated levels of factors that impair insulin responsiveness in muscle cells in a manner that was enhanced by exposure to FFAs. Consistent with this, the relative degree of insulin resistance became more severe in mice lacking macrophage PPAR gamma following high-fat feeding, and these mice were only partially responsive to TZD treatment. These findings reveal an essential role of PPAR gamma in macrophages for the maintenance of whole-body insulin action and in mediating the antidiabetic actions of TZDs.