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PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
by Ji, Ruiping , Namwanje, Maria , Larrea, Delfina , Qiang, Li , Kon, Ning , Fan, Lihong , Chan, Michelle , Area-Gomez, Estela , Liu, Qiongming , Postigo-Fernandez, Jorge , Kraakman, Michael J. , Fu, Wenxian , Creusot, Remi J.
in Acetylation - drug effects / Adipose Tissue, White - metabolism / Adipose Tissue, White - pathology / Animals / Body Weight - drug effects / Body Weight - genetics / Energy Metabolism - drug effects / Energy Metabolism - genetics / Female / Hypoglycemic Agents - pharmacology / Insulin - pharmacology / Male / Mice / Mice, Transgenic / Obesity - chemically induced / Obesity - genetics / Obesity - metabolism / Obesity - pathology / PPAR gamma - genetics / PPAR gamma - metabolism / Rosiglitazone - pharmacology / Thiazolidinediones - pharmacology
2018
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PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
by Ji, Ruiping , Namwanje, Maria , Larrea, Delfina , Qiang, Li , Kon, Ning , Fan, Lihong , Chan, Michelle , Area-Gomez, Estela , Liu, Qiongming , Postigo-Fernandez, Jorge , Kraakman, Michael J. , Fu, Wenxian , Creusot, Remi J.
in Acetylation - drug effects / Adipose Tissue, White - metabolism / Adipose Tissue, White - pathology / Animals / Body Weight - drug effects / Body Weight - genetics / Energy Metabolism - drug effects / Energy Metabolism - genetics / Female / Hypoglycemic Agents - pharmacology / Insulin - pharmacology / Male / Mice / Mice, Transgenic / Obesity - chemically induced / Obesity - genetics / Obesity - metabolism / Obesity - pathology / PPAR gamma - genetics / PPAR gamma - metabolism / Rosiglitazone - pharmacology / Thiazolidinediones - pharmacology
2018
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PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
by Ji, Ruiping , Namwanje, Maria , Larrea, Delfina , Qiang, Li , Kon, Ning , Fan, Lihong , Chan, Michelle , Area-Gomez, Estela , Liu, Qiongming , Postigo-Fernandez, Jorge , Kraakman, Michael J. , Fu, Wenxian , Creusot, Remi J.
in Acetylation - drug effects / Adipose Tissue, White - metabolism / Adipose Tissue, White - pathology / Animals / Body Weight - drug effects / Body Weight - genetics / Energy Metabolism - drug effects / Energy Metabolism - genetics / Female / Hypoglycemic Agents - pharmacology / Insulin - pharmacology / Male / Mice / Mice, Transgenic / Obesity - chemically induced / Obesity - genetics / Obesity - metabolism / Obesity - pathology / PPAR gamma - genetics / PPAR gamma - metabolism / Rosiglitazone - pharmacology / Thiazolidinediones - pharmacology
2018

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PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects
Journal Article

PPARγ deacetylation dissociates thiazolidinedione’s metabolic benefits from its adverse effects

Ji, Ruiping,
Namwanje, Maria,
Larrea, Delfina,
Qiang, Li,
Kon, Ning,
Fan, Lihong,
Chan, Michelle,
Area-Gomez, Estela,
Liu, Qiongming,
Postigo-Fernandez, Jorge,
Kraakman, Michael J.,
Fu, Wenxian,
Creusot, Remi J.
2018
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Overview
Thiazolidinediones (TZDs) are PPARγ agonists with potent insulin-sensitizing effects. However, their use has been curtailed by substantial adverse effects on weight, bone, heart, and hemodynamic balance. TZDs induce the deacetylation of PPARγ on K268 and K293 to cause the browning of white adipocytes. Here, we show that targeted PPARγ mutations resulting in constitutive deacetylation (K268R/K293R, 2KR) increased energy expenditure and protected from visceral adiposity and diet-induced obesity by augmenting brown remodeling of white adipose tissues. Strikingly, when 2KR mice were treated with rosiglitazone, they maintained the insulin-sensitizing, glucose-lowering response to TZDs, while displaying little, if any, adverse effects on fat deposition, bone density, fluid retention, and cardiac hypertrophy. Thus, deacetylation appears to fulfill the goal of dissociating the metabolic benefits of PPARγ activation from its adverse effects. Strategies to leverage PPARγ deacetylation may lead to the design of safer, more effective agonists of this nuclear receptor in the treatment of metabolic diseases.
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Publisher
American Society for Clinical Investigation
Subject

Acetylation - drug effects

/ Adipose Tissue, White - metabolism

/ Adipose Tissue, White - pathology

/ Animals

/ Body Weight - drug effects

/ Body Weight - genetics

/ Energy Metabolism - drug effects

/ Energy Metabolism - genetics

/ Female

/ Hypoglycemic Agents - pharmacology

/ Insulin - pharmacology

/ Male

/ Mice

/ Mice, Transgenic

/ Obesity - chemically induced

/ Obesity - genetics

/ Obesity - metabolism

/ Obesity - pathology

/ PPAR gamma - genetics

/ PPAR gamma - metabolism

/ Rosiglitazone - pharmacology

/ Thiazolidinediones - pharmacology

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