AMPK Regulates Metabolic Actions of Glucocorticoids by Phosphorylating the Glucocorticoid Receptor through p38 MAPK

Nader, Nader D.; Ng, Sinnie Sin Man; Lambrou, George Ι.; Pervanidou, Panagiota; Wang, Yonghong; Chrousos, George P.; Kino, Tomoshige

doi:10.1210/me.2010-0192

Cited by 77 publications

(69 citation statements)

References 64 publications

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“…Our observation that p38 MAPK regulates GR phosphorylation at S203 combined with the fact that in other cell types p38 MAPK also phosphorylates GR at S211 (13,46) suggests that this kinase can affect GR function by acting on multiple serine residues. In line with this, we showed that p38 MAPK can suppress GR function by exerting two opposite actions on GR key serine residues, namely directly phosphorylating S203 and interfering with GR phosphorylation at S211.…”

Section: Discussionmentioning

confidence: 81%

Basal p38 Mitogen-Activated Protein Kinase Regulates Unliganded Glucocorticoid Receptor Function in Airway Smooth Muscle Cells

Bouazza

Debba-Pavard²,

Amrani³

et al. 2014

Am J Respir Cell Mol Biol

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Like many steroid receptors, the glucocorticoid (GC) receptor (GR) is a phosphoprotein. Although there are multiple phosphorylation sites critical for GR transcriptional activity (i.e., serine [S]203, S211, and S226), their respective role in driving GR functions is highly cell specific. We have recently identified protein phosphatase 5 as an essential Ser/Thr phosphatase responsible for impairing GR function via S211 dephosphorylation in airway smooth muscle (ASM) cells. Because p38 mitogen-activated protein kinase (MAPK) directly phosphorylates GR in different cell types in a stimulus-and celldependent manner, we investigated the role of p38 MAPK on GR phosphorylation and function in ASM cells. Cells were transfected with 100 nM p38 MAPK small interfering RNA or 2 mg MAPK kinase 3 expression vector (a specific kinase that directly activates p38 MAPK) in the presence or absence of fluticasone (100 nM) and/or p38 MAPK pharmacological inhibitor SB203580. We found that p38 MAPK blockade positively regulates GR nuclear translocation and GR-dependent induction of the steroid-target gene GC-induced leucine zipper in a hormone-independent manner. We also found that p38 MAPK-dependent regulation of GR functions was associated with a differential action on GR phosphorylation at S203 and S211 residues. This study demonstrated that the inactive state of GR in resting conditions is not only ensured by the absence of the GC ligand but also by p38 MAPK-dependent phosphorylation of unliganded GR at specific residues, which appears to be important in determining the overall GC responsiveness of ASM cells.

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Section: Discussionmentioning

confidence: 81%

Basal p38 Mitogen-Activated Protein Kinase Regulates Unliganded Glucocorticoid Receptor Function in Airway Smooth Muscle Cells

Bouazza

Debba-Pavard²,

Amrani³

et al. 2014

Am J Respir Cell Mol Biol

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“…Smad6 suppresses GR-induced transactivation by attracting HDAC3 to DNA-bound GR and by antagonizing acetylation of histone H3 and H4 induced by p160/SRC1 [64]. In addition, AMP-activated kinase (AMPK) counteracts GC/GR-induced upregulation of the gluconeogenic program in liver by specifically phosphorylating the GR at serine 211 and releasing p300 and the SWF/SNF chromatin remodelling complex component SNF2 from gluconeogenic GR target gene promoters [65], suggesting that AMPK may directly link cellular energy status to systemic Bereitgestellt von | Uppsala University Library Angemeldet Heruntergeladen am | 17.11.14 12:00 glucose homeostasis through the control of GR-associated transcriptional co-factor complexes in the liver.…”

Section: Gcs In Glucose Homeostasismentioning

confidence: 99%

Glucocorticoid hormones and energy homeostasis

Guia

Rose

Herzig³

2014

Hormone Molecular Biology and Clinical Investigation

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Glucocorticoids (GC) and their cognate intracellular receptor, the glucocorticoid receptor (GR), have been characterised as critical checkpoints in the endocrine control of energy homeostasis in mammals. Indeed, aberrant GC action has been linked to a variety of severe metabolic diseases, including obesity, insulin resistance and type 2 diabetes. As a steroid-binding member of the nuclear receptor superfamily of transcription factors, the GR translocates into the cell nucleus upon GC binding where it serves as a transcriptional regulator of distinct GC-responsive target genes that are - in many cases - associated with glucose and lipid regulatory pathways and thereby intricately control both physiological and pathophysiological systemic energy homeostasis. Here, we summarize the current knowledge of GC/GR function in energy metabolism and systemic metabolic dysfunction, particularly focusing on glucose and lipid metabolism.

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“…SMAD6 suppresses GR-mediated transactivation by attracting histone deacetylase 3 (HDAC3) to DNAbound GR and subsequently, antagonizing acetylation of histone H3 and H4 induced by SRC-1 (63). In another unique mechanism, Nadar et al (2010) recently found that phosphorylation of GR at serine 232 by MAPK p38 can discharge p300 and the SWF/SNF chromatin remodelling complex component SNF2 from gluconeogenic GR bound promoters in rat liver (64). Since AMP-activated kinase (AMPK) activates MAPK p38, this provides a mechanism by which the organism 'senses' its low energy status and turns-off ATP-consuming metabolic programs including gluconeogenesis (65).…”

Section: Role Of Gcs In the Regulation Of Hepatic Gluconeogenesismentioning

confidence: 99%

“…Since AMP-activated kinase (AMPK) activates MAPK p38, this provides a mechanism by which the organism 'senses' its low energy status and turns-off ATP-consuming metabolic programs including gluconeogenesis (65). Indeed, when rats were treated with the AMPK activator AICAR, Dex-induced hepatic steatosis and gluconeogenesis were attenuated (64).…”

Section: Role Of Gcs In the Regulation Of Hepatic Gluconeogenesismentioning

confidence: 99%

Minireview: New Molecular Mediators of Glucocorticoid Receptor Activity in Metabolic Tissues

Patel

Williams-Dautovich

Cummins

2014

Molecular Endocrinology

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The glucocorticoid receptor (GR) was one of the first nuclear hormone receptors cloned and represents one of the most effective drug targets available today for the treatment of severe inflammation. The physiologic consequences of endogenous or exogenous glucocorticoid excess are well established and include hyperglycemia, insulin resistance, fatty liver, obesity, and muscle wasting. However, at the molecular and tissue-specific level, there are still many unknown protein mediators of glucocorticoid response and thus, much remains to be uncovered that will help determine whether activation of the GR can be tailored to improve therapeutic efficacy while minimizing unwanted side effects. This review summarizes recent discoveries of tissue-selective modulators of glucocorticoid signaling that are important in mediating the unwanted side effects of therapeutic glucocorticoid use, emphasizing the downstream molecular effects of GR activation in the liver, adipose tissue, muscle, and pancreas.

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AMPK Regulates Metabolic Actions of Glucocorticoids by Phosphorylating the Glucocorticoid Receptor through p38 MAPK

Cited by 77 publications

References 64 publications

Basal p38 Mitogen-Activated Protein Kinase Regulates Unliganded Glucocorticoid Receptor Function in Airway Smooth Muscle Cells

Basal p38 Mitogen-Activated Protein Kinase Regulates Unliganded Glucocorticoid Receptor Function in Airway Smooth Muscle Cells

Glucocorticoid hormones and energy homeostasis

Minireview: New Molecular Mediators of Glucocorticoid Receptor Activity in Metabolic Tissues

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