Proteasomal degradation of retinoid X receptor α reprograms transcriptional activity of PPARγ in obese mice and humans
Bruno Lefebvre, … , Bart Staels, Philippe Lefebvre
Bruno Lefebvre, … , Bart Staels, Philippe Lefebvre
Published April 1, 2010
Citation Information: J Clin Invest. 2010;120(5):1454-1468. https://doi.org/10.1172/JCI38606.
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Research Article Endocrinology

Proteasomal degradation of retinoid X receptor α reprograms transcriptional activity of PPARγ in obese mice and humans

Abstract

Obese patients have chronic, low-grade inflammation that predisposes to type 2 diabetes and results, in part, from dysregulated visceral white adipose tissue (WAT) functions. The specific signaling pathways underlying WAT dysregulation, however, remain unclear. Here we report that the PPARγ signaling pathway operates differently in the visceral WAT of lean and obese mice. PPARγ in visceral, but not subcutaneous, WAT from obese mice displayed increased sensitivity to activation by its agonist rosiglitazone. This increased sensitivity correlated with increased expression of the gene encoding the ubiquitin hydrolase/ligase ubiquitin carboxyterminal esterase L1 (UCH-L1) and with increased degradation of the PPARγ heterodimerization partner retinoid X receptor α (RXRα), but not RXRβ, in visceral WAT from obese humans and mice. Interestingly, increased UCH-L1 expression and RXRα proteasomal degradation was induced in vitro by conditions mimicking hypoxia, a condition that occurs in obese visceral WAT. Finally, PPARγ-RXRβ heterodimers, but not PPARγ-RXRα complexes, were able to efficiently dismiss the transcriptional corepressor silencing mediator for retinoid and thyroid hormone receptors (SMRT) upon agonist binding. Increasing the RXRα/RXRβ ratio resulted in increased PPARγ responsiveness following agonist stimulation. Thus, the selective proteasomal degradation of RXRα initiated by UCH-L1 upregulation modulates the relative affinity of PPARγ heterodimers for SMRT and their responsiveness to PPARγ agonists, ultimately activating the PPARγ-controlled gene network in visceral WAT of obese animals and humans.

Authors

Bruno Lefebvre, Yacir Benomar, Aurore Guédin, Audrey Langlois, Nathalie Hennuyer, Julie Dumont, Emmanuel Bouchaert, Catherine Dacquet, Luc Pénicaud, Louis Casteilla, Francois Pattou, Alain Ktorza, Bart Staels, Philippe Lefebvre

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Figure 7

RXRα overexpression confers ligand sensitivity to the SMRT-PPARγ interaction.

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RXRα overexpression confers ligand sensitivity to the SMRT-PPARγ interac...
(A) NIH 3T3 fibroblasts were transfected with expression vectors coding for the fusion protein Gal4-SMRT NRID, the full-length PPARγ fused to the VP16-AD (VP16-PPARγ), and each RXR isotype. The full-length RARα fused to VP16-AD (VP16-RARα) was used as a positive control. The basal level observed in the presence of the VP16-AD and Gal4-SMRT NRID was arbitrarily set to 1. The reporter gene was a pGL3-based vector containing 6 repeats of the UAS yeast sequence. (B) Interaction of SMRT with the PPRE-bound PPARγ-RXRα heterodimer. NIH 3T3 cells were transfected with the expression vectors and reporter gene as in A, together with an expression vector coding for the VP16-AD or the VP16-AD fused to the SMRT NRID (VP16-SMRT). At 24 hours after transfection, increasing concentrations of RSG (0, 1, or 5 μM) were added for 16 hours, and luciferase activities were assayed and quantified as in A. The RXRα-RARα heterodimer was used as a positive control in response to 0.5 or 1 μM atRA. (C) Interaction of SMRT with the PPRE-bound PPARγ-RXRβ or the PPARγ-RXRγ heterodimer. Transient transfection experiments were carried out as described as in B using either a RXRβ or a RXRγ expression vector. Data represent mean ± SEM. n = 3. *P < 0.05, **P < 0.01, ***P < 0.005.