Adipose MDM2 regulates systemic insulin sensitivity

The intimate association between obesity and type II diabetes urges for a deeper understanding of adipocyte function. We and others have previously delineated a role for the tumor suppressor p53 in adipocyte biology. Here, we show that mice haploinsufficient for MDM2, a key regulator of p53, in thei...

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Hauptverfasser: Hallenborg, Philip, Jensen, Benjamin Anderschou Holbech, Fjære, Even, Petersen, Rasmus Koefoed, Belmaâti, Mohammed-Samir, Rasmussen, Sarah Søndergård, Gunnarsson, Jon Petur, Lauritzen, Pernille, Cheng, Kenneth King Yip, Hermansson, Martin, Sonne, Si Brask, Ejsing, Christer S, Xu, Aimin, Kratchmarova, Irina, Krüger, Marcus, Madsen, Lise, Kristiansen, Karsten, Blagoev, Blagoy
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Sprache:eng
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Zusammenfassung:The intimate association between obesity and type II diabetes urges for a deeper understanding of adipocyte function. We and others have previously delineated a role for the tumor suppressor p53 in adipocyte biology. Here, we show that mice haploinsufficient for MDM2, a key regulator of p53, in their adipose stores suffer from overt obesity, glucose intolerance, and hepatic steatosis. These mice had decreased levels of circulating palmitoleic acid [non-esterified fatty acid (NEFA) 16:1] concomitant with impaired visceral adipose tissue expression of Scd1 and Ffar4. A similar decrease in Scd and Ffar4 expression was found in in vitro differentiated adipocytes with perturbed MDM2 expression. Lowered MDM2 levels led to nuclear exclusion of the transcriptional cofactors, MORC2 and LIPIN1, and thereby possibly hampered adipocyte function by antagonizing LIPIN1-mediated PPARγ coactivation. Collectively, these data argue for a hitherto unknown interplay between MDM2 and MORC2/LIPIN1 involved in balancing adipocyte function.