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Targeting PPARγ in the epigenome rescues genetic metabolic defects in mice.

Citation
Soccio, R. E., et al. “Targeting Pparγ In The Epigenome Rescues Genetic Metabolic Defects In Mice.”. The Journal Of Clinical Investigation, pp. 1451-1462.
Center University of Pennsylvania
Featured
Author Raymond E Soccio, Zhenghui Li, Eric R Chen, Yee Hoon Foong, Kiara K Benson, Joanna R Dispirito, Shannon E Mullican, Matthew J Emmett, Erika R Briggs, Lindsey C Peed, Richard K Dzeng, Carlos J Medina, Jennifer F Jolivert, Megan Kissig, Satyajit R Rajapurkar, Manashree Damle, Hee-Woong Lim, Kyoung-Jae Won, Patrick Seale, David J Steger, Mitchell A Lazar
Abstract

Obesity causes insulin resistance, and PPARγ ligands such as rosiglitazone are insulin sensitizing, yet the mechanisms remain unclear. In C57BL/6 (B6) mice, obesity induced by a high-fat diet (HFD) has major effects on visceral epididymal adipose tissue (eWAT). Here, we report that HFD-induced obesity in B6 mice also altered the activity of gene regulatory elements and genome-wide occupancy of PPARγ. Rosiglitazone treatment restored insulin sensitivity in obese B6 mice, yet, surprisingly, had little effect on gene expression in eWAT. However, in subcutaneous inguinal fat (iWAT), rosiglitazone markedly induced molecular signatures of brown fat, including the key thermogenic gene Ucp1. Obesity-resistant 129S1/SvImJ mice (129 mice) displayed iWAT browning, even in the absence of rosiglitazone. The 129 Ucp1 locus had increased PPARγ binding and gene expression that were preserved in the iWAT of B6x129 F1-intercrossed mice, with an imbalance favoring the 129-derived alleles, demonstrating a cis-acting genetic difference. Thus, B6 mice have genetically defective Ucp1 expression in iWAT. However, when Ucp1 was activated by rosiglitazone, or by iWAT browning in cold-exposed or young mice, expression of the B6 version of Ucp1 was no longer defective relative to the 129 version, indicating epigenomic rescue. These results provide a framework for understanding how environmental influences like drugs can affect the epigenome and potentially rescue genetically determined disease phenotypes.

Year of Publication
2017
Journal
The Journal of clinical investigation
Volume
127
Issue
4
Number of Pages
1451-1462
Date Published
04/2017
ISSN Number
1558-8238
DOI
10.1172/JCI91211
Alternate Journal
J. Clin. Invest.
PMID
28240605
PMCID
PMC5373865
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