My lab's initial effort was to isolate novel transcriptional cofactors for PPARgamma. Using GST-fused PPARgamma ligand binding domain (GST-PPARgLBD) as bait, we pulled down PTIP, a nuclear protein that has been implicated in DNA damage response, from cell nuclear extracts. PTIP functions as a transcription coactivator for PPARgamma in reporter assay. However, no direct interaction was observed between recombinant PTIP and PPARgamma proteins, suggesting that PPARgamma may interact indirectly with PTIP through PTIP-associated proteins.By using proteomic approaches to isolate PTIP-associated proteins, we found that in cells, endogenous PTIP and a novel protein PA1 are both subunits of a Set1-like histone H3K4 methyltransferase complex (i.e. MLL3/MLL4 complex) that contains H3K4 methyltransferases MLL3 and MLL4, and the JmjC domain-containing protein UTX (Cho, Y.-W., et al., J. Biol. Chem., 2007. 282: p. 20395-20406.) Further, we demonstrate that the JmjC domain-containing proteins UTX and JMJD3 are histone H3K27-specific demethylases (Hong, S., et al., PNAS, 2007. 104: p. 18439-18444). Methylation on H3K4 is an activating epigenetic mark while methylation on H3K27 is a repressive one. Based on our finding that H3K4 methyltransferases MLL3/MLL4 physically associate with H3K27 demethylase UTX, we propose that by adding an activating epigenetic mark and removing a repressive one, the MLL3/MLL4 complex may use two distinct histone modifying activities to synergistically activate target gene expression. We will use MEF cell lines derived from MLL3-/- and MLL4-flox/flox mice to investigate how MLL3/MLL4 complex regulates ligand-induced PPARgamma target gene expression. PPARdelta is a member of the PPAR family of nuclear receptors and is ubiquitously expressed. Activation of PPARdelta promotes fat burning. Highly specific synthetic PPARdelta ligands (agonists), such as GW501516 (GW), are promising drug candidates for obesity and diabetes. Endogenous PPARdelta is abundantly expressed in mouse embryonic fibroblasts (MEFs) but associates with histone deacetylases and behaves as a transcriptional repressor in the absence of ligand. Upon ligand treatment, endogenous PPARdelta switches from a repressor to an activator, which leads to a robust activation of target genes such as Angptl4. We are using the GW-induced Angptl4 expression in MEFs as a model system to investigate the roles of histone acetyltransferases GCN5/PCAF, CBP/p300, and associated histone acetylations in regulating expression of endogenous nuclear receptor target genes.
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