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Abstract
PRIP-Interacting protein with methyl transferase domain (PIMT) serves as a molecular bridge between CREB-binding protein (CBP)/ E1A binding protein p300 (Ep300) -anchored histone acetyl transferase and the Mediator complex sub-unit1 (Med1) and modulates nuclear receptor transcription. Here, we report that ERK2 phosphorylates PIMT at Ser298 and enhances its ability to activate PEPCK promoter. We observed that PIMT is recruited to PEPCK promoter and adenoviral-mediated over-expression of PIMT in rat primary hepatocytes up-regulated expression of gluconeogenic genes including PEPCK. Reporter experiments with phosphomimetic PIMT mutant (PIMTS298D) suggested that conformational change may play an important role in PIMT-dependent PEPCK promoter activity. Overexpression of PIMT and Med1 together augmented hepatic glucose output in an additive manner. Importantly, expression of gluconeogenic genes and hepatic glucose output were suppressed in isolated liver specific PIMT knockout mouse hepatocytes. Furthermore, consistent with reporter experiments, PIMTS298D but not PIMTS298A augmented hepatic glucose output via up-regulating the expression of gluconeogenic genes. Pharmacological blockade of MAPK/ERK pathway using U0126, abolished PIMT/Med1-dependent gluconeogenic program leading to reduced hepatic glucose output. Further, systemic administration of T4 hormone to rats activated ERK1/2 resulting in enhanced PIMT ser298 phosphorylation. Phosphorylation of PIMT led to its increased binding to the PEPCK promoter, increased PEPCK expression and induction of gluconeogenesis in liver. Thus, ERK2-mediated phosphorylation of PIMT at Ser298 is essential in hepatic gluconeogenesis, demonstrating an important role of PIMT in the pathogenesis of hyperglycemia.
Highlights
protein with methyl transferase domain (PIMT)/NCoA6IP (PRIP Interacting protein with Methyl Transferase domain) was first isolated as a transcriptional coactivator PRIP/NCoA6 interacting protein (NCoA6IP) in a yeast two hybrid screen [1]
PIMT interacts with and co-localizes to nucleus along with histone acetyl transferase (HAT) containing transcriptional coactivators such as CREBbinding protein (CBP)/E1A binding protein p300 (Ep300) and non-HAT containing coactivators like the Mediator subunit Mediator complex sub-unit1 (Med1) (PPAR binding protein, PBP/TRAP220/DRIP205) and PRIP [1,5,6].we proposed that PIMT serves as a molecular bridge between HAT and non-HAT containing transcriptional complexes and controls nuclear receptor-mediated transcription
We further demonstrated that PIMT and Med1 exert an additive and MAPK/ERK-dependent inductive effect on hepatic glucose output
Summary
PIMT/NCoA6IP (PRIP Interacting protein with Methyl Transferase domain) was first isolated as a transcriptional coactivator PRIP/NCoA6 interacting protein (NCoA6IP) in a yeast two hybrid screen [1]. Stimulation of CBP/Ep300 or SRC-1 dependent transcriptional activity by MAPK signaling elucidates that phosphorylation exerts a positive regulatory effect on certain coactivator functions [10,11,12,13,14,15]. Phosphorylation of Ep300 by protein kinase C (PKC) has been shown to attenuate its transcriptional activity suggesting that different signaling pathways differentially regulate the function of coactivators [16]. PEPCK promoter contains several cis-regulatory responsive elements like peroxisome proliferator responsive element(PPRE), glucocorticoid response element (GRE), thyroid hormone response element (TRE) and cAMP response element where different transcription factors bind to and modulate the gene expression [20]. Phosphorylation of PIMT by this mechanism led to its increased binding to the PEPCK promoter, increased PEPCK expression and induction of gluconeogenesis in liver confirming that PIMT is phosphorylated in intact liver cells and this pathway is functional in the liver at physiological levels of PIMT and PEPCK
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