Abstract
MTORC2-AKT is a key regulator of carbohydrate metabolism and insulin signaling due to its effects on FOXO1 phosphorylation. Interestingly, both FOXO1 and thyroid hormone (TH) have similar effects on carbohydrate and energy metabolism as well as overlapping transcriptional regulation of many target genes. Currently, little is known about the regulation of MTORC2-AKT or FOXO1 by TH. Accordingly, we performed hepatic transcriptome profiling in mice after FOXO1 knockdown in the absence or presence of TH, and we compared these results with hepatic FOXO1 and THRB1 (TRβ1) ChIP-Seq data. We identified a subset of TH-stimulated FOXO1 target genes that required co-regulation by FOXO1 and TH. TH activation of FOXO1 was directly linked to an increase in SIRT1-MTORC2 interaction and RICTOR deacetylation. This, in turn, led to decreased AKT and FOXO1 phosphorylation. Moreover, TH increased FOXO1 nuclear localization, DNA binding, and target gene transcription by reducing AKT-dependent FOXO1 phosphorylation in a THRB1-dependent manner. These events were associated with TH-mediated oxidative phosphorylation and NAD(+) production and suggested that downstream metabolic effects by TH can post-translationally activate other transcription factors. Our results showed that RICTOR/MTORC2-AKT can integrate convergent hormonal and metabolic signals to provide coordinated and sensitive regulation of hepatic FOXO1-target gene expression.
Highlights
Thyroid hormone (TH) and FOXO1 share similar transcriptional networks
We determined the identities and number of FOXO1 target genes containing FOXO1 binding in their promoters that were regulated by T3
FOXO1 is a metabolically regulated transcription factor that belongs to the mammalian forkhead box O (FOXO) family that is conserved throughout evolution
Summary
Thyroid hormone (TH) and FOXO1 share similar transcriptional networks. TH regulation of FOXO1 activity is not well understood. MTORC2-AKT is a key regulator of carbohydrate metabolism and insulin signaling due to its effects on FOXO1 phosphorylation Both FOXO1 and thyroid hormone (TH) have similar effects on carbohydrate and energy metabolism as well as overlapping transcriptional regulation of many target genes. TH increased FOXO1 nuclear localization, DNA binding, and target gene transcription by reducing AKT-dependent FOXO1 phosphorylation in a THRB1-dependent manner. These events were associated with TH-mediated oxidative phosphorylation and NAD؉ production and suggested that downstream metabolic effects by TH can post-translationally activate other transcrip-. We show that TH regulates transcription of a subset of hepatic FOXO1 target genes by SIRT1-MTORC2-AKT signaling to activate the FOXO1 transcription factor. Our findings demonstrate a novel transcriptional pathway mediated by TH to integrate cell metabolic status with the regulation of FOXO1 transcription factor activity
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