A Combination of HNF-4 and Foxo1 Is Required for Reciprocal Transcriptional Regulation of Glucokinase and Glucose-6-phosphatase Genes in Response to Fasting and Feeding

Hirota, Kaoru; Sakamaki, Jun-Ichi; Ishida, Junji; Shimamoto, Yoko; Nishihara, Shigeki; Kodama, Norio; Ohta, Kazuhide; Yamamoto, Masayuki; Tanimoto, Koichi; Fukamizu, Akiyoshi

doi:10.1074/jbc.m806179200

Cited by 114 publications

(108 citation statements)

References 47 publications

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“…Glucose-6-phosphatase gene expression is repressed by TCF7L2 independently of FOXO1 Expression of G6PC is regulated by FOXO1 and HNF4α [30], and the β-catenin-FOXO1 complex stimulates G6PC only in the absence of insulin [24]. We observed that in HepG2 cells with reduced TCF7L2 expression, G6PC mRNA expression was increased independently of the presence or absence of insulin (Fig.…”

Section: Statistical Analysesmentioning

confidence: 52%

“…4a). To further characterise the effect of TCF7L2 on G6PC expression, we measured G6PC promoter activity by using luciferase reporter constructs previously used to analyse the synergistic activation of HNF4α and FOXO1 [30]. In HepG2 cells treated with TCF7L2 siRNA, both the wild-type G6PC promoter and the G6PC promoter construct lacking the FOXO1 binding region (G6PCΔ123) showed a Representative western blots of total cell lysate from HepG2 cells cultured as above (a-f) similar increase in luciferase activity (Fig.…”

Section: Statistical Analysesmentioning

confidence: 99%

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Alternative human liver transcripts of TCF7L2 bind to the gluconeogenesis regulator HNF4α at the protein level

et al. 2014

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Aims/hypothesis Gene polymorphisms of TCF7L2 are associated with increased risk of type 2 diabetes and transcription factor 7-like 2 (TCF7L2) plays a role in hepatic glucose metabolism. We therefore addressed the impact of TCF7L2 isoforms on hepatocyte nuclear factor 4α (HNF4α) and the regulation of gluconeogenesis genes.Methods Liver TCF7L2 transcripts were analysed by quantitative PCR in 33 non-diabetic and 31 type 2 diabetic obese individuals genotyped for TCF7L2 rs7903146. To analyse transcriptional regulation by TCF7L2, small interfering R N A t r a n s f e c t i o n , l u c if e r a s e r e p o r t e r a n d c oimmunoprecipitation assays were performed in human hepatoma HepG2 cells. Results In livers of diabetic compared with normoglycaemic individuals, five C-terminal TCF7L2 transcripts showed increased expression. The type 2 diabetes risk allele of rs7903146 positively correlated with TCF7L2 expression in livers from normoglycaemic individuals only. In HepG2 cells, transcript and TCF7L2 protein levels were increased upon incubation in high glucose and insulin. Of the exon 13 transcripts, six were increased in a glucose doseresponsive manner. TCF7L2 transcriptionally regulated 29 genes related to glucose metabolism, including glucose-6-phosphatase. In cultured HepG2 cells, TCF7L2 did not regulate HNF4Α and FOXO1 transcription, but did affect HNF4α protein expression. The TCF7L2 isoforms T6 and T8 (without exon 13 and with exon 15/14, respectively) specifically interacted with HNF4α. Conclusions/interpretation The different levels of expression of alternative C-terminal TCF7L2 transcripts in HepG2 cells, in livers of normoglycaemic individuals carrying the rs7901346 type 2 diabetes risk allele and in livers of diabetic individuals suggest that these transcripts play a role in the pathophysiology of type 2 diabetes. We also report for the first time a protein interaction in HepG2 cells between HNF4α and the T6 and T8 isoforms of TCF7L2, which suggests a distinct role for these specific alternative transcripts.

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Section: Statistical Analysesmentioning

confidence: 52%

Section: Statistical Analysesmentioning

confidence: 99%

Alternative human liver transcripts of TCF7L2 bind to the gluconeogenesis regulator HNF4α at the protein level

et al. 2014

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“…Glutathione S-Transferase (GST) Pulldown Assays-GST-ERR␥ (Dr. Uwe Borgmeyer), GST-LRH-1 (Dr. Timothy Osborne), GST-HNF4␣ (Dr. Akiyoshi Fukamizu), and GST-EID1 (Dr. Eckardt Treuter) were generously provided as indicated (23)(24)(25)(26). MagneGST TM Pull-Down System (catalog #V8872, Promega) was used in this experiment.…”

Section: Methodsmentioning

confidence: 99%

Novel Polymorphisms of Nuclear Receptor SHP Associated with Functional and Structural Changes

Zhou

Zhang

Macchiarulo

et al. 2010

Journal of Biological Chemistry

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We identified three heterozygous nonsynonymous single nucleotide polymorphisms in the small heterodimer partner (SHP, NROB2) gene in normal subjects and CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy)-like patients, including two novel missense mutations (p.R38H, p.K170N) and one of the previously reported polymorphism (p.G171A). Four novel heterozygous mutations were also identified in the intron ( Intron 1265T3 A), 3-untranslated region ( 3-UTR 101C3 G, 3-UTR 186T3 C), and promoter ( Pro -423C3 T) of the SHP gene. The exonic R38H and K170N mutants exhibited impaired nuclear translocation. K170N made SHP more susceptible to ubiquitination mediated degradation and blocked SHP acetylation, which displayed lost repressive activity on its interacting partners ERR␥ and HNF4␣ but not LRH-1. In contrast, G171A increased SHP mRNA and protein expression and maintained normal function. In general, the interaction of SHP mutants with LRH-1 and EID1 was enhanced. K170N also markedly impaired the recruitment of SHP, HNF4␣, HDAC1, and HDAC3 to the apoCIII promoter. Molecular dynamics simulations of SHP showed that G171A stabilized the nuclear receptor boxes, whereas K170N promoted the conformational destabilization of all the structural elements of the receptor. This study suggests that genetic variations in SHP are common among human subjects and the Lys-170 residue plays a key role in controlling SHP ubiquitination and acetylation associated with SHP protein stability and repressive function.

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“…This effect may be regulated by FoxO1 35) and Nrf2 36) transcription factors. Interestingly, HNF-4α can interact with FoxO1 and modulate its transcriptional activity 37) . Moreover, levels of Nrf2 may be regulated by HNF-4α 38) .…”

Section: Potential Role Of Hnf-4α In the Suppression Of Tumor Developmentioning

confidence: 99%

“…This is probably because, in the absence of DNA damage, HNF-4α is activated by PGC-1α; whereas, under DNA damage conditions, HNF-4α would switch its interaction partner for FoxO1, p53, or Rad50 to activate the DNA damage response. Indeed, HNF-4α interaction with FoxO1 has been shown to decrease transcriptional activity for certain target genes 37) .…”

Section: Potential Role Of Hnf-4α In the Suppression Of Tumor Developmentioning

confidence: 99%

Mechanisms of lifespan extension and preventive effects of calorie restriction on tumor development: Possible link between central neuroendocrine system and peripheral metabolic adaptation

Chiba

Dong

Nishizono

et al. 2013

JPFSM

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Restriction of food intake (calorie restriction [CR]) in laboratory animals extends their lifespan and delays the onset of various age-associated diseases, including cancer development. Recent studies revealed that the molecular mechanisms underlying CR-mediated antiaging effects may be regulated by a confined number of signal transduction pathways that are triggered by neuropeptide Y (NPY) neurons in the neuroendocrine system. On the other hand, possible peripheral regulators of the beneficial effects of CR involve a transcriptional regulator complex, the hepatocyte nuclear factor 4α/peroxisome proliferator-activated receptor gamma coactivator 1-α (HNF-4α/PGC-1α) complex. This complex could regulate not only glucose and lipid metabolism, but also DNA damage responses in the liver. Therefore, maintenance of optimal glucose and lipid levels to prevent metabolic syndrome, and activation of the DNA damage response for suppression of tumor development, may depend on the HNF-4α/PGC-1α complex. Hence, small molecules modulating the activity of this complex could be an important target for development of CR mimetics (CRM), which mimic the beneficial effects of CR without actual food restriction.

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A Combination of HNF-4 and Foxo1 Is Required for Reciprocal Transcriptional Regulation of Glucokinase and Glucose-6-phosphatase Genes in Response to Fasting and Feeding

Cited by 114 publications

References 47 publications

Alternative human liver transcripts of TCF7L2 bind to the gluconeogenesis regulator HNF4α at the protein level

Alternative human liver transcripts of TCF7L2 bind to the gluconeogenesis regulator HNF4α at the protein level

Novel Polymorphisms of Nuclear Receptor SHP Associated with Functional and Structural Changes

Mechanisms of lifespan extension and preventive effects of calorie restriction on tumor development: Possible link between central neuroendocrine system and peripheral metabolic adaptation

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