Pia Kotokorpi scite author profile

Circulating ghrelin elevates abdominal adiposity by a mechanism independent of its central orexigenic activity. In this study we tested the hypothesis that peripheral ghrelin induces a depot-specific increase in white adipose tissue (WAT) mass in vivo by GH secretagogue receptor (GHS-R(1a))-mediated lipolysis. Chronic iv infusion of acylated ghrelin increased retroperitoneal and inguinal WAT volume in rats without elevating superficial sc fat, food intake, or circulating lipids and glucose. Increased retroperitoneal WAT mass resulted from adipocyte enlargement probably due to reduced lipid export (ATP-binding cassette transporter G1 mRNA expression and circulating free fatty acids were halved by ghrelin infusion). In contrast, ghrelin treatment did not up-regulate biomarkers of adipogenesis (peroxisome proliferator-activated receptor-gamma2 or CCAAT/enhancer binding protein-alpha) or substrate uptake (glucose transporter 4, lipoprotein lipase, or CD36) and although ghrelin elevated sterol-regulatory element-binding protein 1c expression, WAT-specific mediators of lipogenesis (liver X receptor-alpha and fatty acid synthase) were unchanged. Adiposity was unaffected by infusion of unacylated ghrelin, and the effects of acylated ghrelin were abolished by transcriptional blockade of GHS-R(1a), but GHS-R(1a) mRNA expression was similar in responsive and unresponsive WAT. Microarray analysis suggested that depot-specific sensitivity to ghrelin may arise from differential fine tuning of signal transduction and/or lipid-handling mechanisms. Acylated ghrelin also induced hepatic steatosis, increasing lipid droplet number and triacylglycerol content by a GHS-R(1a)-dependent mechanism. Our data imply that, during periods of energy insufficiency, exposure to acylated ghrelin may limit energy utilization in specific WAT depots by GHS-R(1a)-dependent lipid retention.

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Ghrelin Induces Abdominal Obesity via GHS-R-Dependent Lipid Retention

Davies¹,

Kotokorpi²,

Eccles³

et al. 2009

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Physiological Differences between Human and Rat Primary Hepatocytes in Response to Liver X Receptor Activation by 3-[3-[N-(2-Chloro-3-trifluoromethylbenzyl)-(2,2-diphenylethyl)amino]propyloxy]phenylacetic Acid Hydrochloride (GW3965)

Kotokorpi

Ellis²,

Parini³

et al. 2007

Mol Pharmacol

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The liver is central to the maintenance of glucose and lipid homeostasis, and liver X receptors (LXRs) are key regulators of expression of the genes involved. So far, effects of activation of LXR in human hepatocytes have not been well characterized. Here we show that treatment of primary human hepatocytes with the synthetic LXR ligand 3-[3-[N-(2-chloro-3-trifluoromethylbenzyl)-(2,2-diphenylethyl)amino]propyloxy]phenylacetic acid hydrochloride (GW3965) results in reduced output of bile acids and very low density lipoprotein triglycerides and induced expression of adipose differentiation-related protein accompanied by increased lipid storage. Genome wide-expression profiling identified novel human LXR target genes in the glycolytic and lipogenic pathways and indicated that LXR activation reduced hepatic insulin sensitivity. Comparative experiments showed significant differences in the response to GW3965 between human and rat hepatocytes, raising the question as to how well rodent models reflect the human situation. In summary, the risk of hepatic steatosis upon pharmaceutical targeting of LXR may be a particularly serious consequence in humans.When adaptive physiological strategies to cope with surplus energy become exceeded, associated pathogeneses such as glucose intolerance, insulin resistance, and dyslipidemia develop. Members of the nuclear receptor family have emerged as key metabolic sensors regulating the expression of genes involved in intermediary metabolism (Francis et al., 2003;Shulman and Mangelsdorf, 2005) and LXR␣ and LXR␤, acting as cholesterol sensors, are considered to be potential drug targets for the alleviation of symptoms of metabolic diseases (Zelcer and Tontonoz, 2006).In rodents but not in humans, LXR activation enhances hepatic cholesterol catabolism partly through increased expression of cytochrome P450 7A1, the rate-limiting enzyme in the classic conversion of cholesterol to bile acids (Chiang et al., 2001). Moreover, it has been shown that LXR agonists

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Transfection of adult primary rat hepatocytes in culture

Gardmo

Kotokorpi

Helander

et al. 2005

Biochemical Pharmacology

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Ghrelin Induces Abdominal Obesity via GHS-R-Dependent Lipid Retention

Davies¹,

Kotokorpi²,

Eccles³

et al. 2009

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Activation of the Glucocorticoid Receptor or Liver X Receptors Interferes with Growth Hormone-Induced akr1b7 Gene Expression in Rat Hepatocytes

Kotokorpi

Gardmo

Nyström

et al. 2004

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The akr1b7 gene encodes an aldo-keto reductase involved in detoxification of isocaproaldehyde, the product from side chain cleavage of cholesterol, and of 4-hydroxynonenal (4-HNE) formed by lipid peroxidation and cleavage. Here we show that the expression of akr1b7 mRNA in rat liver is sexually differentiated, expressed in females but not in males, and regulated by the sexually dimorphic secretion pattern of GH. A GH dose-dependent induction of akr1b7 was demonstrated in cultured primary rat hepatocytes, which was sensitive to cycloheximide. Activation of the glucocorticoid receptor (GR) or liver X receptors (LXR) by dexamethasone (Dex) and T1317, respectively, attenuated the GH-induced expression of akr1b7 and CYP2C12, the prototypical rat hepatic gene dependent on the female-characteristic secretion pattern of GH. In contrast, neither Dex nor T1317 had any repressive effect on the GH induction of IGF-I mRNA. A common mechanism for LXR- and GR-mediated repressive actions on gene transcription is inhibition of nuclear factor (NF)-kappaB; however, EMSAs and pharmacological interference with NF-kappaB signaling provided no evidence for the involvement of NF-kappaB in the repressive action of Dex and T1317 on GH-induced akr1b7 expression.

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The HumanADFPGene Is a Direct Liver-X-Receptor (LXR) Target Gene and Differentially Regulated by Synthetic LXR Ligands

et al. 2009

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Expression of adipocyte differentiation-related protein (ADFP), residing on the surface of lipid droplets, correlates to hepatic fat storage. In the context of consequences and treatment of metabolic disorders, including hepatic steatosis, it is imperative to gain knowledge about the regulation of the human ADFP gene. The nuclear receptor liver-X-receptor (LXR) is a key regulator of hepatic fatty acid biosynthesis and cholesterol homeostasis as well as a potential drug target. Here, we report that two synthetic LXR ligands differently regulate human ADFP expression. The partialpropoxy]benzeneacetic acid hydrochloride (GW3965) significantly induces ADFP expression in human primary hepatocytes, whereas the full agonist N- (2,2,2-trifluoroethyl)-N-[4-[2,2,2-trifluoro-1-hydroxy-1(trifluoromethyl)ethyl]phenyl] benzenesulfonamide (T0901317) does not. Bioinformatics analysis revealed several potential LXR response elements (LXREs) in the human ADFP gene. By using chromatin immunoprecipitation and luciferase reporter assays, we show that LXR, upon stimulation with GW3965, directly regulates human ADFP transcription by binding to LXREs located in the 3Ј-untranslated and the 5Ј-flanking regions. The ligand-stimulated LXR recruitment was associated with recruitment of RNA polymerase II and the coactivators cAMP response element-binding protein-binding protein/ p300 to the promoter region demonstrating that the identified LXREs are functional and able to induce transcription. Moreover, our results show that sequence identity of the hexamer repeats in DR4 elements is not sufficient to determine whether the element binds LXR or not. The partial agonist GW3965 specifically regulates ADFP gene transcription, and our data prove that the two synthetic LXR agonists, commonly used in experimental research, can differentially regulate gene expression. This has implications for pharmaceutical targeting of LXR.

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Effects of the synthetic liver X receptor agonist T0901317 on the growth hormone and thyroid hormone axes in male rats

Davies

Kotokorpi

Lindahl

et al. 2008

Endocr

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Liver X receptors (LXRs), activated by oxysterols, play an important role in the regulation of lipid and glucose metabolism, which is also markedly dependent on thyroid hormone and growth hormone (GH) status. Here, we investigated how a 1-week exposure to the synthetic LXR agonist T0901317 affected GH secretion and thyroid hormone status in male rats. While the pulse frequency of GH secretion was marginally affected there was a highly significant decrease in the triiodo-L-thyronine/thyroxine (T3/T4) ratio in plasma. This effect was associated with decreased expression of deiodinase 1 (DIO1) and 2 (DIO2) mRNA in the liver and thyroid gland, respectively. Expression of sterol regulatory element binding protein-1c (SREBP-1c), the hallmark of stimulated lipogenesis, was markedly increased in both thyroid and pituitary implying that protracted pharmacological LXR activation may promote lipid accumulation in these endocrine tissues. These findings suggest that attention must be given to pituitary hormone dependent axes when developing therapeutic strategies based on agonism of the LXRs, e.g. for treatment of atherosclerosis.

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Pia Kotokorpi

Ghrelin Induces Abdominal Obesity Via GHS-R-Dependent Lipid Retention

Ghrelin Induces Abdominal Obesity via GHS-R-Dependent Lipid Retention

Physiological Differences between Human and Rat Primary Hepatocytes in Response to Liver X Receptor Activation by 3-[3-[N-(2-Chloro-3-trifluoromethylbenzyl)-(2,2-diphenylethyl)amino]propyloxy]phenylacetic Acid Hydrochloride (GW3965)

Transfection of adult primary rat hepatocytes in culture

Ghrelin Induces Abdominal Obesity via GHS-R-Dependent Lipid Retention

Activation of the Glucocorticoid Receptor or Liver X Receptors Interferes with Growth Hormone-Induced akr1b7 Gene Expression in Rat Hepatocytes

The HumanADFPGene Is a Direct Liver-X-Receptor (LXR) Target Gene and Differentially Regulated by Synthetic LXR Ligands

Effects of the synthetic liver X receptor agonist T0901317 on the growth hormone and thyroid hormone axes in male rats

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