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Literature DB >> 23542537

The liver X receptor: a master regulator of the gut-liver axis and a target for non alcoholic fatty liver disease.

Simon Ducheix¹, Alexandra Montagner, Vassilia Theodorou, Laurent Ferrier, Hervé Guillou.

Abstract

Since it is associated to the obesity epidemic, non alcoholic fatty liver disease (NAFLD) has become a major public health issue. NAFLD ranges from benign hepatic steatosis, i.e. abnormally elevated triglyceride accumulation, to non alcoholic steatohepatitis (NASH) that can lead to irreversible liver damages. The search for pharmacological and dietary approaches to treat or prevent NAFLD has pointed at nuclear receptors as sensible targets. Indeed, nuclear receptors are ligand-sensitive transcription factors that play a central role in hepatic lipid metabolism. Among nuclear receptors, the liver X receptor has been identified as an oxysterol receptor. It is involved in the control of various aspects of lipid metabolism that are reviewed in this manuscript. We highlight the role of LXR in the gut-liver axis and the studies that have provided a rationale for strategies specifically targeting the hepatic activity of LXR in NAFLD.

Entities: Chemical Disease

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Year: 2013 PMID： 23542537 DOI： 10.1016/j.bcp.2013.03.016

Source DB: PubMed Journal: Biochem Pharmacol ISSN： 0006-2952 Impact factor: 5.858

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Cited

22 in total

1. Quantitative proteomic profiling reveals hepatic lipogenesis and liver X receptor activation in the PANDER transgenic model.

Authors: Mark G Athanason; Whitney A Ratliff; Dale Chaput; Catherine B MarElia; Melanie N Kuehl; Stanley M Stevens; Brant R Burkhardt
Journal: Mol Cell Endocrinol Date: 2016-07-07 Impact factor: 4.102

Review 2. Role of xenobiotics in the induction and progression of fatty liver disease.

Authors: James E Klaunig; Xilin Li; Zemin Wang
Journal: Toxicol Res (Camb) Date: 2018-05-18 Impact factor: 3.524

3. Nogo-B receptor deficiency increases liver X receptor alpha nuclear translocation and hepatic lipogenesis through an adenosine monophosphate-activated protein kinase alpha-dependent pathway.

Authors: Wenquan Hu; Wenwen Zhang; Yuanli Chen; Ujala Rana; Ru-Jeng Teng; Yajun Duan; Zhong Liu; Baofeng Zhao; Jamie Foeckler; Hartmut Weiler; Rachel E Kallinger; Michael J Thomas; Kezhong Zhang; Jihong Han; Qing Robert Miao
Journal: Hepatology Date: 2016-08-23 Impact factor: 17.425

4. Minor lipid metabolic perturbations in the liver of Atlantic salmon (Salmo salar L.) caused by suboptimal dietary content of nutrients from fish oil.

Authors: Monica Sanden; Nina S Liland; Øystein Sæle; Grethe Rosenlund; Shishi Du; Bente E Torstensen; Ingunn Stubhaug; Bente Ruyter; Nini H Sissener
Journal: Fish Physiol Biochem Date: 2016-05-06 Impact factor: 2.794

10. Moderate activation of IKK2-NF-kB in unstressed adult mouse liver induces cytoprotective genes and lipogenesis without apparent signs of inflammation or fibrosis.

Authors: Hong Lu; Xiaohong Lei; Qinghao Zhang
Journal: BMC Gastroenterol Date: 2015-07-30 Impact factor: 3.067

The liver X receptor: a master regulator of the gut-liver axis and a target for non alcoholic fatty liver disease.

1. Quantitative proteomic profiling reveals hepatic lipogenesis and liver X receptor activation in the PANDER transgenic model.

Review 2. Role of xenobiotics in the induction and progression of fatty liver disease.

3. Nogo-B receptor deficiency increases liver X receptor alpha nuclear translocation and hepatic lipogenesis through an adenosine monophosphate-activated protein kinase alpha-dependent pathway.

4. Minor lipid metabolic perturbations in the liver of Atlantic salmon (Salmo salar L.) caused by suboptimal dietary content of nutrients from fish oil.

Review 5. Nuclear receptors and nonalcoholic fatty liver disease.

Review 6. G0S2: A small giant controller of lipolysis and adipose-liver fatty acid flux.

Review 7. Potential approaches to ameliorate hepatic fat accumulation seen with MTP inhibition.

8. NHE1 deficiency in liver: implications for non-alcoholic fatty liver disease.

9. Liver X receptor α mediates hepatic triglyceride accumulation through upregulation of G0/G1 Switch Gene 2 expression.

10. Moderate activation of IKK2-NF-kB in unstressed adult mouse liver induces cytoprotective genes and lipogenesis without apparent signs of inflammation or fibrosis.