Alpha 2.0
Login Register
» Articles » PMID: 17522048

A Key Role for Orphan Nuclear Receptor Liver Receptor Homologue-1 in Activation of Fatty Acid Synthase Promoter by Liver X Receptor

Overview
Journal J Biol Chem
Specialty Biochemistry
Date 2007 May 25
PMID 17522048
Citations 29
Authors
Karen E Matsukuma
Li Wang
Mary K Bennett
Timothy F Osborne
Affiliations
Soon will be listed here.
Abstract

Liver X receptor (LXR) activates fatty acid synthase (FAS) gene expression through binding to a DR-4 element in the promoter. We show that a distinct nuclear receptor half-site 21 bases downstream of the DR-4 element is also critical for the response of FAS to LXR but is not involved in LXR binding to DNA. This half-site specifically binds liver receptor homologue-1 (LRH-1) in vitro and in vivo, and we show LRH-1 is required for maximal LXR responsiveness of the endogenous FAS gene as well as from promoter reporter constructs. We also demonstrate that LRH-1 stimulation of the FAS LXR response is blocked by the addition of small heterodimer partner (SHP) and that FAS mRNA is overexpressed in SHP knock-out animals, providing evidence that FAS is an in vivo target of SHP repression. Taken together, these findings identify the first direct lipogenic gene target of LRH-1/SHP repression and provide a mechanistic explanation for bile acid repression of FAS and lipogenesis recently reported by others.

Citing Articles

Role of Protein Regulators of Cholesterol Homeostasis in Immune Modulation and Cancer Pathophysiology.

Wang Y, Bendre S, Krauklis S, Steelman A, Nelson E Endocrinology. 2025; 166(4).

PMID: 39951497 PMC: 11878532. DOI: 10.1210/endocr/bqaf031.

The global and promoter-centric 3D genome organization temporally resolved during a circadian cycle.

Furlan-Magaril M, Ando-Kuri M, Arzate-Mejia R, Morf J, Cairns J, Roman-Figueroa A Genome Biol. 2021; 22(1):162.

PMID: 34099014 PMC: 8185950. DOI: 10.1186/s13059-021-02374-3.

Pharmacological LRH-1/Nr5a2 inhibition limits pro-inflammatory cytokine production in macrophages and associated experimental hepatitis.

Schwaderer J, Phan T, Glockner A, Delp J, Leist M, Brunner T Cell Death Dis. 2020; 11(2):154.

PMID: 32111818 PMC: 7048823. DOI: 10.1038/s41419-020-2348-9.

Predicting the Probability that a Chemical Causes Steatosis Using Adverse Outcome Pathway Bayesian Networks (AOPBNs).

Burgoon L, Angrish M, Garcia-Reyero N, Pollesch N, Zupanic A, Perkins E Risk Anal. 2019; 40(3):512-523.

PMID: 31721239 PMC: 7397752. DOI: 10.1111/risa.13423.

Regulation of liver receptor homologue-1 by DDB2 E3 ligase activity is critical for hepatic glucose metabolism.

Lai T, Hu M Sci Rep. 2019; 9(1):5304.

PMID: 30923324 PMC: 6438966. DOI: 10.1038/s41598-019-41411-x.