Different Roles of Liver X Receptor Alpha and Beta in Lipid Metabolism: Effects of an Alpha-selective and a Dual Agonist in Mice Deficient in Each Subtype

Overview

Journal Biochem Pharmacol

Specialties Biochemistry
Pharmacology

Date 2005 Dec 6

PMID 16325781

Citations 50

Authors

Erik G Lund

Laurence B Peterson

Alan D Adams

My-Hanh N Lam

Charlotte A Burton

Jayne Chin

Qiu Guo

Shaei Huang

Melanie Latham

Jacqueline C Lopez

John G Menke

Denise P Milot

Lyndon J Mitnaul

Sandra E Rex-Rabe

Raymond L Rosa

Jenny Y Tian

Samuel D Wright

Carl P Sparrow

Affiliations

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Abstract

Liver X receptor (LXR) alpha and LXRbeta are closely related nuclear receptors that respond to elevated levels of intracellular cholesterol by enhancing transcription of genes that control cholesterol efflux and fatty acid biosynthesis. The consequences of inactivation of either LXR isoform have been thoroughly studied, as have the effects of simultaneous activation of both LXRalpha and LXRbeta by synthetic compounds. We here describe the effects of selective activation of LXRalpha or LXRbeta on lipid metabolism. This was accomplished by treating mice genetically deficient in either LXRalpha or LXRbeta with an agonist with equal potency for both isoforms (Compound B) or a synthetic agonist selective for LXRalpha (Compound A). We also determined the effect of these agonists on gene expression and cholesterol efflux in peritoneal macrophages derived from wild-type and knockout mice. Both compounds raised HDL-cholesterol and increased liver triglycerides in wild-type mice; in contrast, in mice deficient in LXRalpha, Compound B increased HDL-cholesterol but did not cause hepatic steatosis. Compound B induced ATP-binding cassette transporter (ABC) A1 expression and stimulated cholesterol efflux in macrophages from both LXRalpha and LXRbeta-deficient mice. Our data lend further experimental support to the hypothesis that LXRbeta-selective agonists may raise HDL-cholesterol and stimulate macrophage cholesterol efflux without causing liver triglyceride accumulation.

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