Skeletal muscle as a target of LXR agonist after long-term treatment: focus on lipid homeostasis

Author:

Archer Amena1,Laurencikiene Jurga2,Ahmed Osman13,Steffensen Knut R.1,Parini Paolo13,Gustafsson Jan-Åke14,Korach-André Marion1

Affiliation:

1. Department of Biosciences and Nutrition and Center for Biosciences at NOVUM, Karolinska Institute, Huddinge, Sweden;

2. Department of Medicine, Karolinska Institute, Lipid Laboratory, Huddinge, Sweden;

3. Division of Clinical Chemistry, Department of Laboratory Medicine, Karolinska Institute at Karolinska University Hospital, Huddinge, Sweden; and

4. Department of Biology and Biochemistry, Center for Nuclear Receptors and Cell Signaling, Houston, Texas

Abstract

The liver X receptors (LXR)α and LXRβ are transcription factors belonging to the nuclear receptor family, which play a central role in metabolic homeostasis, being master regulators of key target genes in the glucose and lipid pathways. Wild-type (WT), LXRα−/−, and LXRβ−/− mice were fed a chow diet with (treated) or without (control) the synthetic dual LXR agonist GW3965 for 5 wk. GW3965 raised intrahepatic triglyceride (TG) level but, surprisingly, reduced serum TG level through the activation of serum lipase activity. The serum TG reduction was associated with a repression of both catecholamine-stimulated lipolysis and relative glucose incorporation into lipid in isolated adipocytes through activation of LXRβ. We also demonstrated that LXRα is required for basal (nonstimulated) adipocyte metabolism, whereas LXRβ acts as a repressor of lipolysis. On the contrary, in skeletal muscle (SM), the lipogenic and cholesterol transporter LXR target genes were markedly induced in WT and LXRα−/− mice and to a lesser extent in LXRβ−/− mice following treatment with GW3965. Moreover, TG content was reduced in SM of LXRβ−/− mice, associated with increased expression of the main TG-lipase genes Hsl and Atgl. Energy expenditure was increased, and a switch from glucose to lipid oxidation was observed. In conclusion, we provide evidence that LXR might be an essential regulator of the lipid balance between tissues to ensure appropriate control of the flux of fuel. Importantly, we show that, after chronic treatment with GW3965, SM becomes the target tissue for LXR activation, as opposed to liver, in acute treatment.

Publisher

American Physiological Society

Subject

Physiology (medical),Physiology,Endocrinology, Diabetes and Metabolism

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