Ayaka Ito scite author profile

The fatty acyl composition of phospholipids determines the biophysical character of membranes and impacts the function of membrane proteins. Here we define a nuclear receptor pathway for the dynamic modulation of membrane composition in response to changes in cellular lipid metabolism. Ligand activation of LXR preferentially drives the incorporation of polyunsaturated fatty acids into phospholipids through induction of the remodeling enzyme Lpcat3. Promotion of Lpcat3 activity ameliorates ER stress induced by saturated free fatty acids in vitro or by obesity and hepatic lipid accumulation in vivo. Conversely, Lpcat3 knockdown in liver exacerbates ER stress and inflammation. Mechanistically, Lpcat3 modulates inflammation both by regulating c-Src and JNK kinase activation through changes in membrane composition and by affecting substrate availability for inflammatory mediator production. These results outline an endogenous mechanism for the preservation of membrane homeostasis during lipid stress and identify Lpcat3 as an important mediator of LXRs effects on metabolism.

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LXRs link metabolism to inflammation through Abca1-dependent regulation of membrane composition and TLR signaling

Ito

et al. 2015

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The liver X receptors (LXRs) are transcriptional regulators of lipid homeostasis that also have potent anti-inflammatory effects. The molecular basis for their anti-inflammatory effects is incompletely understood, but has been proposed to involve the indirect tethering of LXRs to inflammatory gene promoters. Here we demonstrate that the ability of LXRs to repress inflammatory gene expression in cells and mice derives primarily from their ability to regulate lipid metabolism through transcriptional activation and can occur in the absence of SUMOylation. Moreover, we identify the putative lipid transporter Abca1 as a critical mediator of LXR's anti-inflammatory effects. Activation of LXR inhibits signaling from TLRs 2, 4 and 9 to their downstream NF-κB and MAPK effectors through Abca1-dependent changes in membrane lipid organization that disrupt the recruitment of MyD88 and TRAF6. These data suggest that a common mechanism-direct transcriptional activation-underlies the dual biological functions of LXRs in metabolism and inflammation.DOI: http://dx.doi.org/10.7554/eLife.08009.001

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Transcriptional regulation of macrophage cholesterol efflux and atherogenesis by a long noncoding RNA

Sallam

Jones

Thomas

et al. 2018

Nat Med

182

153

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Nuclear receptors regulate gene expression in response to environmental cues, but the molecular events governing the cell-type specificity of nuclear receptors remain poorly understood. Here we outline a role for a non-coding RNA in modulating the cell type-specific actions of LXRs, sterol-activated nuclear receptors that regulate the expression of genes involved in cholesterol homeostasis and that have been causally linked to the pathogenesis of atherosclerosis. We identify the lncRNA MeXis as an amplifier of LXR-dependent transcription of the critical cholesterol efflux gene Abca1. Mice lacking the MeXis gene show reduced Abca1 expression in a tissue-selective manner. Furthermore, loss of MeXis in mouse bone marrow cells alters chromosome architecture at the Abca1 locus, impairs cellular responses to cholesterol overload, and accelerates the development of atherosclerosis. Mechanistic studies reveal that MeXis interacts with and guides promoter binding of the transcriptional coactivator DDX17. The identification of MeXis as a lncRNA modulator of LXR-dependent gene expression expands our understanding of the mechanisms underlying cell-type selective actions of nuclear receptors in physiology and disease.

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Ayaka Ito

LXRs Regulate ER Stress and Inflammation through Dynamic Modulation of Membrane Phospholipid Composition

LXRs link metabolism to inflammation through Abca1-dependent regulation of membrane composition and TLR signaling

Transcriptional regulation of macrophage cholesterol efflux and atherogenesis by a long noncoding RNA

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