LXRα Regulates ChREBPα Transactivity in a Target Gene-Specific Manner through an Agonist-Modulated LBD-LID Interaction

The cholesterol-sensing nuclear receptor liver X receptor (LXR) and the glucose-sensing transcription factor carbohydrate responsive element-binding protein (ChREBP) are central players in regulating glucose and lipid metabolism in the liver. More knowledge of their mechanistic interplay is needed t...

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Bibliographic Details
Published in:Cells (Basel, Switzerland) Switzerland), 2020-05, Vol.9 (5), p.1214
Main Authors: Fan, Qiong, Nørgaard, Rikke Christine, Grytten, Ivar, Ness, Cecilie Maria, Lucas, Christin, Vekterud, Kristin, Soedling, Helen, Matthews, Jason, Lemma, Roza Berhanu, Gabrielsen, Odd Stokke, Bindesbøll, Christian, Ulven, Stine Marie, Nebb, Hilde Irene, Grønning-Wang, Line Mariann, Sæther, Thomas
Format: Article
Language:English
Subjects:
Animals
Basic Helix-Loop-Helix Leucine Zipper Transcription Factors - agonists
Basic Helix-Loop-Helix Leucine Zipper Transcription Factors - chemistry
Basic Helix-Loop-Helix Leucine Zipper Transcription Factors - metabolism
Binding sites
Carbohydrates
Cell Line, Tumor
Chemoreception
Cholesterol
Chromatin
Chromatin - metabolism
Diet
Disease resistance
Experiments
Fatty acids
Fatty liver
Female
Genes
Genome
Genomes
Glucose
Glucose metabolism
Glycolysis
Homeostasis
Humans
Immunoprecipitation
Insulin
Kinases
Ligands
Lipid metabolism
Lipids
Lipogenesis
Liver
Liver - metabolism
Liver diseases
Liver X receptors
Liver X Receptors - agonists
Liver X Receptors - chemistry
Liver X Receptors - metabolism
Male
Metabolism
Metabolites
Mice, Inbred C57BL
Models, Biological
nuclear receptors
Polymerase chain reaction
Protein Binding
Protein Domains
Proteins
Recruitment
Response Elements - genetics
Rodents
trans-coactivation
Transcription factors
Transcriptional Activation - genetics
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Summary:The cholesterol-sensing nuclear receptor liver X receptor (LXR) and the glucose-sensing transcription factor carbohydrate responsive element-binding protein (ChREBP) are central players in regulating glucose and lipid metabolism in the liver. More knowledge of their mechanistic interplay is needed to understand their role in pathological conditions like fatty liver disease and insulin resistance. In the current study, LXR and ChREBP co-occupancy was examined by analyzing ChIP-seq datasets from mice livers. LXR and ChREBP interaction was determined by Co-immunoprecipitation (CoIP) and their transactivity was assessed by real-time quantitative polymerase chain reaction (qPCR) of target genes and gene reporter assays. Chromatin binding capacity was determined by ChIP-qPCR assays. Our data show that LXRα and ChREBPα interact physically and show a high co-occupancy at regulatory regions in the mouse genome. LXRα co-activates ChREBPα and regulates ChREBP-specific target genes in vitro and in vivo. This co-activation is dependent on functional recognition elements for ChREBP but not for LXR, indicating that ChREBPα recruits LXRα to chromatin in . The two factors interact via their key activation domains; the low glucose inhibitory domain (LID) of ChREBPα and the ligand-binding domain (LBD) of LXRα. While unliganded LXRα co-activates ChREBPα, ligand-bound LXRα surprisingly represses ChREBPα activity on ChREBP-specific target genes. Mechanistically, this is due to a destabilized LXRα:ChREBPα interaction, leading to reduced ChREBP-binding to chromatin and restricted activation of glycolytic and lipogenic target genes. This ligand-driven molecular switch highlights an unappreciated role of LXRα in responding to nutritional cues that was overlooked due to LXR lipogenesis-promoting function.
ISSN:2073-4409
2073-4409
DOI:10.3390/cells9051214