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Endothelial LRP1 regulates metabolic responses by acting as a co-activator of PPARγ
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AbstractLow-density lipoprotein receptor-related protein 1 (LRP1) regulates lipid and glucose metabolism in liver and adipose tissue. It is also involved in central nervous system regulation of food intake and leptin signalling. Here we demonstrate that endothelial Lrp1 regulates systemic energy homeostasis. Mice with endothelial-specific Lrp1 deletion display improved glucose sensitivity and lipid profiles combined with increased oxygen consumption during high-fat-diet-induced obesity. We show that the intracellular domain of Lrp1 interacts with the nuclear receptor Pparγ, a central regulator of lipid and glucose metabolism, acting as its transcriptional co-activator in endothelial cells. Therefore, Lrp1 not only acts as an endocytic receptor but also directly participates in gene transcription. Our findings indicate an underappreciated functional role of endothelium in maintaining systemic energy homeostasis.
Springer Science and Business Media LLC
Title: Endothelial LRP1 regulates metabolic responses by acting as a co-activator of PPARγ
Description:
AbstractLow-density lipoprotein receptor-related protein 1 (LRP1) regulates lipid and glucose metabolism in liver and adipose tissue.
It is also involved in central nervous system regulation of food intake and leptin signalling.
Here we demonstrate that endothelial Lrp1 regulates systemic energy homeostasis.
Mice with endothelial-specific Lrp1 deletion display improved glucose sensitivity and lipid profiles combined with increased oxygen consumption during high-fat-diet-induced obesity.
We show that the intracellular domain of Lrp1 interacts with the nuclear receptor Pparγ, a central regulator of lipid and glucose metabolism, acting as its transcriptional co-activator in endothelial cells.
Therefore, Lrp1 not only acts as an endocytic receptor but also directly participates in gene transcription.
Our findings indicate an underappreciated functional role of endothelium in maintaining systemic energy homeostasis.
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