LDL Signals Through Scarf1 to Drive a Pro-Fibrotic Secretory Response in Endothelial Cells
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BACKGROUND
Endothelial cells lining the vasculature form a polarised secretory organ that releases proteins apically into the circulation and basally into the subendothelial matrix. While this secretion plays many critical roles in homeostasis, the potential roles for endothelial secretion in vascular disease remain under-studied.
METHODS
We treated polarised monolayers of primary human endothelial cells with native and oxidised LDL and identified the proteins secreted from the apical and basal endothelial surfaces by tandem mass tag mass spectrometry.
RESULTS
Treatment with either native or oxidised LDL led to increased secretion of a cohort of 21 mostly pro-fibrotic proteins. We focussed on fibronectin, which was secreted apically or basally, depending on the direction of LDL treatment. LDL-stimulated fibronectin secretion did not require well-characterised endothelial LDL receptors but was instead mediated by the poorly characterised scavenger receptor Scarf1 and the cholesterol-sensitive SNARE proteins syntaxin 4 and 6. This LDL-stimulated secretion did not involve increased fibronectin expression but instead appeared to result from a decrease in fibronectin turnover and a re-routing of intracellular sorting.
CONCLUSIONS
This novel endothelial secretory pathway links circulating LDL to the release of pro-fibrotic proteins from the endothelium, supporting a role for endothelial cell secretion in the progression of lipid-induced fibrotic disease.
