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  • MicroRNA-98 regulates foam cell formation and lipid accumulation through repression of LOX-1.

MicroRNA-98 regulates foam cell formation and lipid accumulation through repression of LOX-1.

Redox biology (2018-03-20)
Yao Dai, Xiaoqin Wu, Dongsheng Dai, Jun Li, Jawahar L Mehta
摘要

Several miR/s that regulate gene/s relevant in atherogenesis are being described. We identified a miR (miR-98) that targets LOX-1, a receptor for ox-LDL, and speculated that it might be relevant in atherogenesis. MicroRNA-98 was predicted by bioinformatics tools. The effects of miR-98 (by use of mimics and inhibitors) on LOX-1 expression and foam cell formation in mouse peritoneal macrophages were assessed. ApoE-/- mice fed by high fat diet were administered with mmu-agomiR-98 and mmu-antagomiR-98, and expression of LOX-1 and foam cell formation in aorta were quantified. LOX-1 was established to be a direct target of miR-98 by luciferase reporter assay. Enhancement of miR-98 decreased the expression of LOX-1 and inhibited foam cell formation and lipid accumulation. Inhibition of miR-98 had the opposite effects on all parameters. Reduced expression of miR-98 may relate to LOX-1 expression and foam cell formation and lipid accumulation in aortas of ApoE-/- mice. Plasma level of miR-98 may be a biomarker of atherosclerotic disease process and its modulation may offer a therapeutic strategy for atherosclerosis.

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MISSION® Synthetic microRNA Inhibitor, ath-miR416, Negative Control 1, Sequence from Arabidopsis thaliana with no homology to human and mouse gene sequences