TY - JOUR T1 - eNOS-NO system contributes to a novel anti-atherogenic effect of Leonurine via inflammation inhibition and plaque stabilization JF - Journal of Pharmacology and Experimental Therapeutics JO - J Pharmacol Exp Ther DO - 10.1124/jpet.119.264887 SP - jpet.119.264887 AU - Ke Ning AU - Ming-Jie Wang AU - Ge Lin AU - Yi-Lin Zhang AU - Meng-Yao Li AU - Bao-Feng Yang AU - Ying Chen AU - Yong Huang AU - Zhi-Ming Li AU - Yi-Jun Huang AU - Lei Zhu AU - Kun Liang AU - Bo Yu AU - Yi-Zhun Zhu AU - Yi-Chun Zhu Y1 - 2020/01/01 UR - http://jpet.aspetjournals.org/content/early/2020/04/01/jpet.119.264887.abstract N2 - Leonurine (LEO) is a bioactive small molecular compound that has protective effects on the cardiovascular system. It prevents the early progression of atherosclerosis, however, it is not clear whether LEO is effective for plaque stability. A novel mouse atherosclerosis model involving tandem stenosis (TS) of the right carotid artery combined with western diet (WD) feeding was used. ApoE -/- mice were fed with a WD and received LEO administration daily for 13 weeks. TS was introduced 6 weeks after the onset of experiments. We found that LEO enhanced plaque stability by increasing fibrous cap thickness, and collagen content while decreasing the population of CD68 positive cells. Enhanced plaque stability by LEO was associated with the NOS-NO system. LEO restored the balance between eNOS and iNOS derived NO production; suppressed NF-κB signaling pathway; reduced the level of the inflammatory infiltration in plaque including cytokine IL-6 and downregulated the expression of adhesion moleculars molecules. These findings support the distinct role of LEO in plaque stabilization. In vitro studies with ox-LDL challenged HUVECs revealed that LEO balanced NO production and inhibited NF-κB/P65 nuclear translocation, thus mitigating inflammation. In conclusion, the restored balance of the NOS-NO syestem and mitigated inflammation contribute to the plaque stabilizing effect of LEO.SIGNIFICANCE STATEMENT LEO restored the balance between eNOS and iNOS in NO production, and inhibited excessive inflammation in atherosclerotic "unstable" and rupture-prone plaques in ApoE-/- mice. The protective effect of LEO for stabilizing atherosclerotic plaques was due to improved collagen content, increased fibrous cap thickness and decreased accumulation of macrophages/foam cells. So far, LEO has passed the safety and feasibility test of phase I clinical trial. ER -