Purpose: Oxidative stress is one of the main pathogenic factors of atherosclerosis. However, no antioxidants have brought positive effects on the treatment of atherosclerosis. To selectively treat atherosclerosis, various means such as antioxidation, anti-apoptosis, and M2 polarization are used. The ultimate goal is that multiple regulatory pathways can help to treat atherosclerosis.
Patients and Methods: In this study, Simvastatin (SIM) as a model drug, EGCG as an antioxidant agent, and distearyl phosphatidylcholine (DSPC) as major carriers were used to make liposome nanoparticles (SE-LNPs). The cytotoxicity, phagocytosis, antioxidant, and anti-apoptotic properties of nanoparticles were tested in vitro. ApoE−/− atherosclerotic mice were treated with nanoparticles. The changes of aortic Oil red staining, blood lipid, HE, and Masson sections of the aortic root were observed.
Results: SE-LNPs exhibited a sustained release profile, potentially enabling the accumulation of the majority amount of drugs at the atherosclerotic plaque. The phagocytosis effect was stronger in RAW. The anti-oxidative and anti-apoptotic effects of the formulation were verified in vitro. SE-LNPs promoted the polarization of M2 macrophages. The therapeutic effect of SE-LNPs was assessed in the ApoE−/− mice model of atherosclerosis. SE-LNPs reduced reactive oxygen species and lipids in vivo. The results of Oil red staining, blood lipid, HE, and Masson sections of the aortic root showed the recovery of the focus.
Conclusion: Studies have shown that SE-LNPs could resist oxidation, and apoptosis, promote M2 polarization, and reduce blood lipids and lesions, which is a reliable and selective treatment for atherosclerosis.
Keywords: scavenging ROS, reduce apoptosis, macrophage polarization, inhibit inflammation