A ROS-responsive multifunctional targeted prodrug micelle for atherosclerosis treatment.

Atherosclerosis is a chronic multifactorial cardiovascular disease. To combat atherosclerosis effectively, it is necessary to develop precision and targeted therapy in the early stages of plaque formation. In this study, a simvastatin (SV)-containing prodrug micelle SPCPV was developed by incorporating a peroxalate ester bond (PO). SPCPV could specifically target VCAM-1 overexpressed at atherosclerotic lesions. SPCPV contains a carrier (CP) composed of cyclodextrin (CD) and polyethylene glycol (PEG). At the lesions, CP and SV exerted multifaceted anti-atherosclerotic effects. In vitro studies demonstrated that intracellular reactive oxygen species (ROS) could induce the release of SV from SPCPV. The uptake of SPCPV was higher in inflammatory cells than in normal cells. Furthermore, in vitro experiments showed that SPCPV effectively reduced ROS levels, possessed anti-inflammatory properties, inhibited foam cell formation, and promoted cholesterol efflux. In vivo studies using atherosclerotic rats showed that SPCPV reduced the thickness of the vascular wall and low-density lipoprotein (LDL). This study developed a drug delivery strategy that could target atherosclerotic plaques and treat atherosclerosis by integrating the carrier with SV. The findings demonstrated that SPCPV possessed high stability and safety and had great therapeutic potential for treating early-stage atherosclerosis.