Carrier free oral Co-delivery of atorvastatin via baicalein-copper-network for atherosclerosis therapy through senescence reversal and multi-mechanistic synergy.

Atherosclerosis (AS) progression is driven by multiple interconnected pathological mechanisms. Among them, vascular senescence is both a key accelerator and consequence, interacting with other processes to promote AS development. Traditional monotherapies were limited to achieve synergistic therapeutic effects due to low oral bioavailability and insufficient multi-target efficacy. To overcome these limitations, we developed a baicalein-copper network (Cu-MON) for oral delivery of atorvastatin (ATV), forming a synergistic therapeutic system (CMA). Cu-MON significantly prolonged the gastrointestinal residence and increased the oral bioavailability of ATV without requiring additional excipients. Crucially, Cu-MON regulated senescence-associated genes, enhanced DNA repair pathways, and mitigated DNA damage, effectively counteracting vascular aging. The integrated CMA system combined enzymatic and non-enzymatic dual antioxidant systems to scavenge multiple ROS species. Furthermore, CMA reprogrammed macrophages from pro-inflammatory M1 to anti-inflammatory M2 phenotypes, modulated the PPAR-γ/LXR-α/ABCA-1 pathway to enhance cholesterol efflux, inhibited foam cell formation, and regulated hepatic and systemic cholesterol homeostasis. In ApoE(-/-) mice, CMA markedly reduced aortic plaque burden and fibrosis, while Cu-MON attenuated key features of AS, including decreased ROS, inflammation, DNA damage, and cellular senescence. The CMA demonstrates high synergistic efficacy and biosafety, offering a novel multi-target oral drug strategy for AS treatment.