Self-polymerized polydopamine-based nanoparticles for acute kidney injury treatment through inhibiting oxidative damages and inflammatory

The polydopamine nanoparticles (PDA NPs) as a self-polymerized form of dopamine have occurred with growing interest in biomedical applications in late years. Its natural-inspired feature as a conjugated polymer endows excellent inactivating capability for radical species to PDA-based nanoparticles that provide a theoretical foundation for applications in preventing inflammation-mediated acute kidney injury (AKI) from ROS. Here, we develop a polydopamine wrapped manganese ferrite nanoparticles ([email protected] NPs) strategy for acute kidney injury therapy by synergistically scavenging ROS and producing O2, which further regulates macrophages amounts by decreasing M1-type and increasing M2-type. Water-soluble [email protected] NPs were prepared in one step after the oxidative and self-polymerized process of the dopamine monomer. Here, the biodegradable PDA NPs were applied to scavenge ROS. MF NPs undertake continuous O2 production in an H2O2-based hypoxic environment. Based on this system, we aim to relieve the hypoxia, pathological symptoms, and inflammation via scavenging ROS during the O2 production process, and effective polarization to M2-type macrophages. [email protected] NPs in this study were verified could significantly attenuate oxidative stress in vivo, reduce inflammatory events in renal, and improve renal function, which might be a potential treatment to inhibit oxidative damages and inflammatory events in renal AKI disease