Novel multifunctional bionanoparticles modified with sialic acid for stroke treatment

Abstract

Oxidative stress and inflammation are two key pathophysiological mechanisms that lead to neuronal apoptosis and brain damage following ischemia/reperfusion (I/R) injury. Because of their complex pathological mechanisms and the presence of the blood-brain barrier, the treatment of I/R is severely limited. Inspired by the fact that Macrophage membranes (MM) can cross the blood-brain barrier, we have developed a new multifunctional bionic particle (MSAOR@Cur). The modification of Sialic acid (SA) on the surface of Angelica polysaccharides (APS), the attachment of Resveratrol (Res) using the ROS-responsive bond oxalate bond as a linker arm, constitutes amphiphilic nanoparticles with an inner core encapsulated with curcumin (SAOR@Cur), and finally the use of MM camouflage to integrate the neuroprotection of APS, the free radical scavenging of Res, and the anti-inflammation of curcumin (Cur) in one strategy. Interestingly, the experimental results show that MSAOR@Cur can successfully deliver curcumin to the area of ischemia-reperfusion injury.