Construction of biomimetic camouflaged neutrophil membrane nanoparticles for precise delivery and augmented glioma cancer treatment

Developing novel nanomedicine formulations that successfully penetrate the blood-brain barrier (BBB) to treat and diagnose glioma effectively is still a significant obstacle. This study presents the development of polymer nanogels camouflaged with macrophage membranes. The nanogels are loaded with manganese dioxide (MnO₂) and carboplatin. They are designed for the treatment of glioma using a combination of chemotherapy and chemodynamic therapy (CDT). The precipitation polymerization process was used to create redox-responsive poly(caprolactone) (PCL) nanogels (NGs). These NGs were then loaded with MnO₂ and physically encapsulated with carboplatin. The resulting nanogels had an average diameter of 102.52 nm and were covered with macrophage membranes to provide excellent stability. The developed NGs exhibit redox and pH responsiveness, releasing carboplatin and Mn(II) in a controlled manner. NGs may effectively deplete glutathione (GSH) in the tumour milieu. The Mn(II) generated in this process enhances the effectiveness of the loaded carboplatin by exerting its chemotherapeutic action and promoting the formation of reactive oxygen species to improve the efficiency of CDT. The results of our study show a very efficient and promising nanomedicine platform for the treatment and diagnosis of glioma, a type of cancer. This platform is self-adaptive, cooperative, and based on NG technology. Furthermore, this platform can potentially be used for other challenging types of cancer.