Abstract

Targeted drug delivery is an emerging technological strategy that enables nanoparticle systems to be responsive for tumor therapy. Magnetic mesoporous silica nanoparticles (MMSNs) were cloaked with red blood cell membrane (RBC). This integrates long circulation, photosensitizer delivery, and magnetic targeting for cancer therapy. In vivo experiments demonstrate that RBC@MMSNs can avoid immune clearance and achieve magnetic field (MF)-induced high accumulation in a tumor. When light irradiation is applied, singlet oxygen rapidly generates from hypocrellin B (HB)-loaded RBC@MMSN and leads to the necrosis of tumor tissue. Such a RBC-cloaked magnetic nanocarrier effectively integrates immunological adjuvant, photosensitizer delivery, MF-assisted targeting photodynamic therapy, which provides an innovative strategy for cancer therapy.