Intrabacterial Nitroreductase‐Activated Imaging and Persistently Illuminated Photodynamic Therapy for Intracellular Infection Theranostics.

Intracellular bacterial (ICB) infection is one of the most life‐threatening cases of drug resistance, and photodynamic therapy (PDT) is challenged by limited light penetration into tissues and unspecific toxicity to host cells. Herein, theranostic nanoparticles (NPs) are developed to facilitate on‐demand activation of photosensitizers inside ICBs and persistent PDT of deep‐tissue ICB infections. Mechanoluminescent SrAl2O4:Eu2+ and persistence luminescent CaS:Eu2+ are sequentially deposited on mesoporous silica to prepare mSC, followed by encapsulation by bacterial membranes with loaded nitroreductase (NTR)‐activatable methylene blue (nMB) to obtain mSC‐nMB@BM NPs. The fluorescence quenching of nMB with mSC offers few cytotoxicities even under ultrasonication, and bacterial membrane coatings mediate the specific NP internalization into ICB‐infected macrophages. Bacterial pore‐forming toxins trigger nMB release from NPs, and intrabacterial NTR rejuvenates methylene blue probes from nMB for real‐time imaging of ICB infections. Ultrasonication of NPs continuously excites the rejuvenated methylene blue to generate reactive oxidative species and reduce viable ICBs by 3.54 log magnitude folds. NP treatment on ICB‐infected mice exhibits full survival and restores viscera functions without any pathological abnormality. Therefore, this concise NP design demonstrates capabilities of bacterial membrane‐mediated specific internalization, bacterial toxin‐triggered release and intrabacterial NTR‐rejuvenation of fluorescent probes, and persistent internal light‐illumination for ICB theranostics. [ABSTRACT FROM AUTHOR]