Metastasis is the primary cause of cancer morbidity and mortality. To obtain an effective diagnosis and treatment, precise imaging of tumor metastasis is required. Here we prepared persistent luminescent nanoparticles (PLNPs) containing a hydrogel (PL-gel) for targeted, sustained, and autofluorescence-free tumor metastasis imaging. PLNPs offered renewable long-lasting near-infrared (NIR) emitting without in situ radiation, favoring deep tissue penetration imaging without background interference. PLNPs were conjugated with 4-carboxyphenyl boronic acid (CPBA) to yield PLNPs-CPBA, which specifically recognized metastatic breast cancer cells (MBA-MD-231 cells) and enabled receptor-mediated endocytosis for specific cancer cell labeling. The PLNPs-CPBA-labeled cancer cells enabled sensitive imaging performance and high viability without influencing the migration and invasiveness of cancer cells for long-term tracking. PLNPs-CPBA were further encapsulated inside alginate to generate PL-gel for sustained PLNPs-CPBA release and tumor cell labeling, and the PL-gel showed enhanced renewable persistent luminescence compared to the PLNPs-CPBA suspension. The metastasis in the mouse breast cancer model was continuously tracked by persistent luminescence imaging, showing that PL-gel achieved noninvasive and highly selective imaging of tumor metastasis without background interference. Our PL-gel could be rationally designed to specifically target other types of cancer cells and thus provide a powerful and generic platform for the study of tumor metastasis.
Keywords: Persistent luminescent nanoparticle; alginate; breast cancer; hydrogel; imaging; tumor metastasis.