A Hypoxia-targeting and Hypoxia-responsive Nano-probe for Tumor Detection and Early Diagnosis

Accurate imaging of tumor hypoxia in vivo is critical for early cancer diagnosis and clinical outcomes, highlighting the great need for its detection specificity and sensitivity. In this report, we propose a probe (HTRNP) that simultaneously has hypoxia-targeting and hypoxia-responsive capabilities to enhance the tumor hypoxia imaging efficiency. HTRNP was successfully prepared through the encapsulation of Pt(II)-tetrakis(pentafluorophenyl)porphyrin (PtPFPP), which exhibits hypoxia-dependent phosphorescence, within the amphiphilic block copolymer OPDMA-PF, which has hypoxia-targeting tertiary amine N-oxide moieties and hydrophobic perfluorobenzene ring structures, which highly improved the loading content and water solubility of PtPFPP. By combining targeting and response abilities toward hypoxic conditions, the HTRNP micelles efficiently accumulate in the tumor tissues and emit intense phosphorescence, thus enabling ultrasensitive detection of various tumor models, even of hundreds of cancer cells, indicating its promising potential for early cancer detection and phenotypic characterization.