Metal complexes are widely used as anticancer drugs, while the severe side effects of traditional chemotherapy require new therapeutic modalities. Sonodynamic therapy (SDT) provides a significantly noninvasive ultrasound (US) treatment approach by activating sonosensitizers and initiating reactive oxygen species (ROS) to damage malignant tissues. In this work, three metal 4-methylphenylporphyrin (TTP) complexes (MnTTP, ZnTTP, and TiOTTP) are synthesized and encapsulated with human serum albumin (HSA) to form novel nanosonosensitizers. These nanosonosensitizers generate abundant singlet oxygen (1 O2 ) under US irradiation, and importantly show excellent US-activatable abilities with deep-tissue depths up to 11 cm. Compared to ZnTTP-HSA and TiOTTP-HSA, MnTTP-HSA exhibits the strongest ROS-activatable behavior due to the lowest highest occupied molecular orbital-lowest unoccupied molecular orbital gap energy by density functional theory. It is also effective for deep-tissue photoacoustic/magnetic resonance dual-modal imaging to trace the accumulation of nanoparticles in tumors. Moreover, MnTTP-HSA intriguingly achieves high SDT efficiency for simultaneously suppressing the growth of bilateral tumors away from ultrasound source in mice. This work develops a deep-tissue imaging-guided SDT strategy through well-defined metalloporphyrin nanocomplexes and paves a new way for highly efficient noninvasive SDT treatments of malignant tumors.
Keywords: deep tissue penetration; imaging-guided theranostics; metalloporphyrin complexes; nanosonosensitizers; noninvasive sonodynamic therapy.
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