Reversing breast cancer bone metastasis by metal organic framework-capped nanotherapeutics via suppressing osteoclastogenesis

Bone metastasis is the major cause of cancer-related morbidity and mortality. To avoid further osteolysis, current treatment ideas focus on tumor cell and the inhibition of osteoclast. Herein, zeolitic imidazolate framework-8-capped Cu2-XSe composite nanoplatform (ICG@Cu2-XSe-ZIF-8) is developed for chemodynamic therapy (CDT) and photothermal therapy (PTT) treatment of malignant breast cancer bone tumors. The rational design of ZIF-8 encapsulation greatly reduces the accumulation of Cu2-XSe to damage the normal cells. Under acidic microenvironment in tumor, ZIF-8 is cleaved to release Cu2-XSe, which can subsequently degrade into Cu (+) and Cu (2+) ions to initiate a Fenton-like reaction inducing CDT. Meanwhile, Cu2-XSe is used to be an effective photothermal transduction agent for exerting the PTT effect. What's more, the selenium element in Cu2-XSe can regulates selenoprotein to inhibit tumor cells and osteoclasts. Of note, the hyperthermia induced by PTT can further enhance the CDT effect in tumor, achieving a synergistic PTT/CDT effect. Based on these advantages, ICG@Cu2-XSe-ZIF-8 effectively suppresses the tumor cells in bone tissue, and reduces the erosion of bone tissue via suppressing osteoclastogenesis. In conclusion, this study demonstrates the potential action mechanism of ZIF8-capped nanomedicine against osteolysis in bone metastasis.

Automated summary

A novel nanoplatform has been developed for the treatment of malignant breast cancer bone tumors using chemodynamic therapy and photothermal therapy. The nanoplatform effectively suppresses tumor cells and osteoclasts, reduces damage to normal cells, and inhibits tumor metastasis and bone erosion.