Phosphate Ion-Responsive and Calcium Peroxide-Based Nanomedicine for Bone-Targeted Treatment of Breast Cancer Bone Metastasis.

Abstract

The treatment of breast cancer bone metastasis is an unresolved clinical challenge, mostly because currently therapeutic approaches cannot simultaneously block the tumor growth and repair the osteolytic bone injuries at the metastatic site. Herein, the study develops a novel nanomedicine to treat breast cancer bone metastasis. The nanomedicine is based on phosphate ion-responsive and calcium peroxide-based nanoparticles carrying the bone-targeting agent zoledronic acid on the surface and loaded with the photosensitizer indocyanine green. Following intravenous administration to a mouse model of breast cancer bone metastasis, the nanoparticles efficiently accumulate at the bone metastasis site, react with free phosphate ions, and form hydroxyapatite nanoaggregates and O2, while releasing the photosensitizer. Hydroxyapatite nanoaggregates elicit the remineralization of the collagenous bone matrix and trigger tumor cell apoptosis. Upon irradiating tumor-bearing legs with an 808nm laser source, the O2 and free photosensitizer produced 1O2 by the reaction of the nanoparticles with phosphate ions, further boosting the anti-tumor effect. Tumor killing hampers the vicious cycle at the site of bone metastasis, translating to osteolysis blockade and further encouraging the remineralization of bone matrix. This work sheds light on the development of a novel, safe, and efficient approach for the treatment of breast cancer bone metastasis.