Allan H. Conney Laboratory for Anticancer Research, School of Biomedical and Pharmaceutical Sciences, Guangdong University of Technology, Guangzhou, Guangdong, 510006, P. R. China.
Key Laboratory of Aquatic Product Processing, Ministry of Agriculture and Rural Affairs, South China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou, 510300, P. R. China.
Small. 2023 Sep;19(38):e2301003. doi: 10.1002/smll.202301003. Epub 2023 May 21.
Bone is one of the prone metastatic sites of patients with advanced breast cancer. The "vicious cycle" between osteoclasts and breast cancer cells plays an essential role in osteolytic bone metastasis from breast cancer. In order to inhibit bone metastasis from breast cancer, NIR-II photoresponsive bone-targeting nanosystems (CuP@PPy-ZOL NPs) are designed and synthesized. CuP@PPy-ZOL NPs can trigger the photothermal-enhanced Fenton response and photodynamic effect to enhance the photothermal treatment (PTT) effect and thus achieve synergistic anti-tumor effect. Meanwhile, they exhibit a photothermal enhanced ability to inhibit osteoclast differentiation and promote osteoblast differentiation, which reshaped the bone microenvironment. CuP@PPy-ZOL NPs effectively inhibited the proliferation of tumor cells and bone resorption in the in vitro 3D bone metastases model of breast cancer. In a mouse model of breast cancer bone metastasis, CuP@PPy-ZOL NPs combined with PTT with NIR-II significantly inhibited the tumor growth of breast cancer bone metastases and osteolysis while promoting bone repair to achieve the reversal of osteolytic breast cancer bone metastases. Furthermore, the potential biological mechanisms of synergistic treatment are identified by conditioned culture experiments and mRNA transcriptome analysis. The design of this nanosystem provides a promising strategy for treating osteolytic bone metastases.
骨骼是晚期乳腺癌患者易发生转移的部位之一。破骨细胞与乳腺癌细胞之间的“恶性循环”在乳腺癌溶骨性骨转移中起着至关重要的作用。为了抑制乳腺癌的骨转移,设计并合成了近红外二区光响应性骨靶向纳米系统(CuP@PPy-ZOL NPs)。CuP@PPy-ZOL NPs 能够引发光热增强的芬顿反应和光动力效应,从而增强光热治疗(PTT)效果,实现协同抗肿瘤作用。同时,它们表现出光热增强抑制破骨细胞分化和促进成骨细胞分化的能力,重塑了骨微环境。CuP@PPy-ZOL NPs 有效地抑制了体外乳腺癌 3D 骨转移模型中肿瘤细胞的增殖和骨吸收。在乳腺癌骨转移的小鼠模型中,CuP@PPy-ZOL NPs 与近红外二区的 PTT 联合使用,显著抑制了乳腺癌骨转移的肿瘤生长和溶骨,同时促进了骨修复,实现了溶骨性乳腺癌骨转移的逆转。此外,通过条件培养实验和 mRNA 转录组分析鉴定了协同治疗的潜在生物学机制。该纳米系统的设计为治疗溶骨性骨转移提供了一种有前途的策略。
