Synthesis of Hollow Biomineralized CaCO3–Polydopamine Nanoparticles for Multimodal Imaging-Guided Cancer Photodynamic Therapy with Reduced Skin Photosensitivity

光毒性 化学 光动力疗法 单线态氧 生物相容性 纳米载体 纳米颗粒 光敏剂 纳米技术 荧光寿命成像显微镜 荧光 材料科学 光化学 体外 有机化学 物理 氧气 量子力学 生物化学
作者
Ziliang Dong,Liangzhu Feng,Hao Yu,Muchao Chen,Min Gao,Yu Chao,He Zhao,Wenwen Zhu,Jingjing Liu,Chao Liang,Qiao Zhang,Zhuang Liu
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:140 (6): 2165-2178 被引量:493
标识
DOI:10.1021/jacs.7b11036
摘要

The development of activatable nanoplatforms to simultaneously improve diagnostic and therapeutic performances while reducing side effects is highly attractive for precision cancer medicine. Herein, we develop a one-pot, dopamine-mediated biomineralization method using a gas diffusion procedure to prepare calcium carbonate-polydopamine (CaCO 3 –PDA) composite hollow nanoparticles as a multifunctional theranostic nanoplatform. Because of the high sensitivity of such nanoparticles to pH, with rapid degradation under a slightly acidic environment, the photoactivity of the loaded photosensitizer, i.e., chlorin e6 (Ce6), which is quenched by PDA, is therefore increased within the tumor under reduced pH, showing recovered fluorescence and enhanced singlet oxygen generation. In addition, due to the strong affinity between metal ions and PDA, our nanoparticles can bind with various types of metal ions, conferring them with multimodal imaging capability. By utilizing pH-responsive multifunctional nanocarriers, effective in vivo antitumor photodynamic therapy (PDT) can be realized under the precise guidance of multimodal imaging. Interestingly, at normal physiological pH, our nanoparticles are quenched and show much lower phototoxicity to normal tissues, thus effectively reducing skin damage during PDT. Therefore, our work presents a unique type of biomineralized theranostic nanoparticles with inherent biocompatibility, multimodal imaging functionality, high antitumor PDT efficacy, and reduced skin phototoxicity.
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