内质网
农奴
细胞质
钙
体内
生物物理学
生物学中的钙
钙信号传导
细胞生物学
光动力疗法
化学
生物
ATP酶
生物化学
有机化学
生物技术
酶
作者
Yuping Jiang,Wei Meng,Lijuan Wu,Kai Shao,Lili Wang,Mengchao Ding,Jinsheng Shi,Xiaoying Kong
标识
DOI:10.1002/adhm.202100789
摘要
Abstract Dysfunction of the calcium balancing system and disruption of calcium distribution can induce abnormal intracellular calcium overload, further causing serious damage and even cell death, which provides a potential therapeutic approach for tumor treatment. Herein, a nano‐platform, which includes UCNPs‐Ce6@RuR@mSiO 2 @PL‐HA NPs (UCRSPH) and SA‐CaO 2 nanoparticles, is prepared for improving the tumor micro‐environment (TME), Ca 2+ signal disturbance as well as enhanced photodynamic tumor therapy (PDT). UCRSPH combined with SA‐CaO 2 can alter TME and relieve hypoxia of the tumor to realize self‐reinforcing PDT under near‐IR irradiation (980 nm). The ruthenium red (RuR) in the UCRSPH NPs can be released to the cytoplasm after endocytosis of the nanoparticles, target Ca 2+ channel proteins on the endoplasmic reticulum and mitochondria, sarcoplasmic reticulum Ca 2+ ‐ATPase (SERCA), and mitochondrial calcium uniporter (MCU). The combined participation of nanoparticles and RuR promotes Ca 2+ imbalance and cytoplasmic calcium overload with the assistance of CaO 2 , and provides tumor cells higher sensitivity to PDT. Furthermore, the nano‐platform also provides fluorescence imaging and calcification computed tomography imaging for in vivo treatment guidance. In conclusion, this image‐guided nano‐platform show potential for highly specific, efficient combined therapy against tumor cells with minimal side‐effects to normal cells by integrating TME improvement, self‐reinforcing PDT, and Ca 2+ signal disturbance.
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