溶酶体
阿霉素
纳米载体
药物输送
体内
化学
丝素
生物相容性材料
药理学
细胞毒性
药品
体外
癌细胞
靶向给药
生物物理学
纳米技术
癌症研究
生物化学
化疗
材料科学
癌症
生物医学工程
医学
酶
生物
丝绸
生物技术
复合材料
有机化学
外科
内科学
作者
Mixiao Tan,Weiwei Liu,Fengqiu Liu,Wei Zhang,Hui Gao,Juan Cheng,Yu Chen,Zhigang Wang,Yang Cao,Haitao Ran
出处
期刊:Theranostics
[Ivyspring International Publisher]
日期:2019-01-01
卷期号:9 (4): 961-973
被引量:54
摘要
Background: Premature drug leakage and inefficient cellular uptake are stand out as considerable hurdles for low drug delivery efficiency in tumor chemotherapy.Thus, we established a novel drug delivery and transportation strategy mediated by biocompatible silk fibroin (SF)-coated nanoparticles to overcome these therapeutic hurdles.Methods: we first synthesised a TME-responsive biocompatible nanoplatform constructed of amorphous calcium carbonate (ACC) cores and SF shells for enhanced chemotherapy by concurrently inhibiting premature drug release, achieving lysosome-targeted explosion and locally sprayed DOX, and monitoring via PAI, which was verified both in vitro and in vivo. Results:The natural SF polymer first served as a "gatekeeper" to inhibit a drug from prematurely leaking into the circulation was demonstrated both in vitro and in vivo.Upon encountering TMEs and targeting to the acidic pH environments of lysosomes, the sensitive ACC nanoparticles were gradually degraded, eventually generating a large amount of Ca 2+ and CO 2 , resulting in lysosomal collapse, thus preventing both the efflux of DOX from cancer cells and the protonation of DOX within the lysosome, releasing multiple hydrolytic enzyme to cytoplasm, exhibiting the optimal therapeutic dose and remarkable synergetic therapeutic performance.In particular, CO 2 gas generated by the pH response of ACC nanocarriers demonstrated their imaging capability for PAI, providing the potential for quantifying and guiding drug release in targets. Conclusion:In this work, we constructed TME-responsive biocompatible NPs by coating DOX-preloaded ACC-DOX clusters with SF via a bioinspired mineralization method for efficient therapeutics.This functional lysosome-targeted preservation-strategy-based therapeutic system could provid novel insights into cancer chemotherapy.
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