Biomineralization-inspired Crystallization of Manganese Oxide on Silk Fibroin Nanoparticles for in vivo MR/fluorescence Imaging-assisted Tri-modal Therapy of Cancer

光热治疗 生物相容性 体内 阿霉素 光动力疗法 化学 纳米颗粒 吲哚青绿 药物输送 生物物理学 材料科学 纳米技术 化疗 有机化学 病理 医学 生物技术 外科 生物
作者
Ruihao Yang,Mengmeng Hou,Ya Gao,Shiyu Lu,Lei Zhang,Zhigang Xu,Chang Ming Li,Yuejun Kang,Peng Xue
出处
期刊:Theranostics [Ivyspring International Publisher]
卷期号:9 (21): 6314-6333 被引量:84
标识
DOI:10.7150/thno.36252
摘要

Regenerated silk fibroin (SF) is a type of natural biomacromolecules with outstanding biocompatibility and biodegradability. However, stimulus-responsive SF-based nanocomplex has seldom been reported for application in tumor diagnosis and therapy. Methods: As a proof-of-concept study, a multifunctional SF@MnO2 nanoparticle-based platform was strategically synthesized using SF as a reductant and a template via a biomineralization-inspired crystallization process in an extremely facile way. Because of their mesoporous structure and abundant amino and carboxyl terminal residues, SF@MnO2 nanoparticles were co-loaded with a photodynamic agent indocyanine green (ICG) and a chemotherapeutic drug doxorubicin (DOX) to form a SF@MnO2/ICG/DOX (SMID) nanocomplex. Results: The obtained product was highly reactive with endogenous hydrogen peroxide (H2O2) in tumor microenvironment, which was decomposed into O2 to enhance tumor-specific photodynamic therapy (PDT). Moreover, SMID nanocomplex produced a strong and stable photothermal effect upon near-infrared (NIR) irradiation for photothermal therapy (PTT) owing to the distinct photothermal response of SF@MnO2 and stably conjugated ICG. The concurrent NIR fluorescence and magnetic resonance (MR) imaging in vivo both indicated effective tumor-specific enrichment of SMID nanoparticles via enhanced permeability and retention (EPR) effect. Animal studies further verified that SMID nanoparticles remarkably improved tumor inhibitive efficacy through combination PTT/PDT/chemotherapy with minimal systemic toxicity or adverse effect. Conclusion: This study demonstrated the promising potential of SF-based nanomaterial to address some of the key challenges in cancer therapy due to unfavorable tumor microenvironment for drug delivery.
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