Biomimetic Nucleation of Manganese Oxide on Silk Fibroin Nanoparticles for Designing Raspberry‐Structured Tumor Environment‐Responsive Anticancer Nanocarriers

Bombyx mori silk fibroin is a natural biomacromolecule that can be assembled into nanoparticles. Manganese dioxide (MnO 2 ) is responsive to tumor microenvironment (TME). Herein, SF and MnO 2 is integrated to develop novel TME‐responsive drug carriers. Specifically, silk fibroin nanoparticles (SF‐NP...

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Published in	Advanced NanoBiomed Research (Online) Vol. 3; no. 11
Main Authors	Wang, Jie, Wang, Yecheng, Chen, Yuping, Lv, Ruyin, Yu, Yanfang, Wang, Junwen, Cheng, Qichao, Shuai, Yajun, Chen, Yuyin, Mao, Chuanbin, Yang, Mingying
Format	Journal Article
Language	English
Published	Singapore John Wiley & Sons, Inc 01.11.2023 Wiley-VCH
Subjects	Bioaccumulation Breast cancer Cancer therapies Catalytic activity Chemotherapy Drug carriers Drug delivery Drug delivery systems Drugs Efficiency Folic acid Fourier transforms Hydrogen peroxide Hypoxia Lamellar structure Magnetic resonance imaging Manganese dioxide manganese oxide Manganese oxides Morphology Nanoparticles Nucleation Oxygen Photodynamic therapy Polyethylene glycol Self-assembly Silk fibroin silk fibroin tumor microenvironments Spectrum analysis Tumor microenvironment tumor therapy Tumors
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ISSN	2699-9307 2699-9307
DOI	10.1002/anbr.202300056

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Abstract	Bombyx mori silk fibroin is a natural biomacromolecule that can be assembled into nanoparticles. Manganese dioxide (MnO 2 ) is responsive to tumor microenvironment (TME). Herein, SF and MnO 2 is integrated to develop novel TME‐responsive drug carriers. Specifically, silk fibroin nanoparticles (SF‐NPs) are used as a biotemplates to regulate the nucleation and self‐assembly of MnO 2 for designing the complex drug delivery (SM‐NPs). The SM‐NPs are further modified by polyethylene glycol and folic acid to improve their stability and tumor targeting. The resultant nanocarriers (SMPF‐NPs) present a raspberry‐like structure with lamellar MnO 2 nanoparticles coating on its surface. The SMPF‐NPs show a high drug‐loading capability and selectively release drugs in acidic TME. Due to the catalytic activity of MnO 2 , the SMPF‐NPs generate high levels of oxygen under H 2 O 2 and produce more reactive oxygen after loading Ce6. In vivo and in vitro analysis prove that SMPF‐NPs can accumulate in breast tumor tissues, efficiently kill cancer cells, and destroy breast cancer tumors by a combination of chemotherapy and photodynamic therapy (PDT). Moreover, the SMPF‐NPs also provide fluorescence and magnetic resonance (MR) imaging for guiding cancer therapy. These results suggest that the self‐assembled SF and MnO 2 nanocomplex could be a novel TME‐responsive nanodrug delivery system.
AbstractList	Bombyx mori silk fibroin is a natural biomacromolecule that can be assembled into nanoparticles. Manganese dioxide (MnO2) is responsive to tumor microenvironment (TME). Herein, SF and MnO2 is integrated to develop novel TME‐responsive drug carriers. Specifically, silk fibroin nanoparticles (SF‐NPs) are used as a biotemplates to regulate the nucleation and self‐assembly of MnO2 for designing the complex drug delivery (SM‐NPs). The SM‐NPs are further modified by polyethylene glycol and folic acid to improve their stability and tumor targeting. The resultant nanocarriers (SMPF‐NPs) present a raspberry‐like structure with lamellar MnO2 nanoparticles coating on its surface. The SMPF‐NPs show a high drug‐loading capability and selectively release drugs in acidic TME. Due to the catalytic activity of MnO2, the SMPF‐NPs generate high levels of oxygen under H2O2 and produce more reactive oxygen after loading Ce6. In vivo and in vitro analysis prove that SMPF‐NPs can accumulate in breast tumor tissues, efficiently kill cancer cells, and destroy breast cancer tumors by a combination of chemotherapy and photodynamic therapy (PDT). Moreover, the SMPF‐NPs also provide fluorescence and magnetic resonance (MR) imaging for guiding cancer therapy. These results suggest that the self‐assembled SF and MnO2 nanocomplex could be a novel TME‐responsive nanodrug delivery system. Bombyx mori silk fibroin is a natural biomacromolecule that can be assembled into nanoparticles. Manganese dioxide (MnO 2 ) is responsive to tumor microenvironment (TME). Herein, SF and MnO 2 is integrated to develop novel TME‐responsive drug carriers. Specifically, silk fibroin nanoparticles (SF‐NPs) are used as a biotemplates to regulate the nucleation and self‐assembly of MnO 2 for designing the complex drug delivery (SM‐NPs). The SM‐NPs are further modified by polyethylene glycol and folic acid to improve their stability and tumor targeting. The resultant nanocarriers (SMPF‐NPs) present a raspberry‐like structure with lamellar MnO 2 nanoparticles coating on its surface. The SMPF‐NPs show a high drug‐loading capability and selectively release drugs in acidic TME. Due to the catalytic activity of MnO 2 , the SMPF‐NPs generate high levels of oxygen under H 2 O 2 and produce more reactive oxygen after loading Ce6. In vivo and in vitro analysis prove that SMPF‐NPs can accumulate in breast tumor tissues, efficiently kill cancer cells, and destroy breast cancer tumors by a combination of chemotherapy and photodynamic therapy (PDT). Moreover, the SMPF‐NPs also provide fluorescence and magnetic resonance (MR) imaging for guiding cancer therapy. These results suggest that the self‐assembled SF and MnO 2 nanocomplex could be a novel TME‐responsive nanodrug delivery system.
Author	Yu, Yanfang Wang, Junwen Shuai, Yajun Chen, Yuping Cheng, Qichao Yang, Mingying Chen, Yuyin Wang, Yecheng Lv, Ruyin Mao, Chuanbin Wang, Jie
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Snippet	Bombyx mori silk fibroin is a natural biomacromolecule that can be assembled into nanoparticles. Manganese dioxide (MnO 2 ) is responsive to tumor... Bombyx mori silk fibroin is a natural biomacromolecule that can be assembled into nanoparticles. Manganese dioxide (MnO2) is responsive to tumor...
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SubjectTerms	Bioaccumulation Breast cancer Cancer therapies Catalytic activity Chemotherapy Drug carriers Drug delivery Drug delivery systems Drugs Efficiency Folic acid Fourier transforms Hydrogen peroxide Hypoxia Lamellar structure Magnetic resonance imaging Manganese dioxide manganese oxide Manganese oxides Morphology Nanoparticles Nucleation Oxygen Photodynamic therapy Polyethylene glycol Self-assembly Silk fibroin silk fibroin tumor microenvironments Spectrum analysis Tumor microenvironment tumor therapy Tumors
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Title	Biomimetic Nucleation of Manganese Oxide on Silk Fibroin Nanoparticles for Designing Raspberry‐Structured Tumor Environment‐Responsive Anticancer Nanocarriers
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