A covalent organic framework-based nanoreactor for enhanced photothermal therapy via inhibiting intracellular heat defense systems

Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material via a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance...

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Published in	Chemical communications (Cambridge, England) Vol. 59; no. 48; pp. 7463 - 7466
Main Authors	Li, Yan-An, Wan, Jing-Jing, Li, Wen-Yan, Guan, Qun, Dong, Yu-Bin
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 13.06.2023
Subjects	Animals Cell Line, Tumor Cell Survival Glucose oxidase Heat-Shock Response Humans Intracellular Space - chemistry Metal-Organic Frameworks - chemistry Nanostructures Neoplasms - therapy Photothermal Therapy Therapy
Online Access	Get full text
ISSN	1359-7345 1364-548X 1364-548X
DOI	10.1039/D3CC01153D

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Abstract	Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material via a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance photothermal therapy of tumors.
AbstractList	Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material via a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance photothermal therapy of tumors. Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance photothermal therapy of tumors. Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material via a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance photothermal therapy of tumors. Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material via a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance photothermal therapy of tumors.Herein, we report an indocyanine green (ICG)-decorated and glucose oxidase (GOx)-loaded nanoscale composite COF material via a stepwise post-synthetic modification. The obtained GOx@COF-ICG can achieve synergistic inhibition of intracellular heat defense systems through starvation therapy to enhance photothermal therapy of tumors.
Author	Li, Wen-Yan Guan, Qun Wan, Jing-Jing Li, Yan-An Dong, Yu-Bin
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SubjectTerms	Animals Cell Line, Tumor Cell Survival Glucose oxidase Heat-Shock Response Humans Intracellular Space - chemistry Metal-Organic Frameworks - chemistry Nanostructures Neoplasms - therapy Photothermal Therapy Therapy
Title	A covalent organic framework-based nanoreactor for enhanced photothermal therapy via inhibiting intracellular heat defense systems
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