LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation

Just-in-time evaluation of drug resistance in situ will greatly facilitate the achievement of precision cancer therapy. The rapid elevation of reactive oxygen species (ROS) is the key to chemotherapy. Hence, suppressed ROS production is an important marker for chemotherapy drug resistance. Herein, a...

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Autores principales: Wang, Qingyuan, Zhang, Zhizheng, Qiu, Dehui, Mao, Xuanxiang, Zhou, Zhaoxi, Xia, Tiansong, Wei, Jifu, Ding, Qiang, Zhang, Xiaobo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9782036/
https://www.ncbi.nlm.nih.gov/pubmed/36558330
http://dx.doi.org/10.3390/nano12244478
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author Wang, Qingyuan
Zhang, Zhizheng
Qiu, Dehui
Mao, Xuanxiang
Zhou, Zhaoxi
Xia, Tiansong
Wei, Jifu
Ding, Qiang
Zhang, Xiaobo
author_facet Wang, Qingyuan
Zhang, Zhizheng
Qiu, Dehui
Mao, Xuanxiang
Zhou, Zhaoxi
Xia, Tiansong
Wei, Jifu
Ding, Qiang
Zhang, Xiaobo
author_sort Wang, Qingyuan
collection PubMed
description Just-in-time evaluation of drug resistance in situ will greatly facilitate the achievement of precision cancer therapy. The rapid elevation of reactive oxygen species (ROS) is the key to chemotherapy. Hence, suppressed ROS production is an important marker for chemotherapy drug resistance. Herein, a NIR-II emission smart nanoprobe (LnNP@ZIF8, consisting of a lanthanide-doped nanoparticle (LnNP) core and metal-organic framework shell (ZIF8)) is constructed for drug delivery and in vivo NIR-II ratiometric imaging of ROS for tumor drug resistance evaluation. The drug-loaded nanoprobes release therapeutic substances for chemotherapy in the acidic tumor tissue. As the level of ROS increases, the LnNPs shows responsively descending fluorescence intensity at 1550 nm excited by 980 nm (F1550, 980Ex), while the fluorescence of the LnNPs at 1060 nm excited by 808 nm (F1060, 808Ex) is stable. Due to the ratiometric F1550, 980Ex/F1060, 808Ex value exhibiting a linear relationship with ROS concentration, NIR-II imaging results of ROS change based on this ratio can be an important basis for determining tumor drug resistance. As the chemotherapy and resistance evaluation are explored continuously in situ, the ratiometric imaging identifies drug resistance successfully within 24 h, which can greatly improve the timeliness of accurate treatment.
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spelling pubmed-97820362022-12-24 LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation Wang, Qingyuan Zhang, Zhizheng Qiu, Dehui Mao, Xuanxiang Zhou, Zhaoxi Xia, Tiansong Wei, Jifu Ding, Qiang Zhang, Xiaobo Nanomaterials (Basel) Article Just-in-time evaluation of drug resistance in situ will greatly facilitate the achievement of precision cancer therapy. The rapid elevation of reactive oxygen species (ROS) is the key to chemotherapy. Hence, suppressed ROS production is an important marker for chemotherapy drug resistance. Herein, a NIR-II emission smart nanoprobe (LnNP@ZIF8, consisting of a lanthanide-doped nanoparticle (LnNP) core and metal-organic framework shell (ZIF8)) is constructed for drug delivery and in vivo NIR-II ratiometric imaging of ROS for tumor drug resistance evaluation. The drug-loaded nanoprobes release therapeutic substances for chemotherapy in the acidic tumor tissue. As the level of ROS increases, the LnNPs shows responsively descending fluorescence intensity at 1550 nm excited by 980 nm (F1550, 980Ex), while the fluorescence of the LnNPs at 1060 nm excited by 808 nm (F1060, 808Ex) is stable. Due to the ratiometric F1550, 980Ex/F1060, 808Ex value exhibiting a linear relationship with ROS concentration, NIR-II imaging results of ROS change based on this ratio can be an important basis for determining tumor drug resistance. As the chemotherapy and resistance evaluation are explored continuously in situ, the ratiometric imaging identifies drug resistance successfully within 24 h, which can greatly improve the timeliness of accurate treatment. MDPI 2022-12-17 /pmc/articles/PMC9782036/ /pubmed/36558330 http://dx.doi.org/10.3390/nano12244478 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Wang, Qingyuan
Zhang, Zhizheng
Qiu, Dehui
Mao, Xuanxiang
Zhou, Zhaoxi
Xia, Tiansong
Wei, Jifu
Ding, Qiang
Zhang, Xiaobo
LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation
title LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation
title_full LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation
title_fullStr LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation
title_full_unstemmed LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation
title_short LnNP@ZIF8 Smart System for In Situ NIR-II Ratiometric Imaging-Based Tumor Drug Resistance Evaluation
title_sort lnnp@zif8 smart system for in situ nir-ii ratiometric imaging-based tumor drug resistance evaluation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9782036/
https://www.ncbi.nlm.nih.gov/pubmed/36558330
http://dx.doi.org/10.3390/nano12244478
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