Endogenous H2S-Triggered In Situ Synthesis of NIR-II-Emitting Nanoprobe for In Vivo Intelligently Lighting Up Colorectal Cancer

Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H2S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on...

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Published iniScience Vol. 17; pp. 217 - 224
Main Authors Deng, Zhiming, Jiang, Mingyang, Li, Youbin, Liu, Hongrong, Zeng, Songjun, Hao, Jianhua
Format Journal Article
LanguageEnglish
Published Elsevier Inc 26.07.2019
Elsevier
Subjects
Biomolecules
Cancer
Optical Imaging
Optical Imaging
Biomolecules
Cancer
Online AccessGet full text
ISSN2589-0042
2589-0042
DOI10.1016/j.isci.2019.06.034

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Abstract Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H2S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on Ag-chicken egg white (Ag-CEW) complex for intelligently lighting up colorectal cancer was explored. The designed Ag-CEW complex holds efficient NIR-II emission of 1,000–1,400 nm via endogenous H2S-induced in situ chemical reaction to form Ag2S quantum dots (QDs). After reaction, the designed Ag-CEW complex with high photo-stability and biocompatibility was successfully used for NIR-II imaging-guided specific visualization and precise location of colorectal cancer via endogenous H2S activation. Therefore, our findings provide a new route for specifically targeting diagnosis of colon cancer based on the in situ-activatable NIR-II probe. [Display omitted] •In situ H2S-activated Ag-CEW probe was designed for specific colon cancer diagnosis•The Ag-CEW probe triggered by H2S presents highly efficient NIR-II emission•The activatable probe can significantly improve the sensitivity of optical imaging•Ag-CEW can completely eliminate the interference signal from liver and spleen Optical Imaging; Biomolecules; Cancer
AbstractList Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H2S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on Ag-chicken egg white (Ag-CEW) complex for intelligently lighting up colorectal cancer was explored. The designed Ag-CEW complex holds efficient NIR-II emission of 1,000–1,400 nm via endogenous H2S-induced in situ chemical reaction to form Ag2S quantum dots (QDs). After reaction, the designed Ag-CEW complex with high photo-stability and biocompatibility was successfully used for NIR-II imaging-guided specific visualization and precise location of colorectal cancer via endogenous H2S activation. Therefore, our findings provide a new route for specifically targeting diagnosis of colon cancer based on the in situ-activatable NIR-II probe. : Optical Imaging; Biomolecules; Cancer Subject Areas: Optical Imaging, Biomolecules, Cancer
Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H2S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on Ag-chicken egg white (Ag-CEW) complex for intelligently lighting up colorectal cancer was explored. The designed Ag-CEW complex holds efficient NIR-II emission of 1,000-1,400 nm via endogenous H2S-induced in situ chemical reaction to form Ag2S quantum dots (QDs). After reaction, the designed Ag-CEW complex with high photo-stability and biocompatibility was successfully used for NIR-II imaging-guided specific visualization and precise location of colorectal cancer via endogenous H2S activation. Therefore, our findings provide a new route for specifically targeting diagnosis of colon cancer based on the in situ-activatable NIR-II probe.Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H2S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on Ag-chicken egg white (Ag-CEW) complex for intelligently lighting up colorectal cancer was explored. The designed Ag-CEW complex holds efficient NIR-II emission of 1,000-1,400 nm via endogenous H2S-induced in situ chemical reaction to form Ag2S quantum dots (QDs). After reaction, the designed Ag-CEW complex with high photo-stability and biocompatibility was successfully used for NIR-II imaging-guided specific visualization and precise location of colorectal cancer via endogenous H2S activation. Therefore, our findings provide a new route for specifically targeting diagnosis of colon cancer based on the in situ-activatable NIR-II probe.
Overexpression of endogenous H 2 S is one of the key characteristic in colon cancer. However, developing endogenous H 2 S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H 2 S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on Ag-chicken egg white (Ag-CEW) complex for intelligently lighting up colorectal cancer was explored. The designed Ag-CEW complex holds efficient NIR-II emission of 1,000–1,400 nm via endogenous H 2 S-induced in situ chemical reaction to form Ag 2 S quantum dots (QDs). After reaction, the designed Ag-CEW complex with high photo-stability and biocompatibility was successfully used for NIR-II imaging-guided specific visualization and precise location of colorectal cancer via endogenous H 2 S activation. Therefore, our findings provide a new route for specifically targeting diagnosis of colon cancer based on the in situ -activatable NIR-II probe. • In situ H 2 S-activated Ag-CEW probe was designed for specific colon cancer diagnosis • The Ag-CEW probe triggered by H 2 S presents highly efficient NIR-II emission • The activatable probe can significantly improve the sensitivity of optical imaging • Ag-CEW can completely eliminate the interference signal from liver and spleen Optical Imaging; Biomolecules; Cancer
Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific diagnosis of colorectal cancer is rarely explored. Herein, an in situ H2S-activatable second near-infrared (NIR-II)-emitting nanoprobe based on Ag-chicken egg white (Ag-CEW) complex for intelligently lighting up colorectal cancer was explored. The designed Ag-CEW complex holds efficient NIR-II emission of 1,000–1,400 nm via endogenous H2S-induced in situ chemical reaction to form Ag2S quantum dots (QDs). After reaction, the designed Ag-CEW complex with high photo-stability and biocompatibility was successfully used for NIR-II imaging-guided specific visualization and precise location of colorectal cancer via endogenous H2S activation. Therefore, our findings provide a new route for specifically targeting diagnosis of colon cancer based on the in situ-activatable NIR-II probe. [Display omitted] •In situ H2S-activated Ag-CEW probe was designed for specific colon cancer diagnosis•The Ag-CEW probe triggered by H2S presents highly efficient NIR-II emission•The activatable probe can significantly improve the sensitivity of optical imaging•Ag-CEW can completely eliminate the interference signal from liver and spleen Optical Imaging; Biomolecules; Cancer
Author Zeng, Songjun
Deng, Zhiming
Jiang, Mingyang
Li, Youbin
Hao, Jianhua
Liu, Hongrong
AuthorAffiliation 1 School of Physics and Electronics and Key Laboratory of Low-dimensional Quantum Structures and Quantum Control of the Ministry of Education, Synergetic Innovation Center for Quantum Effects and Applications, Hunan Normal University, Changsha, Hunan 410081, China
2 Department of Applied Physics, The Hong Kong Polytechnic University, Hong Kong, China
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Keywords Optical Imaging
Biomolecules
Cancer
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Snippet Overexpression of endogenous H2S is one of the key characteristic in colon cancer. However, developing endogenous H2S-activated optical probes for specific...
Overexpression of endogenous H 2 S is one of the key characteristic in colon cancer. However, developing endogenous H 2 S-activated optical probes for specific...
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SubjectTerms Biomolecules
Cancer
Optical Imaging
Title Endogenous H2S-Triggered In Situ Synthesis of NIR-II-Emitting Nanoprobe for In Vivo Intelligently Lighting Up Colorectal Cancer
URI https://dx.doi.org/10.1016/j.isci.2019.06.034
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