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- Title
Ratiometric Afterglow Luminescent Imaging of Matrix Metalloproteinase‐2 Activity via an Energy Diversion Process.
- Authors
Huang, Weijing; Zeng, Wenhui; Huang, Zheng; Fang, Daqing; Liu, Hong; Feng, Min; Mao, Liang; Ye, Deju
- Abstract
Ratiometric afterglow luminescent (AGL) probes are attractive for in vivo imaging due to their high sensitivity and signal self‐calibration function. However, there are currently few ratiometric AGL probes available for imaging enzymatic activity in living organisms. Here, we present an energy diversion (ED) strategy that enables the design of an enzyme‐activated ratiometric AGL probe (RAG‐RGD) for in vivo afterglow imaging. The ED process provides RAG‐RGD with a radiative transition for an 'always on' 520‐nm AGL signal (AGL520) and a cascade three‐step energy transfer (ET) process for an 'off‐on' 710‐nm AGL signal (AGL710) in response to a specific enzyme. Using matrix metalloproteinase‐2 (MMP‐2) as an example, RAG‐RGD shows a significant ~11‐fold increase in AGL710/AGL520 toward MMP‐2. This can sensitively detect U87MG brain tumors through ratiometric afterglow imaging of MMP‐2 activity, with a high signal‐to‐background ratio and deep imaging depth. Furthermore, by utilizing the self‐calibration effect of ratiometric imaging, RAG‐RGD demonstrated a strong negative correlation between the AGL710/AGL520 value and the size of orthotopic U87MG tumor, enabling accurate monitoring of orthotopic glioma growth in vivo. This ED process may be applied for the design of other enzyme‐activated ratiometric afterglow probes for sensitive afterglow imaging.
- Subjects
RADIATIVE transitions; BRAIN tumors; MATRIX metalloproteinase inhibitors; ENERGY transfer; GLIOMAS
- Publication
Angewandte Chemie, 2024, Vol 136, Issue 26, p1
- ISSN
0044-8249
- Publication type
Article
- DOI
10.1002/ange.202404244