Biological microenvironment detection is crucial for deciphering the mechanisms underlying malignant progression and predicting the treatment efficacy of diseases. Nevertheless, only very limited progress has been made toward non-invasive and quantitative detection of microenvironment abnormal factors, let alone with clinically compatible imaging modalities. Herein, a smart nuclear medicine probe is proposed, innovatively designed for quantitative visualization of glutathione (GSH) in vivo. This probe contains a disulfide bond that links two molecular segments labeled with I and Lu, respectively. Upon systemic delivery, the probe preferentially accumulates in the liver, where GSH cleaves it into two fragments with completely different metabolic fates: one retained at the response site and the other rapidly excreted. This unique feature provides an opportunity to use the Lu/I signal ratio to non-invasively characterize the GSH concentration in vivo, enabling highly sensitive quantification of GSH that is strongly associated with many hepatic diseases. Moreover, the strategy also provides a reliable method for the quantitative visualization of GSH levels in tumors. It is thus believed the current study provides a groundbreaking method for non-invasively and quantitatively revealing disease-related microenvironment factors, not limited to GSH, in vivo.
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