Zhicun Yao scite author profile

Zhicun Yao

2Publications

15Citation Statements Received

109Citation Statements Given

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109

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Fuzhou University

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Ratiometric Detection of H₂S in Liver Injury by Activated Two-Wavelength Photoacoustic Imaging

Chen

Huo³

et al. 2022

Anal. Chem.

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Metformin is commonly used for clinical treatment of type-2 diabetes, but long-term or overdose intake of metformin usually causes selective upregulation of H2S level in the liver, resulting in liver injury. Therefore, tracking the changes of H2S content in the liver would contribute to the prevention and diagnosis of liver injury. However, in the literature, there are few reports on ratiometric PA molecular probes for H2S detection in drug-induced liver injury (DILI). Accordingly, here we developed a H2S-activated ratiometric PA probe, namely BDP-H2S, based Aza-BODIPY dye for detecting the H2S upregulation of metformin-induced liver injury. Due to the intramolecular charge transfer (ICT) effect, BDP-H2S exhibited a strong PA signal at 770 nm. Following the response to H2S, its ICT effect was recovered which showed a decrement of PA770 and an enhancement of PA840. The ratiometric PA signal (PA840/PA770) showed excellent H2S selectivity response with a low limit of detection (0.59 μM). Bioimaging experiments demonstrated that the probe has been successfully used for ratiometric PA imaging of H2S in cells and metformin-induced liver injury in mice. Overall, the designed probe emerges as a powerful tool for noninvasive and accurate imaging of H2S level and tracking its distribution and variation in liver in-real time.

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Ultrasound-Activated NIR Chemiluminescence for Deep Tissue and Tumor Foci Imaging

Yao

Chen

et al. 2023

Anal. Chem.

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Fluorescence imaging requires real-time external light excitation; however, it has the drawbacks of autofluorescence and shallower penetration depth, limiting its application in deep tissue imaging. At the same time, ultrasound (US) has high spatiotemporal resolution, deep penetrability, noninvasiveness, and precise localization of lesions; thus, it can be a promising alternative to light. However, US-activated luminescence has been rarely reported. Herein, an US-activated near-infrared (NIR) chemiluminescence (CL) molecule, namely, PNCL, is designed by protoporphyrin IX as a sonosensitizer moiety and a phenoxy-dioxetane precursor containing a dicyanomethyl chromone acceptor scaffold (NCL) as the US-responsive moiety. After therapeutic US radiation (1 MHz), the singlet oxygen (1O2), as an “intermediary”, oxidizes the enol-ether bond of the NCL moiety and then emits NIR light via spontaneous decomposition. Combining the deep penetrability of US with a high signal-to-background ratio of NIR CL, the designed probe PNCL successfully realizes US-activated deep tissue imaging (∼20 mm) and selectively turns on signals in specific tumor foci. Bridging US chemistry with luminescence using an “intermediary” will provide new imaging methods for accurate cancer diagnosis.

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Zhicun Yao

Ratiometric Detection of H₂S in Liver Injury by Activated Two-Wavelength Photoacoustic Imaging

Ultrasound-Activated NIR Chemiluminescence for Deep Tissue and Tumor Foci Imaging

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Zhicun Yao

Ratiometric Detection of H2S in Liver Injury by Activated Two-Wavelength Photoacoustic Imaging

Ultrasound-Activated NIR Chemiluminescence for Deep Tissue and Tumor Foci Imaging

Contact Info

Product

Resources

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Ratiometric Detection of H₂S in Liver Injury by Activated Two-Wavelength Photoacoustic Imaging