Wei Quan scite author profile

Unraveling the changing rule of endoplasmic reticulum (ER) polarity is of significance for liver injury. However, the rule of the ER polarity changes during the occurrence and progression of liver injury remains a mystery. Toward that, a unique fluorescent probe, ERNT, capable of imaging ER polarity in multiple liver injury models with high accuracy and fidelity was designed herein. In light of its excellent solvatochromism, the ER polarity was determined to be higher in the case of endoplasmic reticulum stress (ERS) induced by tunicamycin and dithiothreitol than that of the normal state at the cell level. Importantly, with the assistance of the PerkinElmer IVIS Spectrum imaging system and the powerful tool of ERNT, our work first revealed that the ER polarity increases with the evolution of liver injuries. Moreover, as a demonstration, ERNT achieved evaluating hepatoprotective drug efficacy by detecting ER polarity, confirming its high clinical application prospect. Thus, our work not only first unravels the rule of ER polarity in dynamic liver injury progression but may also inspire more diagnostic and therapeutic programs for liver diseases shortly.

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Design, synthesis and evaluation of novel (S)-tryptamine derivatives containing an allyl group and an aryl sulfonamide unit as anticancer agents

Guo

Peng

et al. 2019

Bioorganic & Medicinal Chemistry Letters

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Upregulation of Formaldehyde in Parkinson’s Disease Found by a Near-Infrared Lysosome-Targeted Fluorescent Probe

Quan

Song

et al. 2023

Anal. Chem.

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Parkinson's disease (PD) is one of the major neurodegenerative diseases caused by complex pathological processes. As a signal molecule, formaldehyde is closely linked to nervous systems, but the relationship between PD and formaldehyde levels remains largely unclear. We speculated that formaldehyde might be a potential biomarker for PD. To prove it, we constructed the first near-infrared (NIR) lysosome-targeted formaldehyde fluorescent probe (named NIR-Lyso-FA) to explore the relationship between formaldehyde and PD. The novel fluorescent probe achieves formaldehyde detection in vitro and in vivo, thanks to its excellent properties such as NIR emission, large Stokes shift, and fast response to formaldehyde. Crucially, utilizing the novel probe NIR-Lyso-FA, formaldehyde overexpression was discovered for the first time in cellular, zebrafish, and mouse PD models, supporting our guess that formaldehyde can function as a possible biomarker for PD. We anticipate that this finding will offer insightful information for PD pathophysiology, diagnosis, medication development, and treatment.

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Whey protein isolate with improved film properties through cross‐linking catalyzed by small laccase from Streptomyces coelicolor

et al. 2018

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Wei Quan

Silicon-assisted unconventional fluorescence from organosilicon materials

Utilizing a Solvatochromic Optical Agent to Monitor the Polarity Changes in Dynamic Liver Injury Progression

Design, synthesis and evaluation of novel (S)-tryptamine derivatives containing an allyl group and an aryl sulfonamide unit as anticancer agents

Upregulation of Formaldehyde in Parkinson’s Disease Found by a Near-Infrared Lysosome-Targeted Fluorescent Probe

Whey protein isolate with improved film properties through cross‐linking catalyzed by small laccase from Streptomyces coelicolor

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