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Developing Push–Pull Hydroxylphenylpolyenylpyridinium Chromophores as Ratiometric Two-Photon Fluorescent Probes for Cellular and Intravital Imaging of Mitochondrial NQO1

Yongpeng Yang, Fujian Qi, Yiping Qian, Xiazhen Bao, Han-Chen Zhang, Bin Ma, Fang Dai, Shengxiang Zhang, Bo Zhou

2021Analytical Chemistry44 citationsDOI

Abstract

This work highlights the use of push–pull hydroxylphenylpolyenylpyridinium fluorophores coupled with trimethyl lock quinone to engineer the ratiometric two-photon probes for cellular and intravital imaging of mitochondrial NAD(P)H:quinone oxidoreductase 1 (NQO1), a critical antioxidant enzyme responsible for detoxifying quinones. As a typical representative, QBMP showed favorable binding with NQO1 with a Michaelis constant of 12.74 μM and exhibited a suite of superior properties, including rapid response (4 min), large Stokes shift (162 nm), ultralow detection limit (0.9 nM), favorable two-photon cross section for the released fluorophore (70.5 GM), and deep tissue penetration (225 μm) in fixed brain tissues. More importantly, this probe was successfully applied for distinguishing different NQO1-expressing cancer and normal cells, revealing decreased NQO1 activity in a cellular Parkinson’s disease model, screening NQO1 inducers as neuroprotective agents, and imaging of NQO1 in live mouse brain.

Topics & Concepts

ChemistryTwo-photon excitation microscopyFluorescenceFluorophoreBiophysicsNAD+ kinaseLuciferinEnzymeBiochemistryTransfectionQuantum mechanicsLuciferasePhysicsGeneBiologyMolecular Sensors and Ion DetectionAnalytical Chemistry and SensorsPorphyrin and Phthalocyanine Chemistry
Developing Push–Pull Hydroxylphenylpolyenylpyridinium Chromophores as Ratiometric Two-Photon Fluorescent Probes for Cellular and Intravital Imaging of Mitochondrial NQO1 | Litcius