Journal
CHEMICAL SCIENCE
Volume 10, Issue 2, Pages 398-405Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8sc04266g
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Funding
- NSFC/China [21788102, 21421004, 21636002, 21622602]
- National Postdoctoral Program for Innovative Talents [BX201700075]
- National Key Research and Development Program [2017YFC0906902, 2016YFA0200300]
- Scientific Committee of Shanghai [14ZR1409700, 15XD1501400]
- Program of Introducing Talents of Discipline to Universities [B16017]
- Open Funding Project of the State Key Laboratory of Bioreactor Engineering
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Development of fluorescent probes for on-site sensing and long-term tracking of specific biomarkers is particularly desirable for the early detection of diseases. However, available small-molecule probes tend to facilely diffuse across the cell membrane or remain at the activation site but always suffer from the aggregation-caused quenching (ACQ) effect. Here we report an enzyme-activatable aggregation-induced emission (AIE) probe QM-gal, which is composed of a hydrophilic -galactosidase (-gal)-triggered galactose moiety and a hydrophobic AIE-active fluorophore QM-OH. The probe is virtually non-emissive in aqueous media, but when activated by -gal, specific enzymatic turnover would liberate hydrophobic AIE luminogen (AIEgen) QM-OH, and then highly fluorescent nanoaggregates are in situ generated as a result of the AIE process, allowing for on-site sensing of endogenous -gal activity in living cells. Notably, taking advantage of the improved intracellular retention of nanoaggregates, we further exemplify QM-gal for long-term (approximate to 12 h) visualization of -gal-overexpressing ovarian cancer cells with high fidelity, which is essential for biomedicine and diagnostics. Thus, this enzyme-activatable AIE probe not only is a potent tool for elucidating the roles of -gal in biological systems, but also offers an enzyme-regulated liberation strategy to exploit multifunctional probes for preclinical applications.
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