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A Solvatochromic Fluorescent Probe Reveals Polarity Heterogeneity upon Protein Aggregation in Cells

Wang Wan, Lianggang Zeng, Wenhan Jin, Xinxin Chen, Di Shen, Yanan Huang, Mengdie Wang, Yulong Bai, Haochen Lyu, Xuepeng Dong, Zhenming Gao, Lei Wang, Xiaojing Liu, Yu Liu

2021Angewandte Chemie13 citationsDOI

Abstract

Abstract We report a crystallization‐induced emission fluorophore to quantitatively interrogate the polarity of aggregated proteins. This solvatochromic probe, namely “AggRetina” probe, inherently binds to aggregated proteins and exhibits both a polarity‐dependent fluorescence emission wavelength shift and a viscosity‐dependent fluorescence intensity increase. Regulation of its polarity sensitivity was achieved by extending the conjugation length. Different proteins bear diverse polarity upon aggregation, leading to different resistance to proteolysis. Polarity primarily decreases during protein misfolding but viscosity mainly increases upon the formation of insoluble aggregates. We quantified the polarity of aggregated protein‐of‐interest in live cells via HaloTag bioorthogonal labeling, revealing polarity heterogeneity within cellular aggregates. The enriched micro‐environment details inside misfolded and aggregated proteins may correlate to their bio‐chemical properties and pathogenicity.

Topics & Concepts

Polarity (international relations)FluorophoreSolvatochromismFluorescenceChemistryBiophysicsProtein aggregationProteolysisBiochemistryBiologyPhysicsQuantum mechanicsCellEnzymeSolventClick Chemistry and ApplicationsLuminescence and Fluorescent MaterialsBiotin and Related Studies