Xintian Shao scite author profile

Mitochondria–lysosome interactions are essential for maintaining intracellular homeostasis. Although various fluorescent probes have been developed to visualize such interactions, they remain unable to label mitochondria and lysosomes simultaneously and dynamically track their interaction. Here, we introduce a cell-permeable, biocompatible, viscosity-responsive, small organic molecular probe, Coupa, to monitor the interaction of mitochondria and lysosomes in living cells. Through a functional fluorescence conversion, Coupa can simultaneously label mitochondria with blue fluorescence and lysosomes with red fluorescence, and the correlation between the red–blue fluorescence intensity indicates the progress of mitochondria–lysosome interplay during mitophagy. Moreover, because its fluorescence is sensitive to viscosity, Coupa allowed us to precisely localize sites of mitochondria–lysosome contact and reveal increases in local viscosity on mitochondria associated with mitochondria–lysosome contact. Thus, our probe represents an attractive tool for the localization and dynamic tracking of functional mitochondria–lysosome interactions in living cells.

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Super‐Resolution Tracking of Mitochondrial Dynamics with An Iridium(III) Luminophore

Chen

Jin

Shao

et al. 2018

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Combining luminescent transition metal complex with super‐resolution microscopy is an excellent strategy for the long‐term visualization of the dynamics of subcellular structures in living cells. However, it remains unclear whether iridium(III) complexes are applicable for a particular type of super‐resolution technique, structured illumination microscopy (SIM), to image subcellular structures. Herein, an iridium(III) dye, to track mitochondrial dynamics in living cells under SIM is described. The dye demonstrates excellent specificity and photostability and satisfactory cell permeability. While using SIM to image mitochondria, an ≈80 nm resolution is achieved that allows the clear observation of the structure of mitochondrial cristae. The dye is used to monitor and quantify mitochondrial dynamics relative to lysosomes, including fusion involved in mitophagy, and newly discovered mitochondria–lysosome contact (MLC) under different conditions. The MLC remains intact and fusion vanishes when five receptors, p62, NDP52, OPTN, NBR1, and TAX1BP1, are knocked out, suggesting that these two processes are independent.

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Recent advances in polysaccharides for osteoarthritis therapy

Chen

Shao

Ling

et al. 2017

European Journal of Medicinal Chemistry

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Quantitative analysis of interactive behavior of mitochondria and lysosomes using structured illumination microscopy

Chen¹,

Shao²,

Hao

et al. 2020

Biomaterials

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Xintian Shao

A dual-labeling probe to track functional mitochondria–lysosome interactions in live cells

Super‐Resolution Tracking of Mitochondrial Dynamics with An Iridium(III) Luminophore

Recent advances in polysaccharides for osteoarthritis therapy

Quantitative analysis of interactive behavior of mitochondria and lysosomes using structured illumination microscopy

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