Combining myeloperoxidase (MPO) with fluorogenic ZnSalen to detect lysosomal hydrogen peroxide in live cells

Jing Jing; Jun Long Zhang

doi:10.1039/c3sc50807b

Combining myeloperoxidase (MPO) with fluorogenic ZnSalen to detect lysosomal hydrogen peroxide in live cells

Jing Jing, Jun Long Zhang^*

^*Corresponding author for this work

Peking University

Research output: Contribution to journal › Article › peer-review

50 Citations (Scopus)

Abstract

Accumulating evidence suggests that lysosomal H₂O₂ is closely associated with autophagy and apoptosis in normal and pathological processes. Imaging H₂O₂ in lysosomes is a powerful tool to elucidate its diverse roles, however, is limited by the lack of fluorescent probes capable of specifically detecting H₂O₂ under acidic conditions (pH 4.5-6). Herein we report the design and application of the “MPO-J-S” probe, a new combination of “peroxidase/fluorogenic substrate”, which is membrane-permeable and can be used to visualize exogenous or endogenous H₂O₂ confined to lysosomes via one and two photon fluorescence microscopies. The features of lysosomal H₂O₂ selectivity, high sensitivity, and live-cell compatibility offer new opportunities for luminescent ZnSalens and the related hypochlorite responsive fluorophores, combined with MPO, to decipher the physiological roles of lysosomal H₂O₂ in live cells.

Original language	English
Pages (from-to)	2947-2952
Number of pages	6
Journal	Chemical Science
Volume	4
Issue number	7
DOIs	https://doi.org/10.1039/c3sc50807b
Publication status	Published - 4 Jun 2013
Externally published	Yes

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title = "Combining myeloperoxidase (MPO) with fluorogenic ZnSalen to detect lysosomal hydrogen peroxide in live cells",

abstract = "Accumulating evidence suggests that lysosomal H2O2 is closely associated with autophagy and apoptosis in normal and pathological processes. Imaging H2O2 in lysosomes is a powerful tool to elucidate its diverse roles, however, is limited by the lack of fluorescent probes capable of specifically detecting H2O2 under acidic conditions (pH 4.5-6). Herein we report the design and application of the “MPO-J-S” probe, a new combination of “peroxidase/fluorogenic substrate”, which is membrane-permeable and can be used to visualize exogenous or endogenous H2O2 confined to lysosomes via one and two photon fluorescence microscopies. The features of lysosomal H2O2 selectivity, high sensitivity, and live-cell compatibility offer new opportunities for luminescent ZnSalens and the related hypochlorite responsive fluorophores, combined with MPO, to decipher the physiological roles of lysosomal H2O2 in live cells.",

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AB - Accumulating evidence suggests that lysosomal H2O2 is closely associated with autophagy and apoptosis in normal and pathological processes. Imaging H2O2 in lysosomes is a powerful tool to elucidate its diverse roles, however, is limited by the lack of fluorescent probes capable of specifically detecting H2O2 under acidic conditions (pH 4.5-6). Herein we report the design and application of the “MPO-J-S” probe, a new combination of “peroxidase/fluorogenic substrate”, which is membrane-permeable and can be used to visualize exogenous or endogenous H2O2 confined to lysosomes via one and two photon fluorescence microscopies. The features of lysosomal H2O2 selectivity, high sensitivity, and live-cell compatibility offer new opportunities for luminescent ZnSalens and the related hypochlorite responsive fluorophores, combined with MPO, to decipher the physiological roles of lysosomal H2O2 in live cells.

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Combining myeloperoxidase (MPO) with fluorogenic ZnSalen to detect lysosomal hydrogen peroxide in live cells

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