Selective
and Ratiometric Fluorescent Trapping and
Quantification of Protein Vicinal Dithiols and in Situ Dynamic Tracing
in Living Cells
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Abstract
Protein
vicinal dithiols play fundamental roles in intracellular
redox homeostasis due to their involvement in protein synthesis and
function through the reversible vicinal dithiol oxidation to disulfide.
To provide quantitative information about the global distribution
and dynamic changes of protein vicinal dithiols in living cells, we
have designed and synthesized a ratiometric fluorescent probe (<b>VTAF</b>) for trapping of vicinal dithiol-containing proteins
(VDPs) in living cells. <b>VTAF</b> exhibits a ratiometric fluorescence
signal upon single excitation, which enables self-calibration of the
fluorescence signal and quantification of endogenous vicinal dithiols
of VDPs. Its potential for in situ dynamic tracing of changes of protein
vicinal dithiols under different cellular redox conditions was exemplified. <b>VTAF</b> facilitated the direct observation of subcellular distribution
of endogenous VDPs via ratiometric fluorescence imaging and colocalization
assay. And the results suggested that there are abundant VDPs in mitochondria.
Moreover, some redox-sensitive VDPs are also present on cell surface
which can respond to redox stimulus. This ratiometric fluorescence
technique presents an important extension to previous fluorescence
intensity-based probes for trapping and quantifying protein vicinal
dithiols in living cells, as well as its visible dynamic tracing of
VDPs