A rapid-response and ratiometric fluorescent probe for nitric oxide: From the mitochondria to the nucleus in live cells

Nitric oxide (NO) is a very important signal molecule implicated in numerous physiological and pathological processes, and its detection is the key to understand these processes. For this reason, various fluorescent probes have been developed for detection analysis of NO. However, few rapid-response (<1 min) and ratiometric fluorescent probe are reported for real-time detection of short-time NO in biological systems. In this work, we report a rapid-response (within several seconds) and ratiometric fluorescent probe, RatioTr, which displays selective and sensitive detection of NO in solutions, and detections of exo- and endogenous NO in live RAW 264.7 cells. Unexpectedly, the probe RatioTr and its sensing product (p-Nus) display different cellular localizations, the mitochondria and the nucleus, which were demonstrated by co-stained experiments. The sensing process of RatioTr toward NO from mitochondria to nucleus was observed in live cells by confocal fluorescence images. Furthermore, the sub-cellular localizations were demonstrated by measurements of pKa and interaction of p-Nus and DNA. In the presence of a natural DNA, calf thymus DNA, RatioTr is more sensitive to NO (LOD = 2.8 nM). Therefore, due to the nucleus localization together with a high fluorescence efficiency in the nucleus, p-Nus is a good candidate of cell-permeant nucleic acid stain or a fluorescent probe for the nucleus. (C) 2019 Published by Elsevier B.V.