Abstract
The level of hypochlorous acid (HOCl) in cancer cells is higher than that in non-cancer cells. HOCl is an essential signal for the regulation of cell fate and works mainly through the protein post-translational modifications in cancer cells. However, the mechanism of HOCl regulating autophagy has not been clarified. Here we reported that a HOCl probe named ZBM-H targeted endoplasmic reticulum and induced an intact autophagy flux in lung cancer cells. Furthermore, ZBM-H promoted the binding of GRP78 to AMPK and increased the phosphorylation of AMPK in a dose- and time-dependent manner. GRP78 knockdown inhibited ZBM-H-induced AMPK phosphorylation and ZBM-H-stimulated autophagy. In addition, mass spectrometry combined with point mutation experiments revealed that ZBM-H increased GRP78 activity by inhibiting HOCl-induced lysine 353 oxidation of GRP78. Following ZBM-H treatment in vitro and in vivo, cell growth was significantly inhibited while apoptosis was induced. Nevertheless, exogenous HOCl partially reversed ZBM-H-inhibited cell growth and ZBM-H-induced GRP78 activation. In brief, we found that an endoplasmic reticulum-targeted HOCl probe named ZBM-H, acting through attenuating HOCl-induced GRP78 oxidation, inhibited tumor cell survival by promoting autophagy and apoptosis. Overall, these data demonstrated a novel mechanism of hypochlorous acid regulating autophagy by promoting the oxidation modification of GRP78.
Highlights
Hypochlorous acid (HOCl) is a well-known physiological oxidant that functions as a potent antimicrobial agent
We report that ZBM-H promotes autophagy and apoptosis in cancer cells through inhibiting HOCl-caused oxidation modification of Glucose-regulated protein 78 (GRP78)
In order to determine the distribution of HOCl probe (ZBM-H) in the organelles, we firstly investigated the organelle targeting of ZBM-H taking advantage of its good fluorescence characteristics
Summary
Hypochlorous acid (HOCl) is a well-known physiological oxidant that functions as a potent antimicrobial agent. HOCl is generated enzymatically by myeloperoxidase (MPO), a heme peroxidase released by activated neutrophils, with H2O2 and chloride anions as substrates[1]. In addition to its antimicrobial properties, HOCl is an important signaling molecule for cell growth and regulates a range of physiological processes[2,3]. It has been reported that the mode of action of HOCl regulating physiological processes is through the post-translational modifications of proteins[2,3,5]. Oxidation and chlorination modification of proteins caused by HOCl leads to changes in proteins activity[1]. The function of exogenous HOCl-modified proteins has been studied in great detail[1,7,8,9].
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