Sulfur dioxide (SO) has emerged as a physiological relevant signaling molecule that plays a prominent role in regulating vascular functions. However, molecular mechanisms whereby SO influences its upper-stream targets have been elusive. Here we show that SO may mediate conversion of hydrogen peroxide (HO) to a more potent oxidant, peroxymonosulfite, providing a pathway for activation of HO to convert the thiol group of protein cysteine residues to a sulfenic acid group, aka cysteine sulfenylation. By using site-centric chemoproteomics, we quantified >1000 sulfenylation events in vascular smooth muscle cells in response to exogenous SO. Notably, ~42% of these sulfenylated cysteines are dynamically regulated by SO, among which is cysteine-64 of Smad3 (Mothers against decapentaplegic homolog 3), a key transcriptional modulator of transforming growth factor β signaling. Sulfenylation of Smad3 at cysteine-64 inhibits its DNA binding activity, while mutation of this site attenuates the protective effects of SO on angiotensin II-induced vascular remodeling and hypertension. Taken together, our findings highlight the important role of SO in vascular pathophysiology through a redox-dependent mechanism.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7933484 | PMC |
| http://dx.doi.org/10.1016/j.redox.2021.101898 | DOI Listing |
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