Abstract
Reactive oxygen species (ROS) mediate cell-signaling processes in response to various ligands and play important roles in the pathogenesis of cardiovascular diseases. The present study reports that interleukin-22 (IL-22) elicits signal transduction in vascular smooth muscle cells (SMCs) through a ROS-dependent mechanism. We find that pulmonary artery SMCs express IL-22 receptor alpha 1 and that IL-22 activates STAT3 through this receptor. IL-22-induced signaling is found to be mediated by NADPH oxidase, as indicated by the observations that the inhibition and siRNA knock-down of this enzyme inhibit IL-22 signaling. IL-22 triggers the oxidative modifications of proteins through protein carbonylation and protein glutathionylation. Mass spectrometry identified some proteins that are carbonylated in response to IL-22 stimulation, including α-enolase, heat shock cognate 71kDa protein, mitochondrial 60kDa heat shock protein, and cytoplasmic 2 actin and determined that α-tubulin is glutathionylated. Protein glutathionylation and STAT3 phosphorylation are enhanced by the siRNA knock-down of glutaredoxin, while IL-22-mediated STAT3 phosphorylation is suppressed by knocking down thioredoxin interacting protein, an inhibitor of thioredoxin. IL-22 is also found to promote the growth of SMCs via NADPH oxidase. In rats, pulmonary hypertension is found to be associated with increased smooth muscle IL-22 expression. These results show that IL-22 promotes the growth of pulmonary vascular SMCs via a signaling mechanism that involves NADPH oxidase-dependent oxidation.
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