Phosphoproteomics Reveals Novel Insights into the Pathogenesis and Identifies New Therapeutic Kinase Targets of Ulcerative Colitis

Abstract Background Ulcerative colitis (UC) is a chronic recurrent inflammatory disease with unclear etiology. Currently, safe and effective treatment options for UC remain to be developed. Kinases, which catalyze the phosphorylation of substrates, have emerged as promising therapeutic targets for inflammatory diseases. We clarified the kinase activity profile and phosphorylation network in UC and aimed to reveal new pathogenic mechanisms and potential therapeutic targets. Methods We first performed the phosphoproteomic analysis of rectal tissues from UC patients and healthy individuals. Further bioinformatic analyses revealed the remodeling of key kinases and signaling pathways. Then, we conducted a screening of kinases to identify new potential therapeutic targets through in vivo and in vitro experiments. Results Phosphoproteomics revealed a drastic remodeling of signaling pathways in UC, such as pathways related to tight junction, adhesion junction, and necroptosis. Additionally, the activity of kinases such as CDK2, CLK1 and AURKB were significantly changed. Additional screening of these kinases identified CDK2 as a potential therapeutic target for UC, as inhibiting CDK2 effectively alleviated dextran sulfate sodium–induced colitis in mice. Further research revealed that suppressing CDK2 remarkably inhibited RIPK1, RIPK3, and MLKL phosphorylation, as well as MLKL oligomerization, thereby inhibiting epithelial necroptosis and protecting the intestinal barrier. Conclusions Our research deepened the understanding of UC pathogenesis through the lens of phosphorylation. Moreover, we identified CDK2 as a new potential therapeutic target for UC, revealing a novel role for CDK2 in necroptosis. Lay Summary We conducted phosphoproteomics of rectal tissues from ulcerative colitis patients and healthy individuals. The results revealed a drastic remodeling of signaling pathways and identified CDK2 as a potential therapeutic target for ulcerative colitis. Inhibiting CDK2 effectively protected the intestinal barrier by suppressing epithelial necroptosis, and thereby alleviated dextran sulfate sodium–induced colitis.