ARGINASE 2 AMELIORATES EXPERIMENTAL COLITIS THROUGH ANTIOXIDANT EFFECTS VIA SPERMIDINE PRODUCTION

Abstract

Abstract BACKGROUND Spermidine which is a type of polyamine, shows elevated levels in patients with ulcerative colitis and is implicated in the pathogenesis of ulcerative colitis (UC). Arginase 2 (ARG2) plays a critical role in spermidine production. This study aimed to determine the role and mechanism of endogenous spermidine by using ARG2-deficient mice. METHODS The protective role of spermidine against oxidative stress was examined by intracellular reactive oxygen species levels and cell viability. The physiological role of spermidine was investigated using Arg2 knockdown cells with reduced spermidine. The importance of ARG2 in inflammation was examined in the dextran sulfate sodium-induced colitis model. Protein expression levels of ARG2 and accumulation of spermidine in patients with UC were evaluated by immunohistochemistry of the rectum. RESULTS ARG2 protein expression and the accumulation of spermidine were upregulated in the rectum of mice with dextran sulfate sodium colitis. Spermidine upregulated antioxidant genes in the cells. Arg2 knockdown cells showed reduced antioxidant activity. Dextran sulfate sodium colitis was more severe in Arg2-deficient mice, and organoids derived from Arg2-deficient mice showed diminished tolerance to oxidative stress. Furthermore, in the rectum of patients with UC, ARG2 and spermidine expression levels were higher in the active phase than in the remission phase. CONCLUSIONS Endogenous spermidine in the intestinal epithelium induced by ARG2 has a protective role in colitis. Spermidine may be a promising new therapeutic target for inflammatory bowel disease.