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Cevallos SA, Lee JY, Velazquez EM, Foegeding NJ, Shelton CD, Tiffany CR, Parry BH, Stull-Lane AR, Olsan EE, Savage HP, Nguyen H, Ghanaat SS, Byndloss AJ, Agu IO, Tsolis RM, Byndloss MX, Bäumler AJ. 5-Aminosalicylic Acid Ameliorates Colitis and Checks Dysbiotic Escherichia coli Expansion by Activating PPAR-γ Signaling in the Intestinal Epithelium. MBio. 2021 Dec 19;12(12).
Abstract
5-Aminosalicylic acid (5-ASA), a peroxisome proliferator-activated receptor gamma (PPAR-γ) agonist, is a widely used first-line medication for the treatment of ulcerative colitis, but its anti-inflammatory mechanism is not fully resolved. Here, we show that 5-ASA ameliorates colitis in dextran sulfate sodium (DSS)-treated mice by activating PPAR-γ signaling in the intestinal epithelium. DSS-induced colitis was associated with a loss of epithelial hypoxia and a respiration-dependent luminal expansion of , which could be ameliorated by treatment with 5-ASA. However, 5-ASA was no longer able to reduce inflammation, restore epithelial hypoxia, or blunt an expansion of in DSS-treated mice that lacked expression specifically in the intestinal epithelium. These data suggest that the anti-inflammatory activity of 5-ASA requires activation of epithelial PPAR-γ signaling, thus pointing to the intestinal epithelium as a potential target for therapeutic intervention in ulcerative colitis. An expansion of in the fecal microbiota is a microbial signature of dysbiosis that is linked to many noncommunicable diseases, including ulcerative colitis. Here, we used , a representative of the , to show that its dysbiotic expansion during colitis can be remediated by modulating host epithelial metabolism. Dextran sulfate sodium (DSS)-induced colitis reduced mitochondrial activity in the colonic epithelium, thereby increasing the amount of oxygen available to fuel an expansion through aerobic respiration. Activation of epithelial peroxisome proliferator-activated receptor gamma (PPAR-γ) signaling with 5-aminosalicylic acid (5-ASA) was sufficient to restore mitochondrial activity and blunt a dysbiotic expansion. These data identify the host's epithelial metabolism as a potential treatment target to remediate microbial signatures of dysbiosis, such as a dysbiotic expansion in the fecal microbiota.