Background: IL-22 is a cytokine produced by a number of immune cell populations, including type 3 innate lymphoid cells. We have shown previously that IL-22 suppresses the expression Cyp3a11 in the mouse intestine, a gene that encodes a drug metabolizing. In addition, IL-22 reduces the expression of MRP2 and MDR1, the gene that encodes as Multidrug resistance protein 2 or 1 involve in the drug detoxification. Modulation of these proteins can influence the oral bioavailability of drugs. Aims: The aim of this study was to define the existence of reversible modulation of IL-22 on Cyp3a11, MRP2 and MDR1 expression and protein level or activity in the intestinal epithelium. Methods: In vitro enteroids of the mouse small intestine were cultured in 3D in the presence/absence of IL-22 for 5 days. Cyp3a11, MRP2 and MDR1 transcript expression was evaluated by qPCR followed by protein analysis to define their modulation and activity at varying timepoints after IL-22 treatment cessation. Results: IL-22 reduced the expression and activity of Cyp3a11 which normalized soon after stopping IL-22 treatment. This action of IL-22 are made without any modulation of protein level of Cyp3a11. In the same way, IL-22 reduces the expression and the protein level of MRP2 and MDR1, an effect normalizes after treatment cessation. Conclusions: IL-22 suppresses the expression and the activity of Cyp3a11 without any modulation of the protein level unlike at the level of MRP2 and MDR1 which are reduced. These data suggest that regulation of gene expression, protein or enzyme activity by IL-22 may have variable effects: Cyp3a11 is ATP-independent, whereas MRP2 and MDR1 are ATP-dependent. This direct or indirect enzymatic modulation of these proteins must be taken into account when assessing the role of the drug in the biology of the intestinal mucosa. Dr. Lloyd Sutherland Chair in IBD/GI Research/Weston Foundation. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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