Hypoxia is a common and prominent feature of the microenvironment at sites of bacteria-associated inflammation in inflammatory bowel disease. The prolyl-hydroxylases (PHD1/2/3) and the asparaginyl-hydroxylase factor-inhibiting HIF are oxygen-sensing enzymes that regulate adaptive responses to hypoxia through controlling the activity of HIF and NF-B–dependent transcriptional pathways. Previous studies have demonstrated that the pan-hydroxylase inhibitor dimethyloxalylglycine (DMOG) is effective in the alleviation of inflammation in preclinical models of inflammatory bowel disease, at least in part, through suppression of IL-1β–induced NF-B activity. TLR-dependent signaling in immune cells, such as monocytes, which is important in bacteria-driven inflammation, shares a signaling pathway with IL-1β. In studies into the effect of pharmacologic hydroxylase inhibition on TLR-induced inflammation in monocytes, we found that DMOG selectively triggers cell death in cultured THP-1 cells and primary human monocytes at concentrations well tolerated in other cell types. DMOG-induced apoptosis was independent of increased caspase-3/7 activity but was accompanied by reduced expression of the inhibitor of apoptosis protein 1 (cIAP1). Based on these data, we hypothesize that pharmacologic inhibition of the HIF-hydroxylases selectively targets monocytes for cell death and that this may contribute to the anti-inflammatory activity of HIF-hydroxylase inhibitors.
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