Interleukin-33 encourages scar formation in murine fetal skin wounds.

The magnitude of the inflammatory response after skin injury is important for determining whether wounds in developing fetal skin will heal scarlessly (minimal inflammation) or with prominent scars (robust inflammation). One class of inflammatory mediators gaining attention for their role in wound inflammation is alarmins. In the current study, the alarmin interleukin-33 (IL-33) was examined in a mouse model of fetal wound healing. IL-33 expression was elevated in scar-forming embryonic day 18 wounds compared to scarless embryonic day 15 wounds. Furthermore, injection of IL-33 into embryonic day 15 wounds caused scarring when wounds were analyzed at 7 days postwounding. The introduction of IL-33 into embryonic day 15 wounds did not induce statistically significant changes in the number of neutrophils, mast cells, or macrophages in vivo. However, IL-33 treatment enhanced collagen expression in cultured fibroblasts derived from adult and fetal murine skin, suggesting that IL-33 may directly stimulate fibroblasts. In vitro studies suggested that the stimulation of collagen production by IL-33 in fibroblasts was partially dependent on NF-κB activation. Overall, the data suggest an association between IL-33 and scar formation in fetal wounds.