Possible involvement of mast cells in collagen remodeling in the late phase of cutaneous wound healing in mice

We examined possible roles of mast cells in cutaneous wound healing using mast cell deficient (W/Wv) mice and their normal littermates (+/+). A round full-thickness wound was made on the back skin of these mice. The wounds closed completely within 20 days, and there was no difference in wound contraction between +/+ and W/Wv mice during the wound healing. While either chymase or tryptase activities were hardly detectable in W/Wv mice, chymase activities decreased at the impaired sites and recovered to the control level within 20 days in +/+ mice. Tryptase activities were higher than the control level on day 15 and day 20 in +/+ mice. Histological observations on day 15 and day 20 in +/+ mice revealed that mast cells were abundant at the wound edges but absent at the center. The latent and the active forms of MMP-2 and MMP-9 increased on day 10 and day 15 but recovered nearly to control levels on day 20 in both mice groups. The hydroxyproline contents in W/Wv mice were significantly higher than those in +/+ mice on day 15 and day 20. Furthermore, histological observations revealed that the collagen aggregation at the wound edges was tighter and less interwoven in W/Wv mice compared with +/+ mice. These results suggest that mast cells accumulated at the wound edge may participate in tissue remodeling in the late phase of wound healing.