Novel 14S,21‐dihydroxy‐docosahexaenoic acid rescues wound healing and associated angiogenesis impaired by acute ethanol intoxication/exposure

Acute ethanol intoxication and exposure (AE) has been known to impair wound healing and associated angiogenesis. Here, we found that AE diminished the formation of novel reparative lipid mediator 14S,21‐dihydroxy‐docosa‐4Z,7Z,10Z,12E,16Z,19Z‐hexaenoic acid (14S,21‐diHDHA) and its biosynthetic intermediate 14S‐hydroxy‐DHA (14S‐HDHA) from docosahexaenoic acid (DHA) in murine wounds. However, AE did not reduce the formation of DHA and the intermediate 21‐HDHA. These results indicate that in the biosynthetic pathways of 14S,21‐diHDHA in wounds, AE suppresses the 14S‐hydroxy‐generating activity of 12‐lipoxygenase‐like (LOX‐like), but does not suppress the 21‐hydroxy‐generating activity of cytochrome P450 and DHA‐generating activities. The AE‐suppression of 12‐LOX‐like activity was further confirmed by the diminished formation of 12‐hydroxy‐eicosatetraenoic acid in wounds under AE. Supplementing 14S,21‐diHDHA to wounds rescued the AE‐impaired healing and vascularization. 14S,21‐diHDHA restored AE‐impaired processes of angiogenesis in vitro: endothelial cell migration, tubulogenesis, and phosphorylation of p38 mitogen‐activated protein kinase (MAPK). Taken together, the suppression of 14S,21‐diHDHA formation is responsible, at least partially, for the AE‐impairment of cutaneous wound healing and angiogenesis. Supplementing 14S,21‐diHDHA to compensate its deficit in AE‐impaired wounds rescues the healing and angiogenesis. These results provide a novel mechanistic insight for AE‐impaired wound healing that involves the necessary roles of 14S,21‐diHDHA. They also offer leads for developing 14S,21‐diHDHA‐related therapeutics to ameliorate AE‐impairment of wound healing. J. Cell. Biochem. 111: 266–273, 2010. © 2010 Wiley‐Liss, Inc.