Abstract
Immune cells of the myeloid lineage are key players in skin wound healing, since they secrete various cytokines and growth factors that orchestrate the repair process. In addition, they are crucial for the defense against invading pathogens through their capacity to produce high levels of reactive oxygen species (ROS). To limit the toxicity of ROS, cells have developed antioxidant defense strategies, including expression of the cytoprotective NRF2 transcription factor. Here we show that murine neutrophils and to a lesser extent macrophages strongly express Nrf2 already when present in the circulation and in particular at the wound site. To determine the role of Nrf2 in neutrophils and macrophages for wound repair, we generated mice with a gain- or loss-of-function of this transcription factor in the myeloid cell lineage. Expression of a constitutively active Nrf2 mutant in myeloid cells did not further enhance the overall Nrf2 activity in these cells due to the already high steady-state activity of endogenous Nrf2. Surprisingly, deletion of Nrf2 in myeloid cells only mildly affected the levels of ROS and the expression of pro-inflammatory cytokines by these cells. In particular, various parameters of wound healing, including wound closure, reepithelialization, wound contraction and the presence of myeloid cells at the wound site were not affected. These results reveal that Nrf2 in myeloid cells is dispensable for wound healing and suggest the presence of additional antioxidant defense strategies of these cells that compensate for the loss of Nrf2, even in the harsh environment of skin wounds.
Highlights
Wounding of the skin initiates a complex repair process that encompasses several temporally overlapping and highly coordinated events, including blood clotting, inflammation, new tissue formation and extensive tissue remodeling
Nrf2 is strongly expressed in neutrophils in the circulation and in the wound tissue
Nrf2 mRNA levels were extremely high in neutrophils of the wound tissue and of the blood and more than 10-fold higher compared to monocytes, Nrf2, myeloid cells and wound healing macrophages or non-myeloid cells (Fig 1A and 1B)
Summary
Wounding of the skin initiates a complex repair process that encompasses several temporally overlapping and highly coordinated events, including blood clotting, inflammation, new tissue formation and extensive tissue remodeling. These processes involve interaction among different cell types, including skin resident cells like keratinocytes, fibroblasts and endothelial cells, as well as infiltrating immune cells [1, 2]. Myeloid cells and wound healing cancer, frequently suffer from impaired healing [2]. There is a strong need to improve the healing process and this requires a thorough understanding of the underlying cellular and molecular mechanims
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