- Villarreal-Ponce, Alvaro;
- Tiruneh, Melat Worku;
- Lee, Jasmine;
- Guerrero-Juarez, Christian F;
- Kuhn, Joseph;
- David, Joshua A;
- Dammeyer, Kristen;
- Mc Kell, Renee;
- Kwong, Jennifer;
- Rabbani, Piul S;
- Nie, Qing;
- Ceradini, Daniel J
Unveiling the molecular mechanisms underlying tissue regeneration provides new opportunities to develop treatments for diabetic ulcers and other chronic skin lesions. Here, we show that Ccl2 secretion by epidermal keratinocytes is directly orchestrated by Nrf2, a prominent transcriptional regulator of tissue regeneration that is activated early after cutaneous injury. Through a unique feedback mechanism, we find that Ccl2 from epidermal keratinocytes not only drives chemotaxis of macrophages into the wound but also triggers macrophage expression of EGF, which in turn activates basal epidermal keratinocyte proliferation. Notably, we find dysfunctional activation of Nrf2 in epidermal keratinocytes of diabetic mice after wounding, which partly explains regenerative impairments associated with diabetes. These findings provide mechanistic insight into the critical relationship between keratinocyte and macrophage signaling during tissue repair, providing the basis for continued investigation of the therapeutic value of Nrf2.