Keratinocyte-Macrophage Crosstalk by the Nrf2/Ccl2/EGF Signaling Axis Orchestrates Tissue Repair

Keratinocyte-Macrophage Crosstalk by the Nrf2/Ccl2/EGF Signaling Axis Orchestrates Tissue Repair

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...

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Veröffentlicht in:Cell reports (Cambridge) 2020-11, Vol.33 (8), p.108417-108417, Article 108417
Hauptverfasser: 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.
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Sprache:eng
Schlagworte:
Animals
Ccl2
diabetes
Diabetes Mellitus, Experimental - physiopathology
Epidermal Growth Factor - metabolism
Humans
inflammation
keratinocytes
Keratinocytes - metabolism
macrophages
Macrophages - metabolism
Mice
NF-E2-Related Factor 2 - metabolism
Nrf2
paracrine signaling
Signal Transduction
skin
stem cells
Tissue Engineering - methods
wound healing
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container_end_page 108417
container_issue 8
container_start_page 108417
container_title Cell reports (Cambridge)
container_volume 33
creator 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.
description 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. [Display omitted] •Epidermal Nrf2 initiates a regenerative response through Ccl2 regulation•Ccl2 release by basal stem/progenitor keratinocytes prompts macrophage trafficking•Ccl2 regulates EGF production in macrophages trafficked to the injury site•EGF from macrophages stimulates basal keratinocyte proliferation Villarreal-Ponce et al. show that diabetic wounds fail to activate Nrf2 in keratinocytes, which functions in promoting an early regenerative response in basal keratinocytes by mediating macrophage trafficking through release of Ccl2. Keratinocyte-derived Ccl2 promotes macrophage production of EGF to induce keratinocyte proliferation to promote wound repair.
doi_str_mv 10.1016/j.celrep.2020.108417
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subjects Animals
Ccl2
diabetes
Diabetes Mellitus, Experimental - physiopathology
Epidermal Growth Factor - metabolism
Humans
inflammation
keratinocytes
Keratinocytes - metabolism
macrophages
Macrophages - metabolism
Mice
NF-E2-Related Factor 2 - metabolism
Nrf2
paracrine signaling
Signal Transduction
skin
stem cells
Tissue Engineering - methods
wound healing
title Keratinocyte-Macrophage Crosstalk by the Nrf2/Ccl2/EGF Signaling Axis Orchestrates Tissue Repair
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