Systems genetics identifies a macrophage cholesterol network associated with physiological wound healing
Marta Bagnati, Aida Moreno-Moral, Jeong-Hun Ko, Jérôme Nicod, Nathan Harmston, Martha Imprialou, Laurence Game, Jesus Gil, Enrico Petretto, Jacques Behmoaras
Marta Bagnati, Aida Moreno-Moral, Jeong-Hun Ko, Jérôme Nicod, Nathan Harmston, Martha Imprialou, Laurence Game, Jesus Gil, Enrico Petretto, Jacques Behmoaras
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Research Article Dermatology Inflammation

Systems genetics identifies a macrophage cholesterol network associated with physiological wound healing

Abstract

Among other cells, macrophages regulate the inflammatory and reparative phases during wound healing but genetic determinants and detailed molecular pathways that modulate these processes are not fully elucidated. Here, we took advantage of normal variation in wound healing in 1,378 genetically outbred mice, and carried out macrophage RNA-sequencing profiling of mice with extreme wound healing phenotypes (i.e., slow and fast healers, n = 146 in total). The resulting macrophage coexpression networks were genetically mapped and led to the identification of a unique module under strong trans-acting genetic control by the Runx2 locus. This macrophage-mediated healing network was specifically enriched for cholesterol and fatty acid biosynthetic processes. Pharmacological blockage of fatty acid synthesis with cerulenin resulted in delayed wound healing in vivo, and increased macrophage infiltration in the wounded skin, suggesting the persistence of an unresolved inflammation. We show how naturally occurring sequence variation controls transcriptional networks in macrophages, which in turn regulate specific metabolic pathways that could be targeted in wound healing.

Authors

Marta Bagnati, Aida Moreno-Moral, Jeong-Hun Ko, Jérôme Nicod, Nathan Harmston, Martha Imprialou, Laurence Game, Jesus Gil, Enrico Petretto, Jacques Behmoaras

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Figure 4

FASN inhibition with cerulenin affects wound healing in the skin.

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FASN inhibition with cerulenin affects wound healing in the skin. (A) Ex...
(A) Experimental design. Full-thickness, 10-mm splinted excisional wounds were performed on the dorsal skin of 13-week-old Lewis (LEW) rats. Wounds were treated with 300 μg of cerulenin in propylene glycol at 0, 3, and 6 days after the excision or with propylene glycol alone (vehicle). Tissues were collected 8 days following wounding. (B) Representative images of wounds immediately following surgery (day 0) and after 3, 6, and 8 days for control and cerulenin-treated rats. (C) Quantification of wound area at days 0, 3, 6, and 8 after wounding. Values are expressed as the healing ratio in comparison to day 0 and are represented as mean ± SEM (n = 6 controls and n = 8 cerulenin treated). (D) Representative image of H&E-stained wounds 8 days after wounding in control and cerulenin-treated rats. Black arrows indicate the edges of granulation tissue. (E) Representative CD68 (rat ED-1) immunohistochemistry within the wound edges in control and cerulenin-treated rats. (F) CD68 staining showing the center of the granulation tissue. (G) Quantification of CD68+ cells per high-power field (HPF, ×20) in control and cerulenin-treated wounds. Data are expressed as mean ± SEM (n = 5 controls and n = 8 cerulenin treated. Scale bars: 1,000 μm (D and E) and 100 μm (F). *P < 0.05 by 2-tailed Student’s t test.