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Metrnl deficiency retards skin wound healing in mice by inhibiting AKT/eNOS signaling and angiogenesis

Tian-ying Xu1,2, Sheng-li Qing1, Jing-xin Zhao1, Jie Song1, Zhu-wei Miao1, Jia-xin Li1, Feng-yan Yang2, Huan-yu Zhao1, Si-li Zheng1, Zhi-yong Li1, Shu-na Wang1, Chao-yu Miao1
1 Department of Pharmacology, Second Military Medical University/Naval Medical University, Shanghai 200433, China
2 Department of Anesthetic Pharmacology, School of Anesthesiology, Second Military Medical University/Naval Medical University, Shanghai 200433, China
Correspondence to: Tian-ying Xu: xty7910@163.com, Chao-yu Miao: cymiao@smmu.edu.cn,
DOI: 10.1038/s41401-023-01090-x
Received: 24 October 2022
Accepted: 5 April 2023
Advance online: 4 May 2023

Abstract

Meteorin-like (Metrnl) is a novel secreted protein with various biological activities. In this study, we investigated whether and how Metrnl regulated skin wound healing in mice. Global Metrnl gene knockout mice (Metrnl−/−) and endothelial cell-specific Metrnl gene knockout mice (EC-Metrnl−/−) were generated. Eight-mm-diameter full-thickness excisional wound was made on the dorsum of each mouse. The skin wounds were photographed and analyzed. In C57BL/6 mice, we observed that Metrnl expression levels were markedly increased in skin wound tissues. We found that both global and endothelial cell-specific Metrnl gene knockout significantly retarded mouse skin wound healing, and endothelial Metrnl was the key factor affecting wound healing and angiogenesis. The proliferation, migration and tube formation ability of primary human umbilical vein endothelial cells (HUVECs) were inhibited by Metrnl knockdown, but significantly promoted by addition of recombinant Metrnl (10 ng/mL). Metrnl knockdown abolished the proliferation of endothelial cells stimulated by recombinant VEGFA (10 ng/mL) but not by recombinant bFGF (10 ng/mL). We further revealed that Metrnl deficiency impaired VEGFA downstream AKT/eNOS activation in vitro and in vivo. The damaged angiogenetic activity in Metrnl knockdown HUVECs was partly rescued by addition of AKT activator SC79 (10 μM). In conclusion, Metrnl deficiency retards skin wound healing in mice, which is related to impaired endothelial Metrnl-mediated angiogenesis. Metrnl deficiency impairs angiogenesis by inhibiting AKT/eNOS signaling pathway.

Keywords: Metrnl; wound healing; angiogenesis; VEGFA; AKT/eNOS; HUVECs

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