Down-Regulation of miR-301a-3p Reduces Burn-Induced Vascular Endothelial Apoptosis by potentiating hMSC-Secreted IGF-1 and PI3K/Akt/FOXO3a Pathway
Lingying Liu,
Huinan Yin,
Xingxia Hao,
Huifeng Song,
Jiake Chai,
Hongjie Duan,
Yang Chang,
Longlong Yang,
Yushou Wu,
Shaofang Han,
Xiaoteng Wang,
Xiaotong Yue,
Yunfei Chi,
Wei Liu,
Qiong Wang,
Hongyu Wang,
Hailiang Bai,
Xiuxiu Shi,
Shaozeng Li
Affiliations
Lingying Liu
Nutrition Department, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China; Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China; College of Basic Medicine, the Inner Mongolia Medical University, Hohhot, 010110, Inner Mongolia, China
Huinan Yin
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Xingxia Hao
College of Basic Medicine, the Inner Mongolia Medical University, Hohhot, 010110, Inner Mongolia, China
Huifeng Song
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Jiake Chai
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China; Corresponding author
Hongjie Duan
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Yang Chang
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Longlong Yang
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Yushou Wu
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Shaofang Han
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Xiaoteng Wang
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Xiaotong Yue
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Yunfei Chi
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Wei Liu
Burns Institute of PLA, Department of Burn & Plastic Surgery, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Qiong Wang
Department of Burn Surgery, the Third Affiliated Hospital of Inner Mongolia Medical University (Inner Mongolia BaoGang Hospital), Baotou 014010, Inner Mongolia, China
Hongyu Wang
Department of Burn Surgery, the Third Affiliated Hospital of Inner Mongolia Medical University (Inner Mongolia BaoGang Hospital), Baotou 014010, Inner Mongolia, China
Hailiang Bai
Department of Plastic Surgery, The Second Hospital, Shanxi Medical University, Taiyuan 030001, Shanxi Province, China
Xiuxiu Shi
Department of Orthopedic Rehabilitation, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing, 100037, China
Shaozeng Li
Department of Clinical Laboratory, the Fourth Medical Center Affiliated to PLA General Hospital, Beijing 100037, China
Summary: Vascular endothelium dysfunction plays a pivotal role in the initiation and progression of multiple organ dysfunction. The mesenchymal stem cell (MSC) maintains vascular endothelial barrier survival via secreting bioactive factors. However, the mechanism of human umbilical cord MSC (hMSC) in protecting endothelial survival remains unclear. Here, we found IGF-1 secreted by hMSC suppressed severe burn-induced apoptosis of human umbilical vein endothelial cells (HUVECs) and alleviated the dysfunction of vascular endothelial barrier and multiple organs in severely burned rats. Severe burn repressed miR-301a-3p expression, which directly regulated IGF-1 synthesis and secretion in hMSC. Down-regulation of miR-301a-3p decreased HUVECs apoptosis, stabilized endothelial barrier permeability, and subsequently protected against multiple organ dysfunction in vivo. Additionally, miR-301a-3p negatively regulated PI3K/Akt/FOXO3 signaling through IGF-1. Taken together, our study highlights the protective function of IGF-1 against the dysfunction of multiple organs negatively regulated by miR-301a-3p, which may provide the theoretical foundation for further clinical application of hMSC.
