Endothelial FoxM1 Mediates Bone Marrow Progenitor Cell-Induced Vascular Repair and Resolution of Inflammation following Inflammatory Lung Injury

Autor:	You Yang Zhao, Fan Yi, Khiem Tran, Chinnaswamy Tiruppathi, Zhijian Qian, Zhiyu Dai, Xiaojia Huang, Yidan D. Zhao
Rok vydání:	2014
Předmět:	Lipopolysaccharides Male Transcriptional Activation Cell Vascular permeability Inflammation Lung injury Biology Mesenchymal Stem Cell Transplantation Article Capillary Permeability medicine Animals Regeneration Lung Mice Knockout Respiratory Distress Syndrome Forkhead Box Protein M1 Mesenchymal stem cell Forkhead Transcription Factors Mesenchymal Stem Cells Cell Biology Mice Inbred C57BL Endothelial stem cell medicine.anatomical_structure Immunology Cancer research Molecular Medicine Female Endothelium Vascular medicine.symptom Developmental Biology Adult stem cell
Zdroj:	Stem Cells. 32:1855-1864
ISSN:	1549-4918 1066-5099
Popis:	Adult stem cell treatment is a potential novel therapeutic approach for acute respiratory distress syndrome. Given the extremely low rate of cell engraftment, it is believed that these cells exert their beneficial effects via paracrine mechanisms. However, the endogenous mediator(s) in the pulmonary vasculature remains unclear. Using the mouse model with endothelial cell (EC)-restricted disruption of FoxM1 (FoxM1 CKO), here we show that endothelial expression of the reparative transcriptional factor FoxM1 is required for the protective effects of bone marrow progenitor cells (BMPC) against LPS-induced inflammatory lung injury and mortality. BMPC treatment resulted in rapid induction of FoxM1 expression in wild type (WT) but not FoxM1 CKO lungs. BMPC-induced inhibition of lung vascular injury, resolution of lung inflammation, and survival, as seen in WT mice, were abrogated in FoxM1 CKO mice following LPS challenge. Mechanistically, BMPC treatment failed to induce lung EC proliferation in FoxM1 CKO mice, which was associated with impaired expression of FoxM1 target genes essential for cell cycle progression. We also observed that BMPC treatment enhanced endothelial barrier function in WT but not in FoxM1-deficient EC monolayers. Restoration of β-catenin expression in FoxM1-deficient ECs normalized endothelial barrier enhancement in response to BMPC treatment. These data demonstrate the requisite role of endothelial FoxM1 in the mechanism of BMPC-induced vascular repair to restore vascular integrity and accelerate resolution of inflammation, thereby promoting survival following inflammatory lung injury. Stem Cells 2014;32:1855–1864
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::7c56f41bd1f6501417594f36729b2461 https://doi.org/10.1002/stem.1690 Zobrazit plný text záznamu Plný text