Umbilical Cord Mesenchymal Stem Cells for Inhibiting the Fibrosis and Autoimmune Development in HOCl-Induced Systemic Scleroderma Mouse Model

Systemic scleroderma (SSc) is a rare and serious connective tissue disease, an autoimmune disease, and a rare refractory disease. In this study, preventive effect of single systemic human umbilical cord mesenchymal stem cells (UC-MSCs) transfusion on SSc was preliminarily explored. SSc mouse model w...

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Published in:International journal of stem cells 2021-08, Vol.14 (3), p.262-274
Main Authors: Jin, Xin, Hou, Jiali, Zheng, Ke, Wei, Dan, Zhang, Ali, Wang, Siqi, Mei, Hua, Li, Chuang, Cheng, Lamei, Sun, Xuan
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container_issue 3
container_start_page 262
container_title International journal of stem cells
container_volume 14
creator Jin, Xin
Hou, Jiali
Zheng, Ke
Wei, Dan
Zhang, Ali
Wang, Siqi
Mei, Hua
Li, Chuang
Cheng, Lamei
Sun, Xuan
description Systemic scleroderma (SSc) is a rare and serious connective tissue disease, an autoimmune disease, and a rare refractory disease. In this study, preventive effect of single systemic human umbilical cord mesenchymal stem cells (UC-MSCs) transfusion on SSc was preliminarily explored. SSc mouse model was established by daily intradermal injection of Hypochlorite (HOCl). SSc mice were treated by single transfusion of UC-MSCs at 0.625×10 , 2.5×10 and 1×10 respectively. At the 42nd day of intradermal injection of HOCl, the symptoms showed up by skin and alveolar wall thickening, lymphocytic infiltration, increased collagen in skin/lung, and the increased proportion of CD3 CD4 CD25 FoxP3 cells (a Treg subset) in spleen. After UC-MSCs transfusion, the degree of skin thickening, alveolar wall thickening and lymphocyte infiltration were decreased, the collagen sedimentation in skin/lung was decreased, and the proportion of CD3 CD4 CD25 FoxP3 cells was decreased. UC-MSC can achieve a preventive effect in SSc mice by fibrosis attenuation and immunoregulation.
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title Umbilical Cord Mesenchymal Stem Cells for Inhibiting the Fibrosis and Autoimmune Development in HOCl-Induced Systemic Scleroderma Mouse Model
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