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Iba, Tomohiro ; Naito, Hisamichi ; Shimizu, Shota ; Rahmawati, Fitriana Nur ; Wakabayashi, Taku ; Takakura, Nobuyuki ; 内藤, 尚道 ; 高倉, 伸幸
概要:
Background: During sprouting angiogenesis, stalk cells, localized behind tip cells, generate endothelial cells (ECs) for
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the elongation of new vessels. We hypothesized that stalk cells may have endothelial progenitor cell properties because of their highly proliferative ability. We conducted Hoechst dye DNA staining in ECs of preexisting blood vessels from hind limb muscle and found that endothelial-side population (E-SP) cells, which efflux Hoechst rapidly with abundant ABC transporters, show highly producing ability of ECs. We previously showed the existence of E-SP cells in hind limb muscle, retina, and liver, but not in other tissues such as adipose tissue, skin, and placenta. Methods: We investigated the existence of E-SP cells and analyzed their proliferative ability among CD31+CD45- ECs from adipose tissue, skin, and placenta of adult mice. We also analyzed the neovascular formation of E-SP cells from adipose tissue in vivo. Results: We detected E-SP cells in all tissues examined. However, by in vitro colony formation analysis on OP9 cells, we found that E-SP cells from adipose tissue and skin, but not from placenta, have highly proliferative ability. Moreover, E-SP cells from adipose tissue could contribute to the neovascular formation in hind limb ischemia model. Conclusion: The adipose tissue and skin are available sources to obtain endothelial stem cells for conducting therapeutic angiogenesis in regenerative medicine. © 2019 The Author(s).
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Nasti, Alessandro ; Sakai, Yoshio ; Seki, Akihiro ; Buffa, Geraldine Belen ; Komura, Takuya ; Mochida, Hatsune ; Yamato, Masatoshi ; Yoshida, Keiko ; Ho, Tuyen T. B. ; Takamura, Masayuki ; Usui, Soichiro ; Wada, Takashi ; Honda, Masao ; Kaneko, Shuichi ; 酒井, 佳夫 ; 餅田, 初音 ; 吉田, 佳子 ; 高村, 雅之 ; 薄井, 荘一郎 ; 和田, 隆志 ; 本多, 政夫 ; 金子, 周一
概要:
金沢大学医薬保健研究域医学系<br />Stromal cells in adipose tissue are useful for repair/regenerative therapy as they harbor a substant
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ial number of mesenchymal stem cells; therefore, freshly isolated autologous uncultured adipose tissue derived stromal cells (u-ADSCs) are useful for regenerative therapy, and obviate the need for mesenchymal stem cells. We evaluated the therapeutic effect of murine u-ADSCs and sorted subsets of u-ADSCs in a concanavalin A (ConA) induced murine model of hepatitis, as well as their characteristics. We found that 10–20% of u-ADSCs expressed the CD45 leukocyte-related antigen. CD68, which is a marker of macrophages (MΦs), was expressed by 50% of CD45+ u-ADSCs. About 90% of CD68+CD45+ cells expressed CD206 antigen, which is a marker of inhibitory M2-type MΦs. Genes related to M2-type MUs were especially more highly expressed by CD45+CD206+ u-ADSCs than by CD45− u-ADSCs. CD45+ u-ADSCs inhibited the expression of cytokines/chemokines and suppressed the proliferation of splenocytes stimulated with ConA. We observed that not only whole u-ADSCs, but also the CD45+ subset of u-ADSCs ameliorated the ConA-induced hepatitis in mice. In conclusion, we show that freshly isolated murine u-ADSCs were effective against acute hepatitis, and CD45+ u-ADSCs acting phenotypically and functionally like M2-type MΦs, contributed to the repair of liver tissue undergoing inflammation. © 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim<br />Embargo Period 12 months
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Sakai, Yoshio ; Kaneko, Shuichi
概要:
A severely malfunctioning liver, due to acute liver injury or chronic liver disease, can lead to hepatic failure. The ul
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timate treatment for hepatic failure is liver transplantation; however, the availability of donors is a critical issue. Therefore, regenerative therapy is an anticipated novel approach for restoring liver function. Mesenchymal stem cells are pluripotent somatic cells that can differentiate into several cell types, including hepatocytes. Moreover, they are obtainable from easily accessible autologous adipose tissue, making them ideal for regenerative therapy. This chapter describes experimental methods for isolating mesenchymal stem cells from murine adipose tissues and expanding them, and also describes murine chronic liver disease, steatohepatitis, for the study of experimental regenerative treatments of chronic liver disease. © 2012 Springer Science+Business Media, LLC.
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