胶质1
真皮
血管生成
川地31
角质形成细胞
音猬因子
细胞生物学
表皮(动物学)
化学
新生血管
刺猬信号通路
体外
生物
解剖
癌症研究
信号转导
生物化学
作者
Xinling Zhang,Yujie Chen,Pengbing Ding,Zhiyu Lin,Zhixuan Sun,Mengying Jin,Chong Li,Zhenmin Zhao,Hongsen Bi
摘要
Abstract To investigate the role of GLI1 on skin proliferation and neovascularization during skin expansion in mice. We constructed GLI1‐cre/R26‐Tdtomato and GLI1‐cre/R26‐mtmg gene‐tagged skin expansion mouse models. Using a two‐photon in vivo imaging instrument to observe the changes in the number and distribution of GLI1(+) cells during the expansion process and to clarify the spatial relationship between GLI1(+) cells and blood vessels during the expansion process. In vitro proliferation assays were performed to further validate the effects of SHH (sonic hedgehog) and its downstream component GLI1 on cell proliferation viability. Finally, qRT‐PCR was used to verify the changes in proliferation, angiogenesis‐related factors, SHH signalling pathway‐related factors, and the role of GLI1 cells in the process of skin expansion in mice. The number of GLI1(+) cells increased during dilation and were attached to the outer membrane of the vessel. The epidermis was thickened and the dermis thinned after the dilated skin was taken, while the epidermal thickening was suppressed and the dermis became thinner after the GLI1 cells were inhibited. The non‐inhibited group showed a significant increase in PCNA positivity with prolonged dilation compared to the GANT61(GLI specificity inhibitor) inhibited group; CD31 immunofluorescence showed a significant increase in the number of dilated skin vessels and a significant decrease in the number of vessels after treatment with GANT61 inhibitor. In vitro proliferation results showed that SHH signalling activator significantly increased the proliferation viability of GLI1(+) hair follicle mesenchymal stem cells, while GNAT61 significantly inhibited the proliferation viability of GLI1(+) hair follicle mesenchymal stem cells. GLI1 is necessary for proliferation and neovascularization in expansion skin of mice through activation of the SHH signalling pathway.
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