Ruyu Bian scite author profile

Objective Epidermal stem cells (EpSCs) can self-renew, which are responsible for the long-term maintenance of the skin, and it also plays a critical role in wound re-epithelization, but the mechanism underlying EpSCs proliferation is unclear. GDF-5, also known as BMP-14, is a member of the BMP family and can be used as a self-renewal supporter. Here, we studied the effects of GDF-5 on mouse EpSCs proliferation mechanism in wound healing. Methods Firstly, the effects of GDF-5 on EpSCs proliferation was tested by using CCK8 reagent and PCNA expression was analyzed by Western blotting. Secondly, we screened genes that promote EpSCs proliferation in the FOX and cyclin family by qPCR, and then the protein expression level of the selected genes was further analyzed by Western blotting. Thirdly, siRNA plasmids and pAdEasy adenovirus were transfected or infected, respectively, into mouse EpSCs to detect the effect of target genes on GDF-5-induced cell proliferation. Furthermore, we injected GDF-5 to a deep partial thickness burn mouse model for finding out whether EpSCs proliferation can be detected by immunohistochemical. Finally, the relevant target genes were analyzed by qPCR, immunoblotting, and dual-luciferase reporter gene detection. Results We discovered that 100 ng/ml recombinant mouse GDF-5 was the optimal concentration for promoting mouse EpSCs proliferation. Through preliminary screened by qPCR, we found that Foxg1 and cyclin D1 could be the downstream molecules of GDF-5, and the results were confirmed by Western blotting. And the effect of GDF-5 on mouse EpSCs proliferation was adjusted by Foxg1/cyclin D1 in vitro and in vivo. Besides, GDF-5-induced transcription of cyclin D1 was regulated by Foxg1-mediated cyclin D1 promoter activity. Conclusion This paper showed that GDF-5 promotes mouse EpSCs proliferation via Foxg1-cyclin D1 signal pathway. It is suggested that GDF-5 may be a new approach to make EpSCs proliferation which can be used in wound healing.

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(E)‑phenethyl 3‑(3,5‑dihydroxy‑4‑isopropylphenyl) acrylate gel improves DNFB-induced allergic contact hypersensitivity via regulating the balance of Th1/Th2/Th17/Treg cell subsets

Bian

Tang

et al. 2018

International Immunopharmacology

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GDF-5 promotes Epidermal Stem Cells proliferation via Foxg1-cyclin D1 signaling

Zhao

Bian²,

Wang³

et al. 2020

Preprint

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Objective: Epidermal stem cells (EpSCs) can self-renew and are responsible for the long-term maintenance of the skin, it also plays a critical role in wound re-epithelization, but the mechanism underlying EpSCs proliferation is unclear. Here, we studied the effects of GDF-5 on mouse EpSCs proliferation mechanism in wound healing. Methods: Firstly, the effects of GDF-5 on EpSCs proliferation was tested by using CCK8 reagent and PCNA expression was analysed by western blotting. Secondly, we screened genes that promote EpSCs proliferation in the FOX family and cyclin by qPCR, and further analysed the protein expression level of the selected genes by Western blotting. Thirdly, siRNA plasmids and pAdEasy adenovirus were transfected or infected, respectively, into mouse EpSCs to detect the effect of target genes on GDF-5 induced cell proliferation. Furthermore, a deep partial thickness burn mouse model was used in which GDF-5 induced EpSCs proliferation was detected by immunohistochemical. Finally, the relationships target genes were analysed by qPCR, immunoblotting and dual luciferase reporter gene detection. Results: We discovered that 100 ng/ml recombinant mouse GDF-5 was the optimal concentration for promoting mouse EpSCs proliferation. Through preliminary screening by qPCR, we found that Foxg1 and cyclin D1 could be the downstream molecules of GDF-5, and the results were confirmed by Western blotting. And the effect of GDF-5 on mouse EpSCs proliferation was regulated by Foxg1/cyclin D1 in vitro and in vivo. Besides, GDF-5 induced transcription of cyclin D1 was regulated by Foxg1-mediated cyclin D1 promoter activity.Conclusion: This paper showed that GDF-5 promotes mouse EpSCs proliferation via Foxg1-cyclin D1 signal pathway. It is suggested that GDF-5 may be a new approach to yield EpSCs for wound healing.

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Ruyu Bian

Arrayed microfluidic chip for detection of circulating tumor cells and evaluation of drug potency

GDF-5 promotes epidermal stem cells proliferation via Foxg1-cyclin D1 signaling

(E)‑phenethyl 3‑(3,5‑dihydroxy‑4‑isopropylphenyl) acrylate gel improves DNFB-induced allergic contact hypersensitivity via regulating the balance of Th1/Th2/Th17/Treg cell subsets

GDF-5 promotes Epidermal Stem Cells proliferation via Foxg1-cyclin D1 signaling

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