MG53 通过调控 PI3K-AKT 信号通路抑制舌癌细胞的进展：来自 3D 细胞培养和动物模型的证据。

MG53 Inhibits the Progression of Tongue Cancer Cells through Regulating PI3K-AKT Signaling Pathway: Evidence from 3D Cell Culture and Animal Model.

机构信息

The State Key Laboratory Breeding Base of Basic Science of Stomatology (Hubei-MOST) & Key Laboratory of Oral Biomedicine Ministry of Education, School & Hospital of Stomatology, Wuhan University, Wuhan, 430079, China.

出版信息

Small. 2019 Feb;15(8):e1805492. doi: 10.1002/smll.201805492. Epub 2019 Jan 28.

DOI:10.1002/smll.201805492

PMID:30690890

Abstract

MG53 is transcriptionally activated by the IRS-1/PI3K/AKT signal pathway, which is closely related with oncogenesis of several tumors. Here, the role of MG53 in the tumorigenesis of tongue cancer is analyzed in vitro and in vivo. The stable MG53 overexpression/knockdown SCC9 and SCC25 cells are constructed through retrovirus infection. Then a PLGA cylinder is used to provide a 3D culture environment for cell growth. Cell counting results suggest that overexpression of MG53 inhibits the cell proliferation and colony formation of SCC9 and SCC25 cells. While knockdown of MG53 has the opposite effect. Furthermore, knockdown of MG53 significantly promotes the invasion of SCC9 and SCC25 cells. Western blotting data confirm that MG53 affects the expression of the AKT signaling pathway. In a xenograft assay, knockdown of MG53 promotes the growth of xenograft which is induced by SCC25 cells in nude mice. The findings demonstrate that MG53 affects the biological behavior of human tongue cancer SCC9 and SCC25 cells.

摘要

MG53 通过 IRS-1/PI3K/AKT 信号通路被转录激活，该通路与多种肿瘤的发生密切相关。本研究旨在体外和体内分析 MG53 在舌癌发生中的作用。通过逆转录病毒感染构建了稳定过表达/敲低 MG53 的 SCC9 和 SCC25 细胞，然后使用 PLGA 圆柱体为细胞生长提供 3D 培养环境。细胞计数结果表明，MG53 的过表达抑制了 SCC9 和 SCC25 细胞的增殖和集落形成。而敲低 MG53 则产生相反的效果。此外，敲低 MG53 显著促进了 SCC9 和 SCC25 细胞的侵袭。Western blotting 数据证实 MG53 影响 AKT 信号通路的表达。在异种移植实验中，敲低 MG53 促进了 SCC25 细胞在裸鼠中诱导的异种移植物的生长。这些发现表明 MG53 影响人舌癌细胞 SCC9 和 SCC25 的生物学行为。

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MG53 通过调控 PI3K-AKT 信号通路抑制舌癌细胞的进展：来自 3D 细胞培养和动物模型的证据。

MG53 Inhibits the Progression of Tongue Cancer Cells through Regulating PI3K-AKT Signaling Pathway: Evidence from 3D Cell Culture and Animal Model.

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