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Inhibition of radiation-induced glioblastoma invasion by genetic and pharmacological targeting of MDA-9/Syntenin.通过对MDA-9/ syntenin进行基因和药物靶向抑制辐射诱导的胶质母细胞瘤侵袭
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Autophagy Induction Results in Enhanced Anoikis Resistance in Models of Peritoneal Disease.自噬诱导可增强腹膜疾病模型中对失巢凋亡的抗性。
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Novel function of MDA-9/Syntenin (SDCBP) as a regulator of survival and stemness in glioma stem cells.MDA-9/连环蛋白(SDCBP)作为胶质瘤干细胞存活和干性调节因子的新功能。
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Evolving Strategies for Therapeutically Targeting Cancer Stem Cells.不断发展的癌症干细胞治疗靶点策略。
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Tyrosine kinase receptor EGFR regulates the switch in cancer cells between cell survival and cell death induced by autophagy in hypoxia.酪氨酸激酶受体表皮生长因子受体(EGFR)调节癌细胞在缺氧状态下自噬诱导的细胞存活与细胞死亡之间的转换。
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MDA-9/Syntenin 调控抗失巢凋亡胶质瘤干细胞中的保护性自噬。

MDA-9/Syntenin regulates protective autophagy in anoikis-resistant glioma stem cells.

机构信息

Department of Human and Molecular Genetics, School of Medicine, Virginia Commonwealth University, Richmond, VA 23298.

VCU Institute of Molecular Medicine, School of Medicine, Virginia Commonwealth University, Richmond, VA 23298.

出版信息

Proc Natl Acad Sci U S A. 2018 May 29;115(22):5768-5773. doi: 10.1073/pnas.1721650115. Epub 2018 May 14.

DOI:10.1073/pnas.1721650115
PMID:29760085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5984507/
Abstract

Glioma stem cells (GSCs) comprise a small subpopulation of glioblastoma multiforme cells that contribute to therapy resistance, poor prognosis, and tumor recurrence. Protective autophagy promotes resistance of GSCs to anoikis, a form of programmed cell death occurring when anchorage-dependent cells detach from the extracellular matrix. In nonadherent conditions, GSCs display protective autophagy and anoikis-resistance, which correlates with expression of melanoma differentiation associated gene-9/Syntenin (MDA-9) (syndecan binding protein; SDCBP). When MDA-9 is suppressed, GSCs undergo autophagic death supporting the hypothesis that MDA-9 regulates protective autophagy in GSCs under anoikis conditions. MDA-9 maintains protective autophagy through phosphorylation of BCL2 and by suppressing high levels of autophagy through EGFR signaling. MDA-9 promotes these changes by modifying FAK and PKC signaling. Gain-of-function and loss-of-function genetic approaches demonstrate that MDA-9 regulates pEGFR and pBCL2 expression through FAK and pPKC. EGFR signaling inhibits autophagy markers (ATG5, Lamp1, LC3B), helping to maintain protective autophagy, and along with pBCL2 maintain survival of GSCs. In the absence of MDA-9, this protective mechanism is deregulated; EGFR no longer maintains protective autophagy, leading to highly elevated and sustained levels of autophagy and consequently decreased cell survival. In addition, pBCL2 is down-regulated in the absence of MDA-9, leading to cell death in GSCs under conditions of anoikis. Our studies confirm a functional link between MDA-9 expression and protective autophagy in GSCs and show that inhibition of MDA-9 reverses protective autophagy and induces anoikis and cell death in GSCs.

摘要

神经胶质瘤干细胞(GSCs)构成多形性胶质母细胞瘤细胞的一小部分亚群,有助于治疗耐药性、预后不良和肿瘤复发。保护性自噬促进 GSCs 对凋亡的抵抗,凋亡是锚定依赖性细胞从细胞外基质脱离时发生的一种程序性细胞死亡形式。在非贴壁条件下,GSCs 表现出保护性自噬和抗凋亡,这与黑色素瘤分化相关基因 9/衔接蛋白(MDA-9)(连接蛋白结合蛋白;SDCBP)的表达相关。当 MDA-9 被抑制时,GSCs 会发生自噬性死亡,这支持了 MDA-9 在凋亡条件下调节 GSCs 中保护性自噬的假说。MDA-9 通过 BCL2 的磷酸化和通过 EGFR 信号抑制高水平的自噬来维持保护性自噬。MDA-9 通过修饰 FAK 和 PKC 信号来促进这些变化。功能获得和功能丧失遗传方法表明,MDA-9 通过 FAK 和 pPKC 调节 pEGFR 和 pBCL2 的表达。EGFR 信号抑制自噬标记物(ATG5、Lamp1、LC3B),有助于维持保护性自噬,并与 pBCL2 一起维持 GSCs 的存活。在 MDA-9 缺失的情况下,这种保护机制被失调;EGFR 不再维持保护性自噬,导致自噬水平高度升高和持续,进而导致细胞存活降低。此外,在 MDA-9 缺失的情况下,pBCL2 下调,导致 GSCs 在凋亡条件下死亡。我们的研究证实了 MDA-9 表达与 GSCs 中保护性自噬之间的功能联系,并表明抑制 MDA-9 可逆转保护性自噬并诱导 GSCs 中的凋亡和细胞死亡。