CD133 和 DNA-PK 通过 PI3K/Akt-NF-κB 通路调节多药耐药性脑胶质瘤细胞中 MDR1 的表达。

CD133 and DNA-PK regulate MDR1 via the PI3K- or Akt-NF-κB pathway in multidrug-resistant glioblastoma cells in vitro.

机构信息

Division of Pediatric Neurosurgery, Stanley Manne Children's Research Institute, Ann & Robert H Lurie Children's Hospital of Chicago, Northwestern University Feinberg School of Medicine, Chicago, IL, USA.

Falk Brain Tumor Center, Ann & Robert H Lurie Children's Hospital of Chicago, Northwestern University Feinberg School of Medicine, Chicago, IL, USA.

出版信息

Oncogene. 2016 Jan 14;35(2):241-50. doi: 10.1038/onc.2015.78. Epub 2015 Mar 30.

DOI:10.1038/onc.2015.78

PMID:25823028

Abstract

Chemotherapy is an adjuvant treatment for glioblastomas, however, chemotherapy remains palliative because of the development of multidrug resistance (MDR). Following prolonged chemotherapy, MDR protein 1 (MDR1) and CD133 increase in recurrent glioblastomas. CD133 positive (CD133+) glioma cancer stem-like cells (GCSCs) markedly promote drug resistance and exhibit increased DNA damage repair capability; thus they have a key role in determining tumor chemosensitivity. Although CD133, DNA-dependent protein kinase (DNA-PK), and MDR1 are elevated in CD133+ GCSCs, the relationship among these molecules has not been elucidated. In this study, MDR glioblastoma cell lines were created in response to prolonged doxorubicin chemotherapy. CD133, DNA-PK and MDR1 were markedly elevated in these cells. CD133 and DNA-PK may increase MDR1 via the phosphatidylinositol-3-kinase (PI3K)-Akt signal pathway. PI3K downstream targets Akt and nuclear factor (NF)-κB, which interacts with the MDR1 promoter, were also elevated in these cells. Downregulation of CD133 and DNA-PK by small interfering RNA, or inhibition of PI3K or Akt, decreased Akt, NF-κB and MDR1 expression. The results indicate that CD133 and DNA-PK regulate MDR1 through the PI3K- or Akt-NF-κB signal pathway. Consequently, a novel chemotherapeutic regimen targeting CD133 and DNA-PK in combination with traditional protocols may increase chemotherapeutic efficacy and improve prognosis for individuals who present with glioblastoma.

摘要

化疗是胶质母细胞瘤的辅助治疗方法，但是由于多药耐药性（MDR）的发展，化疗仍然是姑息性的。在长期化疗后，复发的胶质母细胞瘤中 MDR 蛋白 1（MDR1）和 CD133 增加。CD133 阳性（CD133+）的神经胶质瘤癌症干细胞样细胞（GCSCs）显著促进耐药性，并表现出增强的 DNA 损伤修复能力；因此，它们在决定肿瘤化疗敏感性方面起着关键作用。尽管 CD133、DNA 依赖性蛋白激酶（DNA-PK）和 MDR1 在 CD133+GCSCs 中升高，但这些分子之间的关系尚未阐明。在这项研究中，通过延长阿霉素化疗创建了多药耐药性胶质母细胞瘤细胞系。这些细胞中 CD133、DNA-PK 和 MDR1 明显升高。CD133 和 DNA-PK 可能通过磷脂酰肌醇-3-激酶（PI3K）-Akt 信号通路增加 MDR1。PI3K 的下游靶标 Akt 和核因子（NF）-κB 与 MDR1 启动子相互作用，这些细胞中也升高。通过小干扰 RNA 下调 CD133 和 DNA-PK，或抑制 PI3K 或 Akt，降低了 Akt、NF-κB 和 MDR1 的表达。结果表明，CD133 和 DNA-PK 通过 PI3K 或 Akt-NF-κB 信号通路调节 MDR1。因此，针对 CD133 和 DNA-PK 的新型化疗方案与传统方案相结合可能会提高化疗疗效，并改善患有胶质母细胞瘤的患者的预后。

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CD133 和 DNA-PK 通过 PI3K/Akt-NF-κB 通路调节多药耐药性脑胶质瘤细胞中 MDR1 的表达。

CD133 and DNA-PK regulate MDR1 via the PI3K- or Akt-NF-κB pathway in multidrug-resistant glioblastoma cells in vitro.

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