Role of NANOG in glioma malignancy development and potential as therapeutic target

Biomedical Reviews Pub Date : 2020-05-07 DOI:10.14748/BMR.V31.7703

Fergie Runtu, Novi Silvia Hardyani

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引用次数: 1

Abstract

Recent discoveries have indicated that tumorigenesis arises from a population of cells with self-renewability and pluripotency characteristics. These led to the theory of cancer stem cells, in which these cells carry molecular signatures similar to embryonic stem cells. Homeobox protein NANOG is a transcription factor that helps embryonic stem cells maintain pluripotency. It has been identified to be highly expressed in several types of tumors. Further studies have shown the linkage of NANOG overexpression to malignancy and therapeutic resistance, however very limited research has clearly identified NANOG role in malignancy and therapeutic response of glioma. NANOG expression is regulated by p53, a cancer suppressor, which when lost, led to NANOG overexpression. The latter overexpression in glioma led to increase in its growth. NANOG was also found to be regulator of focal adhesion kinase (FAK), a matricellular protein responsible for motility of tumor cells in metastases. NANOG overexpression is indirectly induced by the use of temozolomide through c-MET activation. Despite its therapeutic resistance effect, resveratrol is a promising therapy for limiting NANOG expression. The findings in the present review argues for NANOG utilization as a therapeutic target for glioma. Biomed Rev 2020; resveratrol

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NANOG在胶质瘤恶性发展中的作用及其作为治疗靶点的潜力

最近的发现表明，肿瘤发生起源于具有自我再生和多能性特征的细胞群。这导致了癌症干细胞理论，这些细胞携带类似于胚胎干细胞的分子特征。同源盒蛋白NANOG是一种帮助胚胎干细胞维持多能性的转录因子。它已被确定在几种类型的肿瘤中高度表达。进一步的研究表明NANOG过表达与恶性肿瘤和治疗耐药之间存在联系，但明确NANOG在恶性肿瘤和胶质瘤治疗反应中的作用的研究非常有限。NANOG的表达受p53的调控，p53是一种癌症抑制因子，当其缺失时，会导致NANOG过表达。后者在胶质瘤中的过度表达导致其生长增加。NANOG还被发现是局灶黏附激酶(FAK)的调节剂，FAK是一种负责转移瘤细胞运动的基质细胞蛋白。使用替莫唑胺通过c-MET激活间接诱导NANOG过表达。尽管白藜芦醇具有治疗抗性作用，但它是一种很有前景的限制NANOG表达的治疗方法。本综述的研究结果支持NANOG作为胶质瘤的治疗靶点。Biomed Rev 2020;白藜芦醇

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biomedical Reviews

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