Translational Research Institute, Academic Health System, Hamad Medical Corporation, Doha 3050, Qatar.
Laboratory of Molecular and Metabolic Imaging, Cancer Research Department, Sidra Medicine, Doha 26999, Qatar.
Semin Cancer Biol. 2022 Nov;86(Pt 3):107-121. doi: 10.1016/j.semcancer.2022.07.009. Epub 2022 Aug 2.
Since the introduction of the cancer stem cell (CSC) paradigm, significant advances have been made in understanding the functional and biological plasticity of these elusive components in malignancies. Endowed with self-renewing abilities and multilineage differentiation potential, CSCs have emerged as cellular drivers of virtually all facets of tumor biology, including metastasis, tumor recurrence/relapse, and drug resistance. The functional and biological characteristics of CSCs, such as self-renewal, cell fate decisions, survival, proliferation, and differentiation are regulated by an array of extracellular factors, signaling pathways, and pluripotent transcriptional factors. Besides the well-characterized regulatory role of transcription factors OCT4, SOX2, NANOG, KLF4, and MYC in CSCs, evidence for the central role of Forkhead box transcription factor FOXM1 in the establishment, maintenance, and functions of CSCs is accumulating. Conventionally identified as a master regulator of the cell cycle, a comprehensive understanding of this molecule has revealed its multifarious oncogenic potential and uncovered its role in angiogenesis, invasion, migration, self-renewal, and drug resistance. This review compiles the large body of literature that has accumulated in recent years that provides evidence for the mechanisms by which FOXM1 expression promotes stemness in glioblastoma, breast, colon, ovarian, lung, hepatic, and pancreatic carcinomas. We have also compiled the data showing the association of stem cell mediators with FOXM1 using TCGA mRNA expression data. Further, the prognostic importance of FOXM1 and other stem cell markers is presented. The delineation of FOXM1-mediated regulation of CSCs can aid in the development of molecularly targeted pharmacological approaches directed at the selective eradication of CSCs in several human malignancies.
自癌症干细胞(CSC)概念引入以来,人们在理解这些恶性肿瘤中难以捉摸的成分的功能和生物学可塑性方面取得了重大进展。CSC 具有自我更新能力和多能分化潜能,已成为肿瘤生物学几乎所有方面的细胞驱动因素,包括转移、肿瘤复发/复发和耐药性。CSC 的功能和生物学特征,如自我更新、细胞命运决定、存活、增殖和分化,受一系列细胞外因子、信号通路和多能转录因子的调节。除了转录因子 OCT4、SOX2、NANOG、KLF4 和 MYC 在 CSCs 中的作用得到了很好的描述外,证据表明叉头框转录因子 FOXM1 在 CSCs 的建立、维持和功能中起着核心作用。FOXM1 通常被认为是细胞周期的主要调节因子,对该分子的全面理解揭示了其多方面的致癌潜力,并揭示了其在血管生成、侵袭、迁移、自我更新和耐药性中的作用。这篇综述汇集了近年来积累的大量文献,这些文献提供了证据,证明了 FOXM1 表达促进神经胶质瘤、乳腺癌、结肠癌、卵巢癌、肺癌、肝癌和胰腺癌中干性的机制。我们还汇编了使用 TCGA mRNA 表达数据显示干细胞介质与 FOXM1 相关的数据。此外,还介绍了 FOXM1 和其他干细胞标志物的预后重要性。FOXM1 介导的 CSCs 调节的描绘可以帮助开发针对几种人类恶性肿瘤中 CSCs 的选择性清除的分子靶向药理方法。
