Division of Cancer, Department of Surgery and Cancer, Imperial College London, Imperial Centre for Translational and Experimental Medicine (ICTEM), London, United Kingdom.
Epithelial Carcinogenesis Group, Centro Nacional de Investigaciones Oncológicas, Madrid, Spain.
Cancer Res. 2021 Feb 1;81(3):580-593. doi: 10.1158/0008-5472.CAN-20-2612. Epub 2020 Nov 10.
In many tumors, cells transition reversibly between slow-proliferating tumor-initiating cells (TIC) and their differentiated, faster-growing progeny. Yet, how transcriptional regulation of cell-cycle and self-renewal genes is orchestrated during these conversions remains unclear. In this study, we show that as breast TIC form, a decrease in cell-cycle gene expression and increase in self-renewal gene expression are coregulated by SOX2 and EZH2, which colocalize at CpG islands. This pattern was negatively controlled by a novel long noncoding RNA (lncRNA) that we named Stem Cell Inhibitory RNA Transcript (SCIRT), which was markedly upregulated in tumorspheres but colocalized with and counteracted EZH2 and SOX2 during cell-cycle and self-renewal regulation to restrain tumorigenesis. SCIRT specifically interacted with EZH2 to increase EZH2 affinity to FOXM1 without binding the latter. In this manner, SCIRT induced transcription at cell-cycle gene promoters by recruiting FOXM1 through EZH2 to antagonize EZH2-mediated effects at target genes. Conversely, on stemness genes, FOXM1 was absent and SCIRT antagonized EZH2 and SOX2 activity, balancing toward repression. These data suggest that the interaction of an lncRNA with EZH2 can alter the affinity of EZH2 for its protein-binding partners to regulate cancer cell state transitions. SIGNIFICANCE: These findings show that a novel lncRNA SCIRT counteracts breast tumorigenesis by opposing transcriptional networks associated with cell cycle and self-renewal..
在许多肿瘤中,细胞可以在增殖缓慢的肿瘤起始细胞(TIC)和它们分化的、增殖更快的后代之间可逆地转换。然而,这些转化过程中细胞周期和自我更新基因的转录调控是如何协调的仍然不清楚。在这项研究中,我们表明,在乳腺 TIC 形成过程中,细胞周期基因表达的降低和自我更新基因表达的增加是由 SOX2 和 EZH2 共同调控的,它们在 CpG 岛上共定位。这种模式受到一种新的长非编码 RNA(lncRNA)的负调控,我们将其命名为干细胞抑制 RNA 转录物(SCIRT),它在肿瘤球中显著上调,但在细胞周期和自我更新调控过程中与 EZH2 和 SOX2 共定位并拮抗,以抑制肿瘤发生。SCIRT 特异性地与 EZH2 相互作用,增加 EZH2 与 FOXM1 的亲和力,而不与后者结合。通过这种方式,SCIRT 通过 EZH2 招募 FOXM1 来诱导细胞周期基因启动子的转录,从而拮抗 EZH2 在靶基因上的介导作用。相反,在干性基因上,FOXM1 不存在,SCIRT 拮抗 EZH2 和 SOX2 的活性,平衡向抑制作用。这些数据表明,lncRNA 与 EZH2 的相互作用可以改变 EZH2 与其蛋白结合伙伴的亲和力,从而调节癌细胞状态的转变。意义:这些发现表明,一种新的 lncRNA SCIRT 通过拮抗与细胞周期和自我更新相关的转录网络来对抗乳腺癌的发生。
