顺铂通过 NF-κB-TNFα-PIK3CA 环诱导铂耐药细胞中癌症干细胞的富集。
Cisplatin triggers cancer stem cell enrichment in platinum-resistant cells through NF-κB-TNFα-PIK3CA loop.
机构信息
Imaging Cell Signaling and Therapeutics Laboratory, Advanced Centre for Treatment, Research and Education in Cancer (ACTREC), Tata Memorial Centre, Navi Mumbai, India.
Homi Bhabha National Institute, Mumbai, Anushakti Nagar, India.
出版信息
J Exp Clin Cancer Res. 2017 Nov 23;36(1):164. doi: 10.1186/s13046-017-0636-8.
BACKGROUND
Parallel to complex alteration in molecular and cellular events, enrichment of cancer stem cells (CSC) contributes significantly in deliberation and maintenance of cisplatin resistance. Cisplatin mediated CSC enrichment is well established in various cancers, yet the underlying mechanism is largely unknown. Cisplatin also promotes transcriptional upregulation of PIK3CA, hence activating PI3K/AKT signaling in resistant cells. However, such cisplatin-induced transcriptional regulators of PIK3CA and their impact on cancer stem cell population in resistant cells are largely unknown.
METHODS
DNA-binding protein pulldown using PIK3CA promoter as bait followed by nLCMS was used to identify, cisplatin-induced potential transcriptional regulators of PIK3CA promoter. PIK3CA promoter activity was estimated by luciferase based reporter assay. ChIP was used to assess interaction of NF-κB with PIK3CA promoter. CSC-enriched side-population was sorted using DCV-dye exclusion methods. All the gene expression levels were assessed using qPCR.
RESULTS
Using a transcription factor pull-down assay with PIK3CA promoter, we identified NF-κB as a prime regulator, which escalates both TNFα and PIK3CA expression only in CSC enriched side-population (SP) but not in non side-population (NSP) in platinum resistant ovarian cancer cells upon cisplatin treatment. This SP-specific NF-κB-TNFα-PIK3CA bi-modal loop, on one hand, maintains persistent activation of NF-κB through TNFα- NF-κB autocrine loop, while NF-κB-PIK3CA loop nurture CSC population under cisplatin treatment. Activation of PI3K/AKT signalling drives SP's into an undifferentiated, anti-apoptotic stage through upregulating P21, P27,cFLIP expression. Contrarily, lack of active NF-κB-TNFα-PIK3CA loop makes NSPs vulnerable towards cisplatin and undergoes apoptosis. Altogether, cisplatin enriches cancer stem cells properties in SP fraction, which is evident from increased levels of pluripotency gene OCT4/SOX2/NANOG expression. Disruption of PIK3CA-NF-κB loop by Wortamannin reduces SP fraction by 1.4-1.6 fold in control and treated cells.
CONCLUSION
Together, our study signifies an active role of NF-κB-TNFα-PIK3CA bi-modal loop in cisplatin-mediated promotion and maintenance of CSC-like population in platinum-resistant cells.
背景
与分子和细胞事件的复杂改变平行的是,癌症干细胞(CSC)的富集显著有助于顺铂耐药性的考虑和维持。顺铂介导的 CSC 富集在各种癌症中已经得到很好的证实,但潜在机制在很大程度上尚不清楚。顺铂还促进 PIK3CA 的转录上调,从而激活耐药细胞中的 PI3K/AKT 信号。然而,这种顺铂诱导的 PIK3CA 的转录调节剂及其对耐药细胞中癌症干细胞群体的影响在很大程度上尚不清楚。
方法
使用 PIK3CA 启动子作为诱饵的 DNA 结合蛋白下拉法结合 nLCMS,用于鉴定顺铂诱导的 PIK3CA 启动子的潜在转录调节剂。通过基于荧光素酶的报告基因测定法估计 PIK3CA 启动子活性。ChIP 用于评估 NF-κB 与 PIK3CA 启动子的相互作用。使用 DCV 染料排除法对 CSC 富集的侧群进行分选。使用 qPCR 评估所有基因表达水平。
结果
使用 PIK3CA 启动子的转录因子下拉测定法,我们鉴定出 NF-κB 是主要调节剂,它仅在顺铂耐药卵巢癌细胞中的 CSC 富集侧群(SP)而不是非侧群(NSP)中上调 TNFα 和 PIK3CA 的表达。这种 SP 特异性的 NF-κB-TNFα-PIK3CA 双模态环一方面通过 TNFα-NF-κB 自分泌环维持 NF-κB 的持续激活,而 NF-κB-PIK3CA 环则在顺铂处理下滋养 CSC 群体。PI3K/AKT 信号的激活通过上调 P21、P27、cFLIP 的表达将 SP 驱动到未分化、抗凋亡状态。相反,缺乏活性的 NF-κB-TNFα-PIK3CA 环使 NSP 对顺铂敏感并发生凋亡。总的来说,顺铂在 SP 部分富集了癌症干细胞特性,这可以从多能性基因 OCT4/SOX2/NANOG 表达水平的升高中看出。Wortamannin 破坏 PIK3CA-NF-κB 环可使对照和处理细胞中的 SP 部分减少 1.4-1.6 倍。
结论
总之,我们的研究表明 NF-κB-TNFα-PIK3CA 双模态环在顺铂介导的促进和维持铂耐药细胞中的 CSC 样群体中发挥积极作用。
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