HNRNPA2B1 可稳定 NFATC3 的水平,从而增强其与 FOSL1 的联合作用,介导 GBM 细胞的血管生成模拟。

IF 5.3 2区 医学 Q2 CELL BIOLOGY
Hanting Wang, Yiwen Shi, Xinxin Zhou, Lu Zhang, Aodan Yang, Dabo Zhou, Teng Ma
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引用次数: 0

摘要

背景:血管生成模拟(VM)是一种神秘的生理特征,它影响着胶质母细胞瘤(GBM)肿瘤内的血液供应,使其持续生长。先前的研究发现,NFATC3、FOSL1 和 HNRNPA2B1 是血管生成的关键角色 VEGFR2 的重要介导因子,它们之间的分子关系可能对 GBM 中的 VM 至关重要:我们研究了体外和体内 GBM 细胞系 U251 和 U373 中 VM 的潜在基因调控机制。在 RNA 干扰(RNAi)介导的基因敲除和相应对照的背景下,我们进行了基于细胞的体外实验,以探索 NFATC3、FOSL1 和 HNRNPA2B1 在 GBM 细胞增殖、VM 和迁移中的作用。采用 Western 印迹和 qRT-PCR 检测 VEGFR2 的表达水平。CO-IP 用于检测蛋白质与蛋白质之间的相互作用,ChIP 用于检测 DNA 蛋白复合物,RIP 用于检测 RNA 蛋白复合物。组织化学染色用于检测体内VM管的形成:结果:我们重点研究了NFATC3、FOSL1和HNRNPA2B1,发现它们在GBM中均显著上调,并与U251和U373细胞系中的VM样细胞行为呈正相关。敲除 NFATC3、FOSL1 或 HNRNPA2B1 会导致 VEGFR2(一种驱动血管内皮生长因子的关键生长因子基因)水平下降,并抑制增殖、细胞迁移和体外血管内皮生长因子活性。染色质免疫沉淀(ChIP)研究和荧光素酶报告基因测定显示,NFATC3 与 VEGFR2 的启动子区域结合,增强了 VEGFR2 基因的表达。值得注意的是,FOSL1 作为辅助因子与 NFATC3 相互作用,增强了 NFATC3 的 DNA 结合能力,从而增强了类似血管内皮生长因子的细胞行为。同时,通过 HNRNPA2B1 与 NFATC3 mRNA 的结合,细胞中 NFATC3 蛋白的水平也得到了提高。此外,RNAi介导的GBM细胞中NFATC3、FOSL1和HNRNPA2B1的沉默降低了它们形成肿瘤的能力和体内的VM样行为:综上所述,我们的研究结果表明,NFATC3 通过与 HNRNPA2B1 和 FOSL1 的分子和表观相互作用影响 VEGFR2 的表达和血管内皮生长因子样细胞行为,是 GBM 肿瘤生长的重要介质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

HNRNPA2B1 stabilizes NFATC3 levels to potentiate its combined actions with FOSL1 to mediate vasculogenic mimicry in GBM cells.

HNRNPA2B1 stabilizes NFATC3 levels to potentiate its combined actions with FOSL1 to mediate vasculogenic mimicry in GBM cells.

Background: Vasculogenic mimicry (VM) is an enigmatic physiological feature that influences blood supply within glioblastoma (GBM) tumors for their sustained growth. Previous studies identify NFATC3, FOSL1 and HNRNPA2B1 as significant mediators of VEGFR2, a key player in vasculogenesis, and their molecular relationships may be crucial for VM in GBM.

Aims: The aim of this study was to understand how NFATC3, FOSL1 and HNRNPA2B1 collectively influence VM in GBM.

Methods: We have investigated the underlying gene regulatory mechanisms for VM in GBM cell lines U251 and U373 in vitro and in vivo. In vitro cell-based assays were performed to explore the role of NFATC3, FOSL1 and HNRNPA2B1 in GBM cell proliferation, VM and migration, in the context of RNA interference (RNAi)-mediated knockdown alongside corresponding controls. Western blotting and qRT-PCR assays were used to examine VEGFR2 expression levels. CO-IP was employed to detect protein-protein interactions, ChIP was used to detect DNA-protein complexes, and RIP was used to detect RNA-protein complexes. Histochemical staining was used to detect VM tube formation in vivo.

Results: Focusing on NFATC3, FOSL1 and HNRNPA2B1, we found each was significantly upregulated in GBM and positively correlated with VM-like cellular behaviors in U251 and U373 cell lines. Knockdown of NFATC3, FOSL1 or HNRNPA2B1 each resulted in decreased levels of VEGFR2, a key growth factor gene that drives VM, as well as the inhibition of proliferation, cell migration and extracorporeal VM activity. Chromatin immunoprecipitation (ChIP) studies and luciferase reporter gene assays revealed that NFATC3 binds to the promoter region of VEGFR2 to enhance VEGFR2 gene expression. Notably, FOSL1 interacts with NFATC3 as a co-factor to potentiate the DNA-binding capacity of NFATC3, resulting in enhanced VM-like cellular behaviors. Also, level of NFATC3 protein in cells was enhanced through HNRNPA2B1 binding of NFATC3 mRNA. Furthermore, RNAi-mediated silencing of NFATC3, FOSL1 and HNRNPA2B1 in GBM cells reduced their capacity for tumor formation and VM-like behaviors in vivo.

Conclusion: Taken together, our findings identify NFATC3 as an important mediator of GBM tumor growth through its molecular and epistatic interactions with HNRNPA2B1 and FOSL1 to influence VEGFR2 expression and VM-like cellular behaviors.

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来源期刊
Cell Biology and Toxicology
Cell Biology and Toxicology 生物-毒理学
CiteScore
9.90
自引率
4.90%
发文量
101
审稿时长
>12 weeks
期刊介绍: Cell Biology and Toxicology (CBT) is an international journal focused on clinical and translational research with an emphasis on molecular and cell biology, genetic and epigenetic heterogeneity, drug discovery and development, and molecular pharmacology and toxicology. CBT has a disease-specific scope prioritizing publications on gene and protein-based regulation, intracellular signaling pathway dysfunction, cell type-specific function, and systems in biomedicine in drug discovery and development. CBT publishes original articles with outstanding, innovative and significant findings, important reviews on recent research advances and issues of high current interest, opinion articles of leading edge science, and rapid communication or reports, on molecular mechanisms and therapies in diseases.
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