PTBP1 介导的神经元特异性 CDC42 剪接抑制是 IDH 野生型胶质母细胞瘤中一种不依赖于基因组改变、在发育过程中保守的脆弱性。

IF 3.9 4区 生物学 Q1 GENETICS & HEREDITY Functional & Integrative Genomics Pub Date : 2024-08-09 DOI:10.1007/s10142-024-01412-0
Junjie Yang, Jing Feng, Jing Lv, Xiaojing Chu, Yanfei Wei, Yunqiu Zhang, Jiuyi Li, Yingyu Sun, Guanzhang Li, Tao Jiang, Jinyan Huang, Xiaolong Fan
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引用次数: 0

摘要

基因共表达网络可能编码了迄今尚未充分认识到的成人胶质瘤的脆弱性。通过识别表皮生长因子受体(EM)或表皮生长因子淋巴因子受体(PM)周围进化保守的基因共表达模块,我们最近提出了EM/PM分类方案,将IDH野生型胶质母细胞瘤(GBM)归入神经干细胞区系的EM亚型,将IDH突变型星形细胞瘤和少突胶质细胞瘤归入早期少突胶质细胞系的PM亚型。在此,我们报告了EM/PM亚型特异性基因共表达网络的鉴定情况,以及枢纽基因多嘧啶束结合蛋白1(PTBP1)作为IDH-野生型GBM基因组改变无关脆弱性的特征。在 EM/PM 分类方案的监督下,我们应用加权基因共表达网络分析来识别亚型特异性的全局基因共表达模块。这些基因共表达模块的特征包括临床相关性、细胞来源和大脑发育过程中的保守表达模式。利用慢病毒载体介导的组成型或诱导型基因敲除,我们研究了 PTBP1 对 IDH 野生型 GBM 细胞存活的影响,并分析了 PTBP1 依赖性剪接模式和剪接目标神经元特异性 CDC42(CDC42-N)异构体的过表达。 成人胶质瘤的转录组可被稳健地归入4个大型基因共表达模块,这些模块与预后相关,来自EM/PM亚型的恶性细胞或肿瘤微环境。EM 亚型与恶性细胞内在基因模块有关,涉及前 mRNA 剪接、DNA 复制和损伤反应以及染色体分离;而微环境衍生基因模块主要涉及细胞外基质组织和浸润免疫细胞。PM 亚型与两个恶性细胞内在基因模块有关,这两个基因模块分别主要参与转录调控和 mRNA 翻译。这些基因模块的表达水平是独立的预后因素,而且恶性细胞内在基因模块在大脑发育过程中是保守的。针对EM亚型,我们发现PTBP1是恶性细胞内在基因模块最重要的枢纽。PTBP1在大多数胶质瘤基因组中没有改变。PTBP1抑制CDC42-N的保守剪接。PTBP1 基因敲除或 CDC42-N 基因过表达会破坏肌动蛋白细胞骨架动力学,导致活性氧积累和细胞凋亡。PTBP1 介导的 CDC42-N 剪接抑制是 IDH 野生型 GBM 中一种潜在的、不依赖于基因组改变的、发育上保守的脆弱性。
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PTBP1-mediated repression of neuron-specific CDC42 splicing constitutes a genomic alteration-independent, developmentally conserved vulnerability in IDH-wildtype glioblastoma

Gene co-expression networks may encode hitherto inadequately recognized vulnerabilities for adult gliomas. By identifying evolutionally conserved gene co-expression modules around EGFR (EM) or PDGFRA (PM), we recently proposed an EM/PM classification scheme, which assigns IDH-wildtype glioblastomas (GBM) into the EM subtype committed in neural stem cell compartment, IDH-mutant astrocytomas and oligodendrogliomas into the PM subtype committed in early oligodendrocyte lineage. Here, we report the identification of EM/PM subtype-specific gene co-expression networks and the characterization of hub gene polypyrimidine tract-binding protein 1 (PTBP1) as a genomic alteration-independent vulnerability in IDH-wildtype GBM. Supervised by the EM/PM classification scheme, we applied weighted gene co-expression network analysis to identify subtype-specific global gene co-expression modules. These gene co-expression modules were characterized for their clinical relevance, cellular origin and conserved expression pattern during brain development. Using lentiviral vector-mediated constitutive or inducible knockdown, we characterized the effects of PTBP1 on the survival of IDH-wildtype GBM cells, which was complemented with the analysis of PTBP1-depedent splicing pattern and overexpression of splicing target neuron-specific CDC42 (CDC42-N) isoform.  Transcriptomes of adult gliomas can be robustly assigned into 4 large gene co-expression modules that are prognostically relevant and are derived from either malignant cells of the EM/PM subtypes or tumor microenvironment. The EM subtype is associated with a malignant cell-intrinsic gene module involved in pre-mRNA splicing, DNA replication and damage response, and chromosome segregation, and a microenvironment-derived gene module predominantly involved in extracellular matrix organization and infiltrating immune cells. The PM subtype is associated with two malignant cell-intrinsic gene modules predominantly involved in transcriptional regulation and mRNA translation, respectively. Expression levels of these gene modules are independent prognostic factors and malignant cell-intrinsic gene modules are conserved during brain development. Focusing on the EM subtype, we identified PTBP1 as the most significant hub for the malignant cell-intrinsic gene module. PTBP1 is not altered in most glioma genomes. PTBP1 represses the conserved splicing of CDC42-N. PTBP1 knockdown or CDC42-N overexpression disrupts actin cytoskeleton dynamics, causing accumulation of reactive oxygen species and cell apoptosis. PTBP1-mediated repression of CDC42-N splicing represents a potential genomic alteration-independent, developmentally conserved vulnerability in IDH-wildtype GBM.

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来源期刊
CiteScore
3.50
自引率
3.40%
发文量
92
审稿时长
2 months
期刊介绍: Functional & Integrative Genomics is devoted to large-scale studies of genomes and their functions, including systems analyses of biological processes. The journal will provide the research community an integrated platform where researchers can share, review and discuss their findings on important biological questions that will ultimately enable us to answer the fundamental question: How do genomes work?
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