Parsing the effect of co-culture with brain organoids on Diffuse Intrinsic Pontine Glioma (DIPG) using quantitative proteomics

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-07-14 DOI:10.1016/j.biocel.2024.106617
Victoria G. Prior , Simon Maksour , Sara Miellet , Amy J. Hulme , Yuyan Chen , Mehdi Mirzaei , Yunqi Wu , Mirella Dottori , Geraldine M. O'Neill
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Abstract

Diffuse Intrinsic Pontine Gliomas (DIPGs) are deadly brain cancers in children for which there is no effective treatment. This can partly be attributed to preclinical models that lack essential elements of the in vivo tissue environment, resulting in treatments that appear promising preclinically, but fail to result in effective cures. Recently developed co-culture models combining stem cell-derived brain organoids with brain cancer cells provide tissue dimensionality and a human-relevant tissue-like microenvironment. As these models are technically challenging, we aimed to establish whether interaction with the organoid influences DIPG biology and thus warrants their use. To address this question DIPG24 cells were cultured with pluripotent stem cell-derived cortical organoids. We created “mosaic” co-cultures enriched for tumour cell-neuronal cell interactions versus “assembloid” co-cultures enriched for tumour cell-tumour cell interactions. Sequential window acquisition of all theoretical mass spectra (SWATH-MS) was used to analyse the proteomes of DIPG fractions isolated by flow-assisted cell sorting. Control proteomes from DIPG spheroids were compared with DIPG cells isolated from mosaic and assembloid co-cultures. This suggested changes in cell interaction with the external environment reflected by decreased gene ontology terms associated with adhesion and extracellular matrix, and increased DNA synthesis and replication, in DIPG24 cells under either co-culture condition. By contrast, the mosaic co-culture was associated with neuron-specific brahma-associated factor (nBAF) complex signalling, a process associated with neuronal maturation. We propose that co-culture with brain organoids is a valuable tool to parse the contribution of the brain microenvironment to DIPG tumour biology.

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利用定量蛋白质组学分析与脑有机体共培养对弥漫性内生性桥脑胶质瘤(DIPG)的影响。
弥漫性脑桥胶质瘤(DIPGs)是一种致命的儿童脑癌,目前尚无有效的治疗方法。部分原因是临床前模型缺乏体内组织环境的基本要素,导致临床前治疗看起来很有希望,但却无法有效治愈。最近开发的共培养模型结合了来源于干细胞的脑器官组织和脑癌细胞,提供了组织维度和类似人体组织的微环境。由于这些模型在技术上具有挑战性,我们的目标是确定与类器官的相互作用是否会影响DIPG生物学,从而决定是否需要使用这些模型。为了解决这个问题,我们用多能干细胞衍生的皮质类器官培养DIPG24细胞。我们创建了富含肿瘤细胞-神经元细胞相互作用的 "马赛克 "共培养物和富含肿瘤细胞-肿瘤细胞相互作用的 "集合体 "共培养物。使用所有理论质谱的顺序窗口获取(SWATH-MS)来分析通过流式辅助细胞分拣分离出的 DIPG 片段的蛋白质组。将来自 DIPG 球状细胞的对照蛋白质组与从镶嵌和集合体共培养物中分离出来的 DIPG 细胞进行了比较。这表明,在两种共培养条件下,DIPG24 细胞与外部环境的相互作用发生了变化,表现为与粘附和细胞外基质相关的基因本体术语减少,DNA 合成和复制增加。相比之下,马赛克共培养与神经元特异性梵天相关因子(nBAF)复合信号有关,这是一个与神经元成熟相关的过程。我们认为,与脑器质性细胞共培养是分析脑微环境对DIPG肿瘤生物学贡献的重要工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
7.20
自引率
4.30%
发文量
567
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