Neuroimmune-competent human brain organoid model of Diffuse Midline Glioma.

IF 16.4 1区 医学 Q1 CLINICAL NEUROLOGY
Katharina Sarnow, Emma Majercak, Qurbonali Qurbonov, Gustavo A V Cruzeiro, Daeun Jeong, Ishraq A Harque, Andrew Khalil, Lissa C Baird, Mariella G Filbin, Xin Tang
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引用次数: 0

Abstract

Background: Pediatric high-grade gliomas, such as diffuse midline glioma (DMG), have a poor prognosis and lack curative treatments. Current research models of DMG primarily rely on human DMG cell lines cultured in vitro or xenografted into the brains of immunodeficient mice. However, these models are insufficient to recapitulate the complex cell-cell interactions between DMG and the tumor immune microenvironment (TIME), therefore fall short of accurately reflecting how efficacious therapeutic agents or combinations will be in the clinical setting.

Methods: To address these challenges, we developed a neuroimmune-competent brain/tumor fusion organoid model system consisting entirely of human cells to investigate the interactions between DMG cells and the primary innate immune cells of the brain, microglia, in the TIME at both cellular and subcellular levels. We generated microglia-containing brain organoids (MiCBO) that carry morphologically mature, motile microglia and multiple subtypes of neurons to mimic the brain tumor microenvironment. These organoids were then fused with H3K27M mutant, TP53P27R/K132R DMG tumor spheroids to create the MiCBO-tumor fusion (MiCBO-TF) model.

Results: We utilized live imaging methods to simultaneously track the mobility of microglial cell bodies and the motility of their process, as well as the behavior of tumor cells within a human brain tissue environment. Our MiCBO-TF model faithfully recapitulated the diffuse infiltration pattern of DMG into brain tissue and revealed that microglial mobility and interactions with tumor cells are highly influenced by external factors and surrounding tissue environment.

Conclusions: The MiCBO-TF model represents a powerful platform for both mechanistic investigations and the development of precision medicine approaches for DMG.

弥漫中线胶质瘤的神经免疫功能健全人脑类器官模型。
背景:小儿高级别胶质瘤,如弥漫中线胶质瘤(DMG),预后较差,缺乏根治性治疗方法。目前的DMG研究模型主要依赖于体外培养的人类DMG细胞系或异种移植到免疫缺陷小鼠的大脑中。然而,这些模型不足以再现DMG与肿瘤免疫微环境(TIME)之间复杂的细胞-细胞相互作用,因此无法准确反映治疗药物或组合在临床环境中的疗效:为了应对这些挑战,我们开发了一种完全由人体细胞组成的神经免疫功能脑/肿瘤融合类器官模型系统,以研究DMG细胞与脑内主要先天性免疫细胞小胶质细胞在TIME中的细胞和亚细胞水平上的相互作用。我们生成了含小胶质细胞的脑器官组织(MiCBO),它携带形态成熟、运动的小胶质细胞和多种亚型神经元,以模拟脑肿瘤微环境。然后将这些有机体与H3K27M突变体、TP53P27R/K132R DMG肿瘤球体融合,创建了MiCBO-肿瘤融合(MiCBO-TF)模型:我们利用活体成像方法同时追踪了小胶质细胞体的移动性及其运动过程,以及肿瘤细胞在人脑组织环境中的行为。我们的 MiCBO-TF 模型忠实再现了 DMG 向脑组织的弥漫浸润模式,并揭示了小胶质细胞的移动性以及与肿瘤细胞的相互作用受到外部因素和周围组织环境的高度影响:MiCBO-TF模型是研究DMG机理和开发精准医疗方法的强大平台。
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来源期刊
Neuro-oncology
Neuro-oncology 医学-临床神经学
CiteScore
27.20
自引率
6.30%
发文量
1434
审稿时长
3-8 weeks
期刊介绍: Neuro-Oncology, the official journal of the Society for Neuro-Oncology, has been published monthly since January 2010. Affiliated with the Japan Society for Neuro-Oncology and the European Association of Neuro-Oncology, it is a global leader in the field. The journal is committed to swiftly disseminating high-quality information across all areas of neuro-oncology. It features peer-reviewed articles, reviews, symposia on various topics, abstracts from annual meetings, and updates from neuro-oncology societies worldwide.
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