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Development of a highly differentiated rat brain organoid model for exploring glioblastoma invasion dynamics and therapy

类有机物 生物 镜像 神经科学 胶质母细胞瘤 脑瘤 人脑 诱导多能干细胞 干细胞 胶质瘤 舱室(船) 细胞分化 转录组 发育生物学 大脑发育 中枢神经系统 形态发生 间充质干细胞 神经干细胞 U87型 病理 人诱导多能干细胞 动力学(音乐) 癌症研究 肿瘤细胞 治疗方法 胚胎干细胞 模型系统
作者
Wenjing Zhou,Elena Martinez-Garcia,Katharina Sarnow,Georgia Kanli,Petr V. Nazarov,Yaquan Li,Stephanie G. Schwab,Johannes Meiser,Christian Jaeger,Jakub Mieczkowski,Agnieszka Misztak,Frits A. Thorsen,Konrad Grützmann,Boris Mihaljevic,Barbara van Loon,Jubayer A Hossain,Yan Zhang,Zhiyi Xue,Wenjie Li,Shannon S. Moreino
出处
期刊:Neuro-oncology [Oxford University Press]
标识
DOI:10.1093/neuonc/noaf271
摘要

Abstract Background Human brain organoids (BOs) are important models for studying early brain development and neurological disorders. While techniques for creating BOs are advancing, they remain developmental structures. Therefore, when human BOs are used to studying glioma-host interactions, the tumor behavior may be influenced by the BO-developmental microenvironment. Here, we describe the maturation of rat brain organoids (rBOs) into fully differentiated BOs and demonstrate their value as a model for studying glioblastoma (GB)-host interactions and their use in testing therapeutic interventions. Materials and Methods rBOs were obtained from fetal cortical brains on the 18th day of gestation. Transcriptomic, proteomic, and metabolomic analyses determined their differentiation into maturity. Their developmental trajectory was compared to human BOs derived from induced pluripotent stem cells as well as to rat brain development. Tumor-rBO interactions, including invasion parameters and therapeutic interactions, were studied using five human GB models. Results The rBOs develop into organized structures with myelinated neurons, oligodendrocytes, synapses, and glial cells, mirroring the rat brain development. GB invasion in rBOs matched those observed in orthotopic xenografts, enabling real-time assessment of invasion metrics: cellular heterogeneity, single-cell invasion speed, and tumor progression. The BOs had a strong impact on GB transcriptional activity and can be used to study therapeutic interventions. The rBO differentiation status influenced GB invasion capacity. Conclusions The rBOs serve as an effective target brain structure for studying GB invasion parameters and for evaluating therapeutic interventions. Their rapid development into mature brain tissue makes rBOs a valuable brain avatar system for studying tumor-host interactions.
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