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中枢神经系统肿瘤与三维细胞生物学:建模的现状与未来展望

Central nervous system tumors and three-dimensional cell biology: Current and future perspectives in modeling.

作者信息

Abou-Mrad Zaki, Bou Gharios Jolie, Moubarak Maya M, Chalhoub Ahmad, Moussalem Charbel, Bahmad Hisham F, Abou-Kheir Wassim

机构信息

Department of Anatomy, Cell Biology and Physiological Sciences, Faculty of Medicine, American University of Beirut, Beirut 1107-2020, Lebanon.

Division of Neurosurgery, Department of Surgery, American University of Beirut Medical Center, Beirut 1107-2020, Lebanon.

出版信息

World J Stem Cells. 2021 Aug 26;13(8):1112-1126. doi: 10.4252/wjsc.v13.i8.1112.

DOI:10.4252/wjsc.v13.i8.1112
PMID:34567429
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8422930/
Abstract

Central nervous system (CNS) tumors are a variety of distinct neoplasms that present multiple challenges in terms of treatment and prognosis. Glioblastoma, the most common primary tumor in adults, is associated with poor survival and remains one of the least treatable neoplasms. These tumors are highly heterogenous and complex in their nature. Due to this complexity, traditional cell culturing techniques and methods do not provide an ideal recapitulating model for the study of these tumors' behavior . Two-dimensional models lack the spatial arrangement, the heterogeneity in cell types, and the microenvironment that play a large role in tumor cell behavior and response to treatment. Recently, scientists have turned towards three-dimensional culturing methods, namely spheroids and organoids, as they have been shown to recapitulate tumors in a more faithful manner to their counterparts. Moreover, tumor-on-a-chip systems have lately been employed in CNS tumor modeling and have shown great potential in both studying the pathophysiology and therapeutic testing. In this review, we will discuss the current available literature on three-dimensional culturing models in CNS tumors, in addition to presenting their advantages and current limitations. We will also elaborate on the future implications of these models and their benefit in the clinical setting.

摘要

中枢神经系统(CNS)肿瘤是多种不同的肿瘤,在治疗和预后方面存在诸多挑战。胶质母细胞瘤是成人中最常见的原发性肿瘤,与生存率低相关,仍然是最难治疗的肿瘤之一。这些肿瘤本质上高度异质性且复杂。由于这种复杂性,传统的细胞培养技术和方法无法为研究这些肿瘤的行为提供理想的模拟模型。二维模型缺乏空间排列、细胞类型的异质性以及在肿瘤细胞行为和对治疗的反应中起重要作用的微环境。最近,科学家们转向了三维培养方法,即球体和类器官,因为它们已被证明能更真实地模拟肿瘤。此外,芯片上肿瘤系统最近已被用于中枢神经系统肿瘤建模,并在研究病理生理学和治疗测试方面都显示出巨大潜力。在这篇综述中,除了介绍三维培养模型的优势和当前局限性外,我们还将讨论中枢神经系统肿瘤中三维培养模型的现有文献。我们还将详细阐述这些模型的未来意义及其在临床环境中的益处。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/56eb/8422930/fb15ed542a67/WJSC-13-1112-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/56eb/8422930/fb15ed542a67/WJSC-13-1112-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/56eb/8422930/fb15ed542a67/WJSC-13-1112-g001.jpg

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Cancer Statistics, 2021.癌症统计数据,2021.
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Three-Dimensional Spheroids as In Vitro Preclinical Models for Cancer Research.三维球体作为癌症研究的体外临床前模型
探索NRF2在脑生理学和癌症中的多方面作用:一篇综述
Neurooncol Adv. 2023 Dec 23;6(1):vdad160. doi: 10.1093/noajnl/vdad160. eCollection 2024 Jan-Dec.
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Tideglusib attenuates growth of neuroblastoma cancer stem/progenitor cells in vitro and in vivo by specifically targeting GSK-3β.替度鲁肽通过特异性靶向 GSK-3β,在体外和体内抑制神经母细胞瘤癌干细胞/祖细胞的生长。
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