Primary liver cancer organoids and their application to research and therapy

Xiaobin Zhu, Rajiv Trehan, Changqing Xie
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Abstract

Primary liver cancer is a leading cause of death worldwide. To create advanced treatments for primary liver cancer, studies have utilized models such as 2D cell culture and in vivo animal models. Recent developments in cancer organoids have created the possibility for 3D in vitro cultures that recapitulates the cancer cell structure and operation as well as the tumor microenvironment (TME). However, before organoids can be directly translated to clinical use, tissue processing and culture medium must be standardized with unified protocols to decrease variability in results. Herein, we present the wide variety of published methodologies used to derive liver cancer organoids from patient tumor tissues. Additionally, we summarize validation methodologies for organoids in terms of marker expression levels with immunohistochemistry as well as the presence of mutations and variants through RNA-sequencing. Primary liver cancer organoids have exciting applications allowing for faster drug testing at a larger scale. Primary liver cancer organoids also assisit in uncovering new mechanisms. Through the coculture of different immune cells and cancer organoids, organoids are now better able to recapitulate the liver cancer TME. In addition, it further aids in the investigation of drug development and drug resistance. Lastly, we posit that the usage of liver cancer organoids in animal models provides researchers a methodology to overcome the current limitations of culture systems.

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原发性肝癌器官组织及其在研究和治疗中的应用
原发性肝癌是导致全球死亡的主要原因之一。为了创造原发性肝癌的先进治疗方法,研究利用了二维细胞培养和体内动物模型等模型。癌症器官组织的最新发展为三维体外培养创造了可能,这种培养能再现癌细胞的结构和运作以及肿瘤微环境(TME)。然而,在将器官组织直接应用于临床之前,组织处理和培养基必须通过统一的方案实现标准化,以减少结果的差异性。在此,我们将介绍已发表的从患者肿瘤组织中提取肝癌器官组织的各种方法。此外,我们还总结了通过免疫组化鉴定标志物表达水平以及通过 RNA 序列鉴定是否存在突变和变异的有机体验证方法。原发性肝癌器官组织具有令人兴奋的应用前景,可以更快地进行更大规模的药物测试。原发性肝癌器官组织还有助于发现新的机制。通过不同免疫细胞和癌症器官组织的共培养,器官组织现在能够更好地再现肝癌TME。此外,它还能进一步帮助研究药物开发和耐药性。最后,我们认为,在动物模型中使用肝癌器官组织为研究人员提供了一种方法来克服目前培养系统的局限性。
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来源期刊
CiteScore
14.20
自引率
0.00%
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0
审稿时长
70 days
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