类器官作为肾癌研究的先进工具：广泛的应用和前景。

IF 5 4区医学 Q3 BIOPHYSICS

Cellular and molecular bioengineering Pub Date : 2024-10-15 eCollection Date: 2024-12-01 DOI:10.1007/s12195-024-00825-y

Jingqiang Huang, Xianli Wang, Shengyang Ge, Xiao Lu, Chuanyu Sun

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引用次数: 0

摘要

背景：肾癌是一个重要的全球健康问题，影响着近1 / 25的癌症患者。与肾癌相关的患病率、发病率和死亡率数据每年都在不断增加，显示出沉重的经济和社会负担。类器官培养是一种具有广泛应用潜力的新型研究工具，特别是在癌症研究中。类器官与其他新兴技术的结合同时扩大了它们的潜在应用。然而，在肾癌研究领域尚无对类器官的全面评估。目的：综述肾癌类器官的发展现状，探讨肾癌类器官的解决方案和未来发展方向。方法：本研究比较了不同类器官培养方案的操作规程，并对培养基成分进行了总结。对肾癌类器官的产生和维持途径、应用场景、当前挑战和前景进行了广泛的讨论。本研究所需信息摘自PubMed、SCOPUS、Web of Science等文献数据库。结果：本文系统综述了13种成功的肾癌类器官的制备方法，并为该类器官的构建提供了参考。此外，我们还阐述了类器官的临床应用，指出了存在的挑战和局限性，并强调了前景。结论：最终，我们坚信，随着肾肿瘤类器官的不断发展和完善，它们将成为治疗肾癌的重要工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

查看原文本刊更多论文

Organoids as Sophisticated Tools for Renal Cancer Research: Extensive Applications and Promising Prospects.

Background: Kidney cancer is a significant global health problem that affects nearly 1 in 25 of cancer patients. Prevalence, morbidity and mortality data associated with kidney cancer continue to increase every year, revealing a heavy economic and social burden. Organoid culture is a new research tool with great potential for many applications, particularly in cancer research. The integration of organoids with other emerging technologies has simultaneously expanded their potential applications. However, there is no thorough assessment of organoids in the field of renal cancer research.

Objectives: This paper presents a comprehensive review of the current development of renal cancer organoids and discusses the corresponding solutions and future directions of renal cancer organoids.

Methods: In this study, we have compared the operating procedures of different organoid culture protocols and proposed a summary of constituents in culture media. Extensive discussions of renal cancer organoids, including generation and maintenance approaches, application scenarios, current challenges and prospects, have also been made. The information required for this study is extracted from literature databases such as PubMed, SCOPUS and Web of Science.

Results: In this article, we systematically review thirteen successful methods for generating organoids to kidney cancer and provide practical guidelines for their construction as a reference. In addition, we also elucidate the clinical application of organoids, address the existing challenges and limitations, and highlight promising prospects.

Conclusion: Ultimately, we firmly believe that as kidney tumour organoids continue to develop and improve, they will become a crucial tool for treating kidney cancer.

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来源期刊

Cellular and molecular bioengineering 生物-生物物理

CiteScore

5.60

自引率

3.60%

发文量

审稿时长

>12 weeks

期刊介绍： The field of cellular and molecular bioengineering seeks to understand, so that we may ultimately control, the mechanical, chemical, and electrical processes of the cell. A key challenge in improving human health is to understand how cellular behavior arises from molecular-level interactions. CMBE, an official journal of the Biomedical Engineering Society, publishes original research and review papers in the following seven general areas: Molecular: DNA-protein/RNA-protein interactions, protein folding and function, protein-protein and receptor-ligand interactions, lipids, polysaccharides, molecular motors, and the biophysics of macromolecules that function as therapeutics or engineered matrices, for example. Cellular: Studies of how cells sense physicochemical events surrounding and within cells, and how cells transduce these events into biological responses. Specific cell processes of interest include cell growth, differentiation, migration, signal transduction, protein secretion and transport, gene expression and regulation, and cell-matrix interactions. Mechanobiology: The mechanical properties of cells and biomolecules, cellular/molecular force generation and adhesion, the response of cells to their mechanical microenvironment, and mechanotransduction in response to various physical forces such as fluid shear stress. Nanomedicine: The engineering of nanoparticles for advanced drug delivery and molecular imaging applications, with particular focus on the interaction of such particles with living cells. Also, the application of nanostructured materials to control the behavior of cells and biomolecules.