Construction of 3D tumor in vitro models with an immune microenvironment exhibiting similar tumor properties and biomimetic physiological functionality.

IF 5.8 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS
Yuhong Jiang, Lijuan Jin, Wenyu Liu, Hui Liu, Xiao Liu, Zhikai Tan
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引用次数: 0

Abstract

Tumors pose a serious threat to people's lives and health, and the complex tumor microenvironment is the biggest obstacle to their treatment. In contrast to the basic protein matrices typically employed in 2D or 3D cell culture systems, decellularized extracellular matrix (dECM) can create complex microenvironments. In this study, a combination of physicochemical methods was established to obtain liver decellularized extracellular matrix scaffolds (dLECMs) to provide mechanical support and cell adhesion sites. By co-culturing tumor cells, tumor-associated stromal cells and immune cells, an in vitro 3D tumor model with a biomimetic immune microenvironment was constructed. By utilizing microenvironment data obtained from human liver tumor tissues and refining the double seeding modeling process, 3D in vitro liver tumor-like tissues with a tumor immune microenvironment (TIME) were obtained and designated as reconstructed human liver cancer (RHLC). These tissues demonstrated similar tumor characteristics and exhibited satisfactory physiological functionality. The results of metabolic characterisation and mouse tumorigenicity testing verified that the constructed RHLC significantly increased in vitro drug resistance while also closely mimicking in vivo tissue metabolism. This opens up new possibilities for creating effective in vitro models for screening chemotherapy drugs.

构建具有免疫微环境的三维肿瘤体外模型,展现类似的肿瘤特性和生物模拟生理功能。
肿瘤严重威胁着人们的生命和健康,而复杂的肿瘤微环境是治疗肿瘤的最大障碍。与二维或三维细胞培养系统通常采用的基本蛋白基质不同,脱细胞细胞外基质(dECM)可以创造复杂的微环境。本研究结合多种物理化学方法获得了肝脏脱细胞细胞外基质支架(dLECMs),以提供机械支撑和细胞粘附位点。通过共培养肿瘤细胞、肿瘤相关基质细胞和免疫细胞,构建了具有仿生免疫微环境的体外三维肿瘤模型。通过利用从人类肝脏肿瘤组织中获得的微环境数据并改进双种子建模过程,获得了具有肿瘤免疫微环境(TIME)的三维体外肝脏肿瘤样组织,并将其命名为重建人类肝癌(RHLC)。这些组织具有相似的肿瘤特征,并表现出令人满意的生理功能。代谢表征和小鼠致瘤性测试结果证实,构建的 RHLC 显著提高了体外抗药性,同时也密切模拟了体内组织代谢。这为创建用于筛选化疗药物的有效体外模型提供了新的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biomaterials Science
Biomaterials Science MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.50%
发文量
556
期刊介绍: Biomaterials Science is an international high impact journal exploring the science of biomaterials and their translation towards clinical use. Its scope encompasses new concepts in biomaterials design, studies into the interaction of biomaterials with the body, and the use of materials to answer fundamental biological questions.
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