细胞外基质硬度的增加增强了三维生物打印卵巢癌模型的化疗耐受性

IF 6.8 3区医学 Q1 ENGINEERING, BIOMEDICAL

International Journal of Bioprinting Pub Date : 2024-01-18 DOI:10.36922/ijb.1673

Ying Shan, Mingchang Pang, Liqian Wang, Yixin Mao, Ruiyi Yan, Chang Zhou, Jingyuan Ji, Yilei Mao, Ying Jin, Huayu Yang

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引用次数: 0

摘要

卵巢癌是一种死亡率很高的妇科恶性肿瘤。卵巢癌微环境是影响卵巢癌患者总生存率和无进展生存率的关键因素。肿瘤微环境的生物物理因素（如硬度）会影响肿瘤细胞的基因表达和行为。在这项研究中，我们利用三维生物打印技术在体外构建了不同硬度的卵巢癌肿瘤模型，以研究细胞外基质硬度对肿瘤细胞耐药性的影响。我们的研究结果表明，增加细胞外基质的硬度可以降低肿瘤细胞对化疗药物的敏感性。此外，增加三维肿瘤模型的硬度可能会促进恶性表型，如肿瘤干细胞和肿瘤进展。

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Increased stiffness of extracellular matrix enhanced chemoresistance in 3D-bioprinted ovarian cancer model

Ovarian cancer is a gynecological malignancy with a high mortality rate. The ovarian cancer microenvironment is a crucial factor affecting the overall and progression-free survival rates of patients with ovarian cancer. The biophysical factors of the tumor microenvironment, such as stiffness, can affect the gene expression and behavior of tumor cells. In this study, we utilized 3D bioprinting technology to construct ovarian cancer tumor models with varying levels of stiffness in vitro to investigate the effect of extracellular matrix stiffness on drug resistance of tumor cells. Our findings indicate that increasing the stiffness of extracellular matrix can attenuate the sensitivity of tumor cells to chemotherapeutic agents. Additionally, the increased stiffness of 3D tumor model may promote malignant phenotypes, such as tumor stemness and tumor progression.

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来源期刊

International Journal of Bioprinting Multiple-

CiteScore

6.90

自引率

4.80%

发文量

期刊介绍： The International Journal of Bioprinting is a globally recognized publication that focuses on the advancements, scientific discoveries, and practical implementations of Bioprinting. Bioprinting, in simple terms, involves the utilization of 3D printing technology and materials that contain living cells or biological components to fabricate tissues or other biotechnological products. Our journal encompasses interdisciplinary research that spans across technology, science, and clinical applications within the expansive realm of Bioprinting.