三维工程组织模型中的癌症相关成纤维细胞诱导肿瘤样基质硬化和上皮-间质转化

Cancer-Associated Fibroblasts in a 3D Engineered Tissue Model Induce Tumor-like Matrix Stiffening and EMT Transition.

作者信息

Millet Martial, Bollmann Enola, Ringuette Goulet Cassandra, Bernard Geneviève, Chabaud Stéphane, Huot Marc-Étienne, Pouliot Frédéric, Bolduc Stéphane, Bordeleau François

机构信息

CHU de Québec-Université Laval Research Center (Oncology Division) and Université Laval Cancer Research Center, Quebec City, QC G1R 3S3, Canada.

CHU de Québec-Université Laval Research Center (Regenerative Medicine Division), Quebec City, QC G1V 4G2, Canada.

出版信息

Cancers (Basel). 2022 Aug 5;14(15):3810. doi: 10.3390/cancers14153810.

DOI:10.3390/cancers14153810

PMID:35954473

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9367573/

Abstract

A tumor microenvironment is characterized by its altered mechanical properties. However, most models remain unable to faithfully recreate the mechanical properties of a tumor. Engineered models based on the self-assembly method have the potential to better recapitulate the stroma architecture and composition. Here, we used the self-assembly method based on a bladder tissue model to engineer a tumor-like environment. The tissue-engineered tumor models were reconstituted from stroma-derived healthy primary fibroblasts (HFs) induced into cancer-associated fibroblast cells (iCAFs) along with an urothelium overlay. The iCAFs-derived extracellular matrix (ECM) composition was found to be stiffer, with increased ECM deposition and remodeling. The urothelial cells overlaid on the iCAFs-derived ECM were more contractile, as measured by quantitative polarization microscopy, and displayed increased YAP nuclear translocation. We further showed that the proliferation and expression of epithelial-to-mesenchymal transition (EMT) marker in the urothelial cells correlate with the increased stiffness of the iCAFs-derived ECM. Our data showed an increased expression of EMT markers within the urothelium on the iCAFs-derived ECM. Together, our results demonstrate that our tissue-engineered tumor model can achieve stiffness levels comparable to that of a bladder tumor, while triggering a tumor-like response from the urothelium.

摘要

肿瘤微环境的特征在于其机械性能的改变。然而，大多数模型仍然无法如实地重现肿瘤的机械性能。基于自组装方法的工程模型有潜力更好地概括基质结构和组成。在这里，我们使用基于膀胱组织模型的自组装方法构建了一个肿瘤样环境。组织工程肿瘤模型由基质来源的健康原代成纤维细胞（HFs）诱导生成癌症相关成纤维细胞（iCAFs）并覆盖尿路上皮重建而成。发现iCAFs衍生的细胞外基质（ECM）组成更硬，ECM沉积和重塑增加。通过定量偏振显微镜测量，覆盖在iCAFs衍生的ECM上的尿路上皮细胞收缩性更强，并且显示YAP核转位增加。我们进一步表明，尿路上皮细胞中上皮-间质转化（EMT）标志物的增殖和表达与iCAFs衍生的ECM硬度增加相关。我们的数据显示iCAFs衍生的ECM上尿路上皮内EMT标志物的表达增加。总之，我们的结果表明，我们的组织工程肿瘤模型可以达到与膀胱肿瘤相当的硬度水平，同时引发尿路上皮的肿瘤样反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0945/9367573/03325bde5dcd/cancers-14-03810-g001.jpg

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三维工程组织模型中的癌症相关成纤维细胞诱导肿瘤样基质硬化和上皮-间质转化

Cancer-Associated Fibroblasts in a 3D Engineered Tissue Model Induce Tumor-like Matrix Stiffening and EMT Transition.

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