体外模拟和验证三维人类乳房和癌性人类乳房组织

A. Zuk, Beata Burczyńska, Dong Li, L. Ghali, S. Dilworth, X. Wen
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引用次数: 1

摘要

在本研究中,我们建立了正常乳腺和乳腺癌组织的三维体外模型,以模拟体内组织微环境,从而为体外研究和新型癌症治疗方法的测试提供可靠的模型。正常和癌变的人类乳腺细胞系被用来构建3-D人工组织,其中去表皮真皮(DED)被用作两种模型的支架。采用苏木精和伊红染色进行形态学分析。生物标志物包括角蛋白5和19以及α平滑肌肌动蛋白和粘蛋白1,使用免疫组织化学技术验证了所提出模型的可靠性。研究结果表明,在这项工作中描述的3-D体外模型可以作为人类正常和癌性乳腺组织的功能模型。利用H&E在体外三维模型中观察到与人体内乳腺导管和小叶相似的多个结构,癌性三维模型中的一些乳腺癌菌落与正常乳腺三维模型中的导管-小叶结构相似,但前者细胞连接更为松散,不规则,且组织混乱。建立的正常乳腺三维体外模型显示,由内细胞层组成的导管-小叶结构发育,其细胞内标记物α粘蛋白1抗体染色呈阳性;此外,外基底层细胞α平滑肌肌动蛋白(肌上皮细胞的生物标志物)染色呈阳性。体外3d模型中的角蛋白染色也与体内观察到的模式相似,在正常乳腺模型(NTERT细胞)的管腔细胞和肌上皮细胞中都检测到角蛋白5,而在乳腺癌模型(C2321细胞)中检测到角蛋白19。这些三维模型成功地概括了乳腺组织的正常和病理组织结构,并在乳腺癌进展和治疗的评估中具有各种应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modelling and Validating Three-Dimensional Human Breast and Cancerous Human Breast Tissues In Vitro
In this study three dimensional (3-D) in vitro models of normal breast and breast cancer tissues were developed to mimic closely the in vivo tissue microenvironment and therefore providing reliable models for in vitro studies as well as testing of novel cancer therapies. Normal and cancerous human breast cell lines were used to construct 3-D artificial tissues, where de-epidermalised dermis (DED) was used as a scaffold for both models. Morphological analyses were conducted using haematoxylin and eosin staining. Biomarkers including keratin 5 and 19 as well as α smooth muscle actin and mucin 1 were used to confirm and validate the reliability of the proposed models using immunohistochemical techniques. Findings suggest that the 3-D in vitro models described in this work can serve as functional models of both human normal and cancerous breast tissues. Multiple structures similar to ducts and lobules of human breast in vivo were observed in 3-D in vitro models by the use of H&E, some breast cancer colonies seen in the cancerous 3-D model were similar to the ducto-lobular structures observed in normal 3-D model of the breast but the former cells were more loosely connected, irregular and largely disorganized. The established 3-D in vitro model of normal breast showed the development of ducto-lobular structures composed of an inner cell layer which was stained positive with α mucin 1 antibody, a biomarker that is characteristic for luminal cells; and also an outer basal layer of cells that was stained positive for α smooth muscle actin, a biomarker of myoepithelial cells.. Keratin staining in 3-D in vitro models also resembled the pattern observed in vivo where keratin 5 was detected in both luminal and myoepithelial cells of normal breast model (NTERT cells), whereas keratin 19 was present in breast cancer model (C2321 cells). These 3-D models successfully recapitulate both normal and pathological tissue architecture of breast tissue and has the potential for various applications in the evaluation of breast cancer progression and treatment.
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