用于研究甲状腺生物学和疾病的培养模型。

Culture models for studying thyroid biology and disorders.

作者信息

Toda Shuji, Aoki Shigehisa, Uchihashi Kazuyoshi, Matsunobu Aki, Yamamoto Mihoko, Ootani Akifumi, Yamasaki Fumio, Koike Eisuke, Sugihara Hajime

机构信息

Department of Pathology & Microbiology, Faculty of Medicine, Saga University, Nabeshima 5-1-1, Saga 849-8501, Japan.

出版信息

ISRN Endocrinol. 2011;2011:275782. doi: 10.5402/2011/275782. Epub 2011 Jul 12.

DOI:10.5402/2011/275782

PMID:22363871

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3262635/

Abstract

The thyroid is composed of thyroid follicles supported by extracellular matrix, capillary network, and stromal cell types such as fibroblasts. The follicles consist of thyrocytes and C cells. In this microenvironment, thyrocytes are highly integrated in their specific structural and functional polarization, but monolayer and floating cultures cannot allow thyrocytes to organize the follicles with such polarity. In contrast, three-dimensional (3-D) collagen gel culture enables thyrocytes to form 3-D follicles with normal polarity. However, these systems never reconstruct the follicles consisting of both thyrocytes and C cells. Thyroid tissue-organotypic culture retains 3-D follicles with both thyrocytes and C cells. To create more appropriate experimental models, we here characterize four culture systems above and then introduce the models for studying thyroid biology and disorders. Finally, we propose a new approach to the cell type-specific culture systems on the basis of in vivo microenvironments of various cell types.

摘要

甲状腺由甲状腺滤泡组成，这些滤泡由细胞外基质、毛细血管网络和成纤维细胞等基质细胞类型支撑。滤泡由甲状腺细胞和C细胞组成。在这种微环境中，甲状腺细胞在其特定的结构和功能极化方面高度整合，但单层培养和悬浮培养无法使甲状腺细胞形成具有这种极性的滤泡。相比之下，三维（3-D）胶原凝胶培养能使甲状腺细胞形成具有正常极性的三维滤泡。然而，这些系统从未重建出由甲状腺细胞和C细胞共同组成的滤泡。甲状腺组织器官型培养保留了同时含有甲状腺细胞和C细胞的三维滤泡。为了创建更合适的实验模型，我们在此对上述四种培养系统进行了表征，然后介绍了用于研究甲状腺生物学和疾病的模型。最后，我们基于各种细胞类型的体内微环境，提出了一种针对细胞类型特异性培养系统的新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9f40/3262635/f6b04e01cdb0/ENDOCRINOLOGY2011-275782.001.jpg

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用于研究甲状腺生物学和疾病的培养模型。

Culture models for studying thyroid biology and disorders.

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