山羊颞下颌关节盘α -平滑肌活动的表达及其对自组装工程结构的影响

2012 International Conference on Biomedical Engineering and Biotechnology Pub Date : 2012-05-28 DOI:10.1109/ICBEB.2012.211

Hong Kang, Mengyi Qi, G. Bao

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引用次数: 1

摘要

本研究旨在探讨平滑肌动作α (α-SMA)在山羊颞下颌关节(TMJ)椎间盘及自组装结构中的表达。采用免疫组化(IHC)方法检测1月龄山羊TMJ椎间盘中a-SMA的表达。用0.1% I型胶原酶从1月龄山羊TMJ椎间盘中分离TMJ椎间盘细胞，传代至P3进行组织工程。5.5×10(6)将细胞接种于直径为5 mm的孔中，孔中填充2%琼脂糖凝胶，加入10μg/L的IGF-I生长因子，刺激TMJ椎间盘自组装结构的成熟过程。分别于第2、4、6、8周测量构念的尺寸、形态和重量。采用免疫组化染色检测α-SMA在自组装构建体中的分布。α-SMA的免疫组化染色在四组自组装构建体中呈全局均匀分布，其中第二组表达最强。本实验还证实，α-SMA在自组装构建体中的表达远高于在天然TMJ椎间盘组织中的表达。综上所述，α-SMA可能参与了工程构建体的发育调控过程，并可能部分解释了TMJ椎间盘自组装构建体在生长发育过程中由于体积收缩而变得更小、密度更大的原因。

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Expression of Alpha-smooth Muscle Action in Goat Temporomandibular Joint Disc and Its Effect on Self-Assembled Engineered Constructs

Purpose of this study was to investigate the expression of smooth muscle action-alpha (α-SMA) in native goat temporomandibular joint (TMJ) disc and in self-assembled construct of TMJ disc. Expression of a-SMA in native one-month-aged goat TMJ disc was examined by immunohistochemistry (IHC) method. TMJ disc cells were isolated from one-month-aged goat TMJ discs with 0.1% type I collagenase and passaged to P3 for tissue engineering. 5.5×10(6) cells were seeded into 5 mm diameter wells filled with 2% agarose gels in which 10μg/L IGF-I growth factor was added to stimulate mature process of self-assembled constructs of TMJ disc. Dimensions, forms and weights of constructs were measured respectively at the second, fourth, sixth and eighth week. IHC staining was used to examine the distribution of α-SMA in self-assembled constructs. The IHC staining for α-SMA was globally uniformly distributed in all four groups of self-assembled constructs and expressed the strongest in the second group. This experiment also confirmed that much more significant expression of α-SMA in self-assembled constructs than in the native TMJ disc tissue. Conclusively, α-SMA could take part in the regulating developmental process of engineered construct and may be used partially to explain the reason why TMJ disc self-assembled constructs become much smaller and denser during its growth and development due to its volume shrinkage.

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2012 International Conference on Biomedical Engineering and Biotechnology

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