软骨素酶 ABC 和 TGF-β1 联合处理促进自组装新生软骨协同增强作用的机制。
Mechanisms underlying the synergistic enhancement of self-assembled neocartilage treated with chondroitinase-ABC and TGF-β1.
机构信息
Department of Biomedical Engineering, University of California Davis, One Shields Ave, Davis, CA 95616, USA.
出版信息
Biomaterials. 2012 Apr;33(11):3187-94. doi: 10.1016/j.biomaterials.2012.01.028. Epub 2012 Jan 26.
Abstract
Developing a platform for in vitro cartilage formation would enhance the study of cartilage development, pathogenesis, and regeneration. To improve neocartilage formation, our group developed a novel self-assembly process for articular chondrocytes, which has been improved in this study using a novel combination of catabolic and anabolic agents. TGF-β1 was applied in conjunction with the enzyme chondroitinase-ABC (C-ABC) to additively increase tensile properties and synergistically enhance collagen content. Additionally, microarray analysis indicated that TGF-β1 up-regulated MAPK signaling in contrast to C-ABC, which did not enrich genetic pathways. The lack of genetic signaling spurred investigation of the biophysical role of C-ABC, which showed that C-ABC treatment increased collagen fibril diameter and density. After four weeks of culture in nude mice, neocartilage exhibited stability and maturation. This study illustrated an innovative strategy for improving in vitro and in vivo articular cartilage formation and elucidated mechanisms underlying TGF-β1 and C-ABC treatment.
摘要
开发体外软骨形成平台将有助于研究软骨发育、发病机制和再生。为了提高新软骨的形成,我们小组开发了一种新的关节软骨细胞自组装工艺,本研究使用新型分解代谢和合成代谢药物组合对其进行了改进。TGF-β1 与酶软骨素酶 ABC(C-ABC)联合应用可协同增加拉伸性能并协同增加胶原蛋白含量。此外,微阵列分析表明,TGF-β1 上调了 MAPK 信号通路,而 C-ABC 则没有富集遗传途径。缺乏遗传信号促使我们研究 C-ABC 的生物物理作用,结果表明 C-ABC 处理增加了胶原蛋白纤维直径和密度。在裸鼠中培养四周后,新形成的软骨表现出稳定性和成熟性。本研究说明了一种改进体外和体内关节软骨形成的创新策略,并阐明了 TGF-β1 和 C-ABC 治疗的机制。
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