期刊
ACS APPLIED MATERIALS & INTERFACES
卷 8, 期 35, 页码 22884-22891出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsami.6b07097
关键词
chondrocytes; elastic substrates; phenotype; cytoskeleton; RhoA/ROCK pathway
资金
- National Natural Science Foundation of China [81470721, 81471803, 81321002]
- Sichuan Province Youth Science, and Technology Innovation Team [2014TD0001]
Due to its evascular, aneural, and alymphatic conditions, articular cartilage shows extremely poor regenerative ability. Thus, directing chondrocyte toward a desired location and function by utilizing the mechanical cues of biomaterials is a promising approach for effective tissue regeneration. However, chondrocytes cultured on Petri dish will lose their typical phenotype which may lead to compromised results. Therefore, we fabricated polydimethylsiloxane (PDMS) materials with various stiffness as culture substrates. Cell morphology and focal adhesion of chondrocytes displayed significant changes. The cytoskeletal tension of the adherent cells observed by average myosin IIA fluorescent intensity increased as stiffness of the underlying substrates decreased, consistent with the alteration of chondrocyte phenotype in our study. Immunofluorescent images and q-PCR results revealed that chondrocyte cultured on soft substrates showed better chondrocyte functionalization by more type II collagen and aggrecan expression, related to the lowest mRNA level of Rac-1, RhoA, ROCK-1, and ROCK-2. Taken together, this work not only points out that matrix elasticity can regulate chondrocyte functionalization via RhoA/ROCK pathway, but also provides new prospect for biomechanical control of cell behavior in cell based cartilage regeneration.
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