Tissue Eng Regen Med.  2018 Feb;15(1):37-48. 10.1007/s13770-017-0084-8.

Non-contact Coculture Reveals a Comprehensive Response of Chondrocytes Induced by Mesenchymal Stem Cells Through Trophic Secretion

Affiliations
  • 1State Key Laboratory of Bioreactor Engineering, East China University of Science and Technology, 130 Mei-Long Road, P. O. Box 309#, Shanghai 200237, People's Republic of China. zhaoyangye@ecust.edu.cn, wstan@ecust.edu.cn

Abstract

Coculture between mesenchymal stem cells (MSCs) and chondrocytes has significant implications in cartilage regeneration. However, a conclusive understanding remains elusive. Previously, we reported that rabbit bone marrow-derived MSCs (rbBMSCs) could downregulate the differentiated phenotype of rabbit articular chondrocytes (rbACs) in a non-contact coculture system for the first time. In the present study, a systemic investigation was performed to understand the biological characteristics of chondrocytes in coculture with MSCs. Firstly, cells (MSCs and chondrocytes) from different origins were cocultured in transwell system. Different chondrocytes, when cocultured with different MSCs respectively, consistently demonstrated stimulated proliferation, transformed morphology and declined glycosaminoglycan secretion of chondrocytes. Next, cell surface molecules and the global gene expression of rbACs were characterized. It was found that cocultured rbACs showed a distinct surface molecule profile and global gene expression compared to both dedifferentiated rbACs and rbBMSCs. In the end, cocultured rbACs were passaged and induced to undergo the chondrogenic redifferentiation. Better growth and chondrogenesis ability were confirmed compared with control cells without coculture. Together, chondrocytes display comprehensive changes in coculture with MSCs and the cocultured rbACs are beneficial for cartilage repair.

Keyword

Cartilage regeneration; Mesenchymal stem cells; Chondrocytes; Coculture; Paracrine factors

MeSH Terms

Cartilage
Chondrocytes*
Chondrogenesis
Coculture Techniques*
Gene Expression
Mesenchymal Stromal Cells*
Phenotype
Population Characteristics
Regeneration
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