Enhancing the potential of aged human articular chondrocytes for high‐quality cartilage regeneration

再生(生物学) 关节软骨 软骨 医学 骨关节炎 细胞生物学 解剖 病理 生物 替代医学
作者
He Shen,Yuchen He,Ning Wang,Madalyn R. Fritch,Xinyu Li,Hang Lin,Rocky S. Tuan
出处
期刊:The FASEB Journal [Wiley]
卷期号:35 (3): e21410-e21410 被引量:19
标识
DOI:10.1096/fj.202002386r
摘要

Abstract Autologous chondrocyte implantation (ACI) is a regenerative procedure used to treat focal articular cartilage defects in knee joints. However, age has been considered as a limiting factor and ACI is not recommended for patients older than 40‐50 years of age. One reason for this may be due to the reduced capacity of aged chondrocytes in generating new cartilage. Currently, the underlying mechanism contributing to aging‐associated functional decline in chondrocytes is not clear and no proven approach exists to reverse chondrocyte aging. Given that chondrocytes in healthy hyaline cartilage typically display a spherical shape, believed to be essential for chondrocyte phenotype stability, we hypothesize that maintaining aged chondrocytes in a suspension culture that forces the cells to adopt a round morphology may help to “rejuvenate” them to a younger state, thus, leading to enhanced cartilage regeneration. Chondrocytes isolated from aged donors displayed reduced proliferation potential and impaired capacity in generating hyaline cartilage, compared to cells isolated from young donors, indicated by increased hypertrophy and cellular senescence. To test our hypothesis, the “old” chondrocytes were seeded as a suspension onto an agarose‐based substratum, where they maintained a round morphology. After the 3‐day suspension culture, aged chondrocytes displayed enhanced replicative capacity, compared to those grown adherent to tissue culture plastic. Moreover, chondrocytes subjected to suspension culture formed new cartilage in vitro with higher quality and quantity, with enhanced cartilage matrix deposition, concomitant with lower levels of hypertrophy and cellular senescence markers. Mechanistic analysis suggested the involvement of the RhoA and ERK1/2 signaling pathways in the “rejuvenation” process. In summary, our study presents a robust and straightforward method to enhance the function of aged human chondrocytes, which can be conveniently used to generate a large number of high‐quality chondrocytes for ACI application in the elderly.
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