Literature DB >> 33731712

Mechanical stress determines the configuration of TGFβ activation in articular cartilage.

Gehua Zhen1, Qiaoyue Guo1, Yusheng Li1, Chuanlong Wu1, Shouan Zhu1, Ruomei Wang1, X Edward Guo2, Byoung Choul Kim3, Jessie Huang4, Yizhong Hu2, Yang Dan1, Mei Wan1, Taekjip Ha3, Steven An4,5, Xu Cao6.   

Abstract

Our incomplete understanding of osteoarthritis (OA) pathogenesis has significantly hindered the development of disease-modifying therapy. The functional relationship between subchondral bone (SB) and articular cartilage (AC) is unclear. Here, we found that the changes of SB architecture altered the distribution of mechanical stress on AC. Importantly, the latter is well aligned with the pattern of transforming growth factor beta (TGFβ) activity in AC, which is essential in the regulation of AC homeostasis. Specifically, TGFβ activity is concentrated in the areas of AC with high mechanical stress. A high level of TGFβ disrupts the cartilage homeostasis and impairs the metabolic activity of chondrocytes. Mechanical stress stimulates talin-centered cytoskeletal reorganization and the consequent increase of cell contractile forces and cell stiffness of chondrocytes, which triggers αV integrin-mediated TGFβ activation. Knockout of αV integrin in chondrocytes reversed the alteration of TGFβ activation and subsequent metabolic abnormalities in AC and attenuated cartilage degeneration in an OA mouse model. Thus, SB structure determines the patterns of mechanical stress and the configuration of TGFβ activation in AC, which subsequently regulates chondrocyte metabolism and AC homeostasis.

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Year:  2021        PMID: 33731712      PMCID: PMC7969741          DOI: 10.1038/s41467-021-21948-0

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


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