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β1 integrin, ILK and mTOR regulate collagen synthesis in mechanically loaded tendon cells.

Scientific reports (2020-07-30)
Rouhollah Mousavizadeh, Payman Hojabrpour, Felipe Eltit, Paul C McDonald, Shoukat Dedhar, Robert G McCormack, Vincent Duronio, Seyed Mehdi Jafarnejad, Alex Scott
RESUMO

Tendons are specialized tissues composed primarily of load-responsive fibroblasts (tenocytes) embedded in a collagen-rich extracellular matrix. Habitual mechanical loading or targeted exercise causes tendon cells to increase the stiffness of the extracellular matrix; this adaptation may occur in part through collagen synthesis or remodeling. Integrins are likely to play an important role in transmitting mechanical stimuli from the extracellular matrix to tendon cells, thereby triggering cell signaling pathways which lead to adaptive regulation of mRNA translation and protein synthesis. In this study, we discovered that mechanical stimulation of integrin β1 leads to the phosphorylation of AKT, an event which required the presence of integrin-linked kinase (ILK). Repetitive stretching of tendon cells activates the AKT and mTOR pathways, which in turn regulates mRNA translation and collagen expression. These results support a model in which integrins are an upstream component of the mechanosensory cellular apparatus, regulating fundamental tendon cell functions relevant to exercise-induced adaptation and mechanotherapy.

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Sigma-Aldrich
Anti-vinculina monoclonal, clone hVIN-1, ascites fluid
Sigma-Aldrich
Anticorpo antipuromicina, clone 12D10, clone 12D10, from mouse
Sigma-Aldrich
QLT0267, ≥98% (HPLC)