Change in p53 nuclear localization in response to extracellular matrix stiffness.

Smart medicine Pub Date : 2024-11-17 eCollection Date: 2024-12-01 DOI:10.1002/SMMD.20240026

Yan Zu, Jing Du, Yipu Xu, Mengying Niu, Canlin Hong, Chun Yang

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Abstract

Chondrocytes are commonly applied in regenerative medicine and tissue engineering. Thus, the discovery of optimal culture conditions to obtain cells with good properties and behavior for transplantation is important. In addition to biochemical cues, physical and biomechanical changes can affect the proliferation and protein expression of chondrocytes. Here we investigated the effect of extracellular matrix stiffness on mouse articular chondrocyte phenotype, growth, and subcellular p53 localization. Chondrocytes were seeded on collagen-coated substrates varying in elasticity: 0.5 and 100 kPa. Immunocytochemical staining and immunoblotting showed that a softer substrate significantly increased p53 nuclear localization in chondrocytes. Furthermore, we identified microRNA-532 (miR-532) as a potential p53 target gene to influence cell function, indicating a new target for tissue engineering. These findings provide insight into the influence of physical cues on cell phenotype maintenance and could help improve understanding of cartilage-related pathologies such as osteoarthritis.

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细胞外基质硬度对p53核定位的影响。

软骨细胞在再生医学和组织工程中有着广泛的应用。因此，发现最佳培养条件以获得具有良好性质和行为的细胞用于移植是很重要的。除了生化信号外，物理和生物力学变化也会影响软骨细胞的增殖和蛋白表达。在这里，我们研究了细胞外基质刚度对小鼠关节软骨细胞表型、生长和亚细胞p53定位的影响。软骨细胞被播种在弹性为0.5和100 kPa的胶原包被基质上。免疫细胞化学染色和免疫印迹显示，较软的底物显著增加了p53在软骨细胞中的核定位。此外，我们发现microRNA-532 （miR-532）是p53影响细胞功能的潜在靶基因，为组织工程提供了新的靶标。这些发现提供了物理线索对细胞表型维持的影响的见解，并有助于提高对软骨相关病理如骨关节炎的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Smart medicine

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