Senolytic activity of small molecular polyphenols from olive restores chondrocyte redifferentiation and promotes a pro-regenerative environment in osteoarthritis
Varela Eirín, Marta; Carpintero Fernández, Paula; Sánchez Temprano, Agustín; Varela Vázquez, Adrian; Paíno, Carlos Luis; Casado-Díaz, Antonio; Continente, Alfonso Calañas; Mato, Virginia; Fonseca Capdevila, Eduardo; Kandouz, Mustapha; Blanco, Alfonso; Caeiro Rey, José Ramón; Mayan Santos, María Dolores
Identifiers
Identifiers
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Files view or download
Date issued
2020Journal title
Aging-US
Type of content
Journal Article
DeCS
proteínas nucleares | polifenoles | diferenciación celular | antirreumáticos | osteogénesis | transducción de señales | iridoides | condrocitos | condrogénesis | microambiente celular | conexina 43 | anciano | colágeno de tipo II | cartílago | línea celular | humanos | regeneración | NF-kappa B | glucósidos iridoides | frutas | osteoartritisMeSH
Polyphenols | Cellular Microenvironment | Osteogenesis | Iridoid Glucosides | Connexin 43 | Chondrocytes | Signal Transduction | NF-kappa B | Osteoarthritis | Fruit | Nuclear Proteins | Iridoids | Cell Differentiation | Cell Line | Chondrogenesis | Humans | Antirheumatic Agents | Collagen Type II | Regeneration | Aged | CartilageAbstract
Articular cartilage and synovial tissue from patients with osteoarthritis (OA) show an overactivity of connexin43 (Cx43) and accumulation of senescent cells associated with disrupted tissue regeneration and disease progression. The aim of this study was to determine the effect of oleuropein on Cx43 and cellular senescence for tissue engineering and regenerative medicine strategies for OA treatment. Oleuropein regulates Cx43 promoter activity and enhances the propensity of hMSCs to differentiate into chondrocytes and bone cells, reducing adipogenesis. This small molecule reduce Cx43 levels and decrease Twist-1 activity in osteoarthritic chondrocytes (OACs), leading to redifferentiation, restoring the synthesis of cartilage ECM components (Col2A1 and proteoglycans), and reducing the inflammatory and catabolic factors mediated by NF-kB (IL-1ss, IL-6, COX-2 and MMP-3), in addition to lowering cellular senescence in OACs, synovial and bone cells. Our in vitro results demonstrate the use of olive-derived polyphenols, such as oleuropein, as potentially effective therapeutic agents to improve chondrogenesis of hMSCs, to induce chondrocyte re-differentiation in OACs and clearing out senescent cells in joint tissues in order to prevent or stop the progression of the disease.