Theaflavin-3,3′-digallate attenuates chondrocyte senescence via modulating FGF7 and KEAP1/NRF2 signaling pathway

Hongwei Kou, Feng Lu, Maoyuan Li, Yimin Liu, Shishou Li, Guangrong Yin, Jie Chen, Gongyin Zhao, Liangliang Wang, Yuji Wang, Chao Xu

Journal:FREE RADICAL BIOLOGY AND MEDICINE

IF:8

DOI:10.1016/j.freeradbiomed.2026.05.303

PMID:42162842

Published:2026-05-19

research field:分子生物学风湿病学药理学细胞生物学衰老研究信号转导

Abstract

Studies have demonstrated that chondrocyte senescence is involved in the pathological progression of osteoarthritis. This study aimed to investigate the effect of TF3 on chondrocyte senescence and its underlying molecular mechanism. Primary chondrocytes were isolated from mice, and senescence-related markers, mitochondrial metabolism levels, and the expression of the FGF7/Keap1-NRF2-related pathway were examined using CCK-8 assay, Western blot, β-galactosidase staining, and fluorescence staining. RNA sequencing and molecular docking were further employed to explore the mechanisms by which TF3 inhibits chondrocyte senescence. A mouse model of destabilization of the medial meniscus (DMM) was established, and the anti-senescence and cartilage protective effects of TF3 were evaluated through H&E staining, immunohistochemistry, micro-CT, and Safranin O/Fast Green staining. The results showed that TF3 suppressed the expression of senescence-associated proteins, including p16 Ink4a , p21, IL-6, and MMP13, while promoting the expression of Coll2a1 in IL-1β induced cell senescence model. Additionally, TF3 reduced β-galactosidase activity and alleviated DNA damage. RNA sequencing and experimental findings revealed that the anti-senescence effect of TF3 might be related to the regulation of oxidative stress and mitochondrial metabolism. Furthermore, the FGF7 and Keap1/NRF2 pathway were involved in TF3-mediated inhibition of chondrocyte senescence. NRF2 knockdown and exogenous rFGF7 supplementation abrogated the protective effects of TF3 against chondrocyte senescence. Animal experiments further confirmed that TF3 exerted anti-senescence effects and delayed joint degeneration. This study reveals important molecular mechanisms by which TF3 inhibits chondrocyte senescence and retards OA progression, suggesting that TF3 may serve as a potential novel therapeutic strategy for OA.

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