Abstract
Background
Epigenetic regulation of gene transcription affects metabolism of chondrocytes and synovial fibroblasts and is associated with the prevalence of osteoarthritis (OA) of knees. Histone lysine demethylase (KDMs) reportedly modulates tissue homeostasis and deterioration. This study investigated whether KMD6a inhibitor treatment affected the joint injuries in the progression of OA.
Methods
Collagenase-induced OA knees in mice were intra-articular administered with KDM6a inhibitor GSK-J4. Walking patterns and footprints of affected animals were detected by Catwalk. Articular cartilage injury was quantified by OARSI scoring; and subchondral bone microstructure was analysed by μCT imaging. Histopathology and mRNA expression of cartilage, fibrosis and bone matrices in joint micro-compartments were detected by histomorphometry and quantitative RT-PCR. Methylation states of chondrogenic transcription factor SOX9 promoter was detected by methylation-specific PCR and chromatin immuno-precipitation.
Results
Declined KDM6a expression and SOX9 gene transcription was associated with the pathogenesis of collagenase-induced joint injures. GSK-J4 administration dose-dependently improved gait profiles and footprint characteristics of affected feet and alleviated histopathology of severe cartilage degradation, synovial inflammation, fibrotic matrix accumulation and subchondral bone microarchitecture deterioration in injured joints. Treatment with GSK-J4 decreased expression of fibrogenic factor (TGF-β1, PLOD2 and TIMP) and restored expression of cartilage and bone matrices (collagen II, I, aggrecan, and osteocalcin). KDM6a inhibitor curtailed the hypomethylation of SOX9 promoter and lysine 27 of histone H3 (H3K27) and restored SOX9 mRNA and protein levels in joint tissues.
Conclusions
KDM6a enhanced SOX9 promoter and H3K27 hypomethylation that accelerated the progression of OA. KDM6a inhibitor had mitigated effects on SOX9 promoter demethylation thereby restored SOX9 signaling and stabilised homeostasis of cartilage, synovium and subchondral bone compartments in affected joints. This study sheds a new light on the KDM6a-mediated epigenetic dysfunction in OA joints and has a perspective that pharmaceutical KDM6a inhibitor has therapeutic potential for OA knee pathogenesis.
Level of evidence
II
