H3K9me3 loss and ERVs activation as hallmarks for osteoarthritis progression and knee joint aging.

Objective: This study aims to link aberrant endogenous retroviruses (ERVs) activation and osteoarthritis (OA) progression by comparing the chromatin accessibility and transcriptomic landscapes of diseased or intact joint tissues of OA patients.
Method: We performed ERVs-centric analysis on published ATAC-seq and RNA-seq data from OA patients' cartilage tissues. Here, we compared the outer region of the lateral tibial plateau, representing intact cartilage, to the inner region of the medial tibial plateau, representing damaged cartilage. In addition, cartilage tissue sections from OA patients and post-traumatic OA mouse models were assayed for global H3K9me3 abundance through immunohistochemistry staining.
Results: Chromatin accessibility and transcription of ERVs, particularly from evolutionarily "intermediate age" ERVs families (ERV1 and ERVL), were enriched and elevated in OA cartilage. This integrative analysis suggests that H3K9me3-related heterochromatin loss might be mechanistically connected to ERV activation in OA tissue. We further verified that global H3K9me3 levels were reduced in diseased cartilage relative to intact tissue in OA patients and injury-induced OA mice.
Conclusion: The findings suggest a compelling hypothesis that the loss of H3K9me3, either due to aging or cellular stressors, may lead to ERVs reactivation that contributes to tissue inflammation and OA progression. This study unveils the intricate relationship between epigenetic alterations, ERVs activation, and OA, paving the way for potential therapeutic interventions targeting these pathogenic mechanisms.
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