Exosomes derived from primary cartilage stem/progenitor cells promote the repair of osteoarthritic chondrocytes by modulating immune responses

Abstract

Background: Exosomes derived from primary chondrogenic stem/progenitor cells (CSPCs-EXOs) show promise in cartilage repair due to their immunomodulatory and regenerative properties. However, their specific therapeutic potential in osteoarthritis (OA), especially in modulating immune responses and enhancing chondrocyte function, requires further exploration. This study aims to clarify CSPCs-EXOs' effects on OA by investigating their role in chondrocyte proliferation, migration, inflammation inhibition, and cartilage regeneration.

Methods: A rat model of osteoarthritis was established using monosodium iodoacetate (MIA). CSPCs-EXOs were isolated and characterized before being administered to the OA rats. Comprehensive transcriptomic analysis was conducted to identify differentially expressed genes (DEGs) and signaling pathways influenced by CSPCs-EXOs. Histopathological evaluation of cartilage tissue, immunohistochemistry, and in vitro assays were performed to assess chondrocyte proliferation, migration, inflammation, and intracellular environmental changes.

Results: CSPCs-EXOs treatment significantly reduced OA-induced cartilage damage, shown by improved histopathological features, increased chondrocyte proliferation, migration, and enhanced cartilage matrix integrity. CSPCs-EXOs uniquely modulated immune pathways and enhanced cellular repair, setting them apart from traditional treatments. Transcriptomic analysis revealed regulation of immune response, inflammation, oxidative stress, and DNA repair pathways. CSPCs-EXOs downregulated inflammatory cytokines (TNF, IL-17) and upregulated pathways for cellular proliferation, migration, and metabolism. They also altered splicing patterns of DNA repair enzymes, indicating a role in boosting repair mechanisms.

Conclusions: CSPCs-EXOs promote cartilage repair in osteoarthritis by modulating immune responses, inhibiting inflammation, and improving the intracellular environment. These findings emphasize their innovative therapeutic potential and offer key insights into their regenerative mechanisms, positioning CSPCs-EXOs as a promising strategy for OA treatment and a foundation for future clinical applications in cartilage tissue engineering and regenerative medicine.

Keywords: Cartilage repair; Cartilage stem/progenitor cells; Exosomes; Immunomodulation; Osteoarthritis; Transcriptomics.