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Dental Pulp Stem Cell-Derived Intracellular Vesicles Promote Cartilage Regeneration and Alleviate Pain in Temporomandibular Joint Osteoarthritis

Chen-bin Shu, Yu Luo, Ye Liu, Junnan Wang, Qiang Qin, Ziwei Li, Jieying Situ, Xiaojing Liu, Xiangying Wang, Yan He, Qingsong Ye

2025International Dental Journal6 citationsDOIOpen Access PDF

Abstract

INTRODUCTION AND AIMS: Temporomandibular joint osteoarthritis (TMJ-OA) is characterized by cartilage destruction and pain. Although mesenchymal stem cell-derived extracellular vesicles (MSC-EVs) have shown therapeutic efficacy, their clinical translation is hampered by low yield and batch-to-batch variability. Recent studies indicate that intracellular vesicles (IVs) can be harvested at markedly higher quantities than EVs while displaying comparable biological profiles. Therefore, this study directly compared high-yield dental pulp stem cell-derived intracellular vesicles (DPSC-IVs) with conventional dental pulp stem cell-derived extracellular vesicles (DPSC-EVs) in terms of their ability to regenerate cartilage matrix and relieve pain in TMJ-OA. METHODS: Following characterization of DPSC-IVs and DPSC-EVs, we first evaluated their effects on the proliferation and migration of rat mandibular condylar chondrocytes (MCCs) using endocytic tracing, CCK-8 assays, and Transwell migration assays. Subsequently, an in vitro inflammation model was established using IL-1β, and Western blot analysis and RT-qPCR were employed to investigate their regulatory effects on cartilage matrix synthesis and inflammatory pathways. Next, an in vivo TMJ-OA model was constructed using sodium monoiodoacetate (MIA). The therapeutic efficacy of the two vesicles on subchondral bone remodelling and condylar cartilage matrix regeneration was multidimensionally validated through micro-CT, RT-qPCR, Western blotting, immunofluorescence and immunohistochemistry staining. Furthermore, their underlying molecular mechanisms for alleviating joint pain were elucidated. RESULTS: At the same therapeutic concentration, both DPSC-IVs and DPSC-EVs markedly enhanced MCCs proliferation and migration and suppressed IL-1β-induced cartilage matrix breakdown and inflammatory gene expression. In a rat TMJ-OA model, they equivalently repaired MIA-induced subchondral bone and condylar cartilage damage and significantly attenuated pain via inhibition of the ERK-CREB-CGRP pathway. CONCLUSION: DPSC-IVs, with higher yield and simpler extraction, deliver therapeutic efficacy comparable to DPSC-EVs, offering a more clinically feasible strategy for TMJ-OA treatment.

Topics & Concepts

OsteoarthritisMedicineTemporomandibular jointCartilageRegeneration (biology)Pulp (tooth)DentistryDental pulp stem cellsPathologyArticular cartilageVesicleIntracellularMesenchymal stem cellSurgeryStem cellOrthodonticsMesenchymal stem cell researchExtracellular vesicles in diseaseOsteoarthritis Treatment and Mechanisms
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