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Immunomodulatory potential of mesenchymal stromal cell-derived extracellular vesicles in chondrocyte inflammation

Robert Ossendorff, Sibylle Grad, Tobias Tertel, Dieter Christian Wirtz, Bernd Giebel, Verena Börger, Frank A. Schildberg

2023Frontiers in Immunology14 citationsDOIOpen Access PDF

Abstract

Introduction Osteoarthritis (OA) affects a large percentage of the population worldwide. Current surgical and nonsurgical concepts for treating OA only result in symptom-modifying effects. However, there is no disease-modifying therapy available. Extracellular vesicles released by mesenchymal stem/stromal cells (MSC-EV) are promising agents to positively influence joint homeostasis in the osteoarthritic surroundings. This pilot study aimed to investigate the effect of characterized MSC-EVs on chondrogenesis in a 3D chondrocyte inflammation model with the pro-inflammatory cytokine TNFα. Methods Bovine articular chondrocytes were expanded and transferred into pellet culture at passage 3. TNFα, human MSC-EV preparations (MSC-EV batches 41.5-EV i1 and 84-EV i ), EVs from human platelet lysate (hPL 4 -EV), or the combination of TNFα and EVs were supplemented. To assess the effect of MSC-EVs in the chondrocyte inflammation model after 14 days, DNA, glycosaminoglycan (GAG), total collagen, IL-6, and NO release were quantified, and gene expression of anabolic (COL-II, aggrecan, COMP, and PRG-4), catabolic (MMP-3, MMP-13, ADAMTS-4 and ADAMTS-5), dedifferentiation (COL-I), hypertrophy (COL-X, VEGF), and inflammatory (IL-8) markers were analyzed; histological evaluation was performed using safranin O/Fast Green staining and immunohistochemistry of COL I and II. For statistical evaluation, nonparametric tests were chosen with a significance level of p < 0.05. Results TNFα supplementation resulted in catabolic stimulation with increased levels of NO and IL-6, upregulation of catabolic gene expression, and downregulation of anabolic markers. These findings were supported by a decrease in matrix differentiation (COL-II). Supplementation of EVs resulted in an upregulation of the chondrogenic marker PRG-4. All MSC-EV preparations significantly increased GAG retention per pellet. In contrast, catabolic markers and IL-8 expression were upregulated by 41.5-EV i1 . Regarding protein levels, IL-6 and NO release were increased by 41.5-EV i1 . Histologic and immunohistochemical evaluations indicated a higher differentiation potential of chondrocytes treated with 84-EV i . Discussion MSC-EVs can positively influence chondrocyte matrix production in pro-inflammatory surroundings, but can also stimulate inflammation. In this study MSC-EV 41.5-EV i1 supplementation increased chondrocyte inflammation, whereas MSC-84-EV i supplementation resulted a higher chondrogenic potential of chondrocytes in 3D pellet culture. In summary, the selected MSC-EVs exhibited promising chondrogenic effects indicating their significant potential for the treatment of OA; however, the functional heterogeneity in MSC-EV preparations has to be solved.

Topics & Concepts

Mesenchymal stem cellAggrecanInflammationChondrocyteDownregulation and upregulationStromal cellCartilage oligomeric matrix proteinPopulationMedicineImmunologyCartilageChemistryCell biologyCancer researchOsteoarthritisBiologyPathologyBiochemistryAnatomyEnvironmental healthGeneArticular cartilageAlternative medicineExtracellular vesicles in diseaseOsteoarthritis Treatment and MechanismsMesenchymal stem cell research