Enhancement of mesenchymal stem cells’ chondrogenic potential by type II collagen-based bioscaffolds

Background Osteoarthritis (OA) is a common degenerative chronic disease accounting for physical pain, tissue stiffness and mobility restriction. Current therapeutic approaches fail to prevent the progression of the disease considering the limited knowledge on OA pathobiology. During OA progression,...

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Veröffentlicht in:Molecular biology reports 2023-06, Vol.50 (6), p.5125-5135
Hauptverfasser: Piperigkou, Zoi, Bainantzou, Dimitra, Makri, Nadia, Papachristou, Eleni, Mantsou, Aglaia, Choli-Papadopoulou, Theodora, Theocharis, Achilleas D., Karamanos, Nikos K.
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Sprache:eng
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Zusammenfassung:Background Osteoarthritis (OA) is a common degenerative chronic disease accounting for physical pain, tissue stiffness and mobility restriction. Current therapeutic approaches fail to prevent the progression of the disease considering the limited knowledge on OA pathobiology. During OA progression, the extracellular matrix (ECM) of the cartilage is aberrantly remodeled by chondrocytes. Chondrocytes, being the main cell population of the cartilage, participate in cartilage regeneration process. To this end, modern tissue engineering strategies involve the recruitment of mesenchymal stem cells (MSCs) due to their regenerative capacity as to promote chondrocyte self-regeneration. Methods and results In the present study, we evaluated the role of type II collagen, as the main matrix macromolecule in the cartilage matrix, to promote chondrogenic differentiation in two MSC in vitro culture systems. The chondrogenic differentiation of human Wharton’s jelly- and dental pulp-derived MSCs was investigated over a 24-day culture period on type II collagen coating to improve the binding affinity of MSCs. Functional assays, demonstrated that type II collagen promoted chondrogenic differentiation in both MSCs tested, which was confirmed through gene and protein analysis of major chondrogenic markers. Conclusions Our data support that type II collagen contributes as a natural bioscaffold enhancing chondrogenesis in both MSC models, thus enhancing the commitment of MSC-based therapeutic approaches in regenerative medicine to target OA and bring therapy closer to the clinical use.
ISSN:0301-4851
1573-4978
DOI:10.1007/s11033-023-08461-x