Enhanced expression of hyaluronic acid in osteoarthritis-affected knee-cartilage chondrocytes during three-dimensional in vitro culture in a hyaluronic-acid-retaining polymer scaffold |
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| Affiliation: | 1. Edogawa Evolutionary Lab of Science, Edogawa Hospital Campus, Edogawa-Ku, Tokyo, Japan;2. Department of Orthopaedic Surgery, Edogawa Hospital, Edogawa-Ku, Tokyo, Japan;3. Mebiol Inc., Kanagawa, Japan;4. The Fujio-Eiji Academic Terrain (FEAT), Nichi-In Centre for Regenerative Medicine (NCRM), Chennai, Tamil Nadu, India;5. II Department of Surgery & CACR, Yamanashi University-Faculty of Medicine, Yamanashi, Japan;6. The Mary-Yoshio Translational Hexagon (MYTH), Nichi-In Centre for Regenerative Medicine (NCRM), Chennai, Tamil Nadu, India;7. JBM Inc., Edogawa-Ku, Tokyo, Japan;8. GN Corporation Co. Ltd., Yamanashi, Japan |
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| Abstract: | 
BackgroundChondrocyte transplantation to address cartilage damage is an established solution. Because hyaluronic acid (HA) is an essential component for homeostasis of the cartilage, in order to arrive at methodologies to utilize its advantages in cell-based therapies, we compared the HA retention capability of a thermoreversible gelation polymer scaffold-based environment (3D-TGP) with conventional in vitro cell culture methodologies.MethodsChondrocytes derived from osteoarthritis-affected knee joint cartilage of elderly patients were used and accomplished in three phases. In Phase I, the levels of HA secreted by chondrocytes were measured in culture supernatant. In Phase II, retention capacity of externally added HA was quantified indirectly by measuring the HA released in culture supernatant, and in Phase III, the expression of CD44 on cells was analysed by immunohistochemistry.ResultsIn Phase I, the average HA in the 3D supernatant was 3% that of 2D. In phase II, 80% of externally added HA was detected in the 2D on day 7, while in 3D-TGP, only 0.1% was released until day 21. In Phase III, 2D yielded individual cells that started degenerating from the third week; in 3D-TGP cells grew for a longer duration, formed a tissue-like architecture with extracellular matrix with significantly intense staining of CD44 than 2D.ConclusionThe capability of the 3D-TGP culture environment to retain HA and support chondrocytes to grow with a tissue-like architecture expressing higher HA content is considered advantageous as it serves as an in vitro culture platform that enables tissue engineering of cartilage tissue with native hyaline phenotype and higher HA expression. The in vitro environment being conducive, based on this data, we also recommend that the TGP be tried as an encapsulation material in clinical studies of chondrocyte implantation for optimal clinical outcome. |
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| Keywords: | Chondrocytes Cartilage Hyaluronic acid Three-dimensional polymer scaffold Thermo-reversible gelation polymer (TGP) |
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