Enhanced chondrogenic differentiation of dental pulp-derived mesenchymal stem cells in 3D pellet culture system: effect of mimicking hypoxia |
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| Authors: | Sahar Khajeh Vahid Razban Tahereh Talaei-Khozani Masoud Soleimani Reza Asadi-Golshan Farzaneh Dehghani Amin Ramezani Zohreh Mostafavi-Pour |
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| Institution: | 1.Department of Biochemistry, School of Medicine,Shiraz University of Medical Sciences,Shiraz,Iran;2.Department of Molecular Medicine, School of Advanced Medical Sciences and Technologies,Shiraz University of Medical Sciences,Shiraz,Iran;3.Stem Cell Technology Research Center,Shiraz University of Medical Sciences,Shiraz,Iran;4.Tissue Engineering Lab, Anatomy Department, School of Medicine,Shiraz University of Medical Sciences,Shiraz,Iran;5.Department of Hematology, School of Medical Sciences,Tarbiat Modares University,Tehran,Iran;6.Department of Anatomy, School of Medicine,Shiraz University of Medical Sciences,Shiraz,Iran;7.Histomorphometry and Stereology Research Centre,Shiraz University of Medical Sciences,Shiraz,Iran;8.Shiraz Institute for Cancer Research, School of Medicine,Shiraz University of Medical Sciences,Shiraz,Iran;9.Department of Medical Biotechnology, School of Advanced Medical Sciences and Technologies,Shiraz University of Medical Sciences,Shiraz,Iran;10.Maternal-Fetal Medicine Research Center,Shiraz University of Medical Sciences,Shiraz,Iran |
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| Abstract: | High incidence of articular cartilage defects resulting from age-related degeneration or trauma injuries is a major problem worldwide. Limited self-regeneration ability of cartilage often leads to inappropriate biochemistry and structure of healed tissue. Considering Impairments of traditional treatments, cell-based therapies are promising. The rapid ex vivo expansion and chondrogenic differentiation capability make dental pulp stem cells (DPSCs) a favorable cell type for therapeutic application, however strategies in order to efficient cartilage tissue-like production are imperative. In the present study the potential role of hypoxia mimicking agent, cobalt chloride (CoCl2), on chondrogenic differentiation of human DPSCs was surveyed. Cell viability assay used to obtain the optimum dose and exposure time of CoCl2. DPSCs were differentiated in pellet culture system after CoCl2 pretreatment. Chondrogenic differentiation efficiency was evaluated by histological and immunohistological analyses. The results showed that CoCl2 led to increased pellet size, integrity and matrix deposition with organizations more resembled typical cartilage lacuna structure. Furthermore, CoCl2 could improve differentiation by elevated chondrogenic markers, glycosaminoglycans (GAGs) and collagen II expression. CoCl2 pretreatment mitigated hypertrophy, as well, which was reflected in decreased collagen X expression. Alkaline phosphatase (ALP) specific activity did not change significantly by CoCl2 preconditioning. Based on current study hypoxia mimicking agent, CoCl2, could be suggested to promote DPSCs chondrogenic differentiation. |
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