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KMID : 1377020180150060751
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Tissue Engineering and Regenerative Medicine
2018 Volume.15 No. 6 p.751 ~ p.760
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Determining Osteogenic Differentiation Efficacy of Pluripotent Stem Cells by Telomerase Activity
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Zhang Siqi
Sun Yuhua
Sui Yi
Li Yan
Luo Zuyuan
Xu Xiao
Zhou Ping
Wei Shicheng
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Abstract
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Background: Bone tissue engineering based on pluripotent stem cells (PSCs) is a new approach to deal with bone defects. Protocols have been developed to generate osteoblasts from PSCs. However, the low efficiency of this process is still an important issue that needs to be resolved. Many studies have aimed to improve efficiency, but developing accurate methods to determine efficacy is also critical. Studies using pluripotency to estimate efficacy are rare. Telomerase is highly associated with pluripotency.
Methods: We have described a quantitative method to measure telomerase activity, telomeric repeat elongation assay based on quartz crystal microbalance (QCM). To investigate whether this method could be used to determine the efficiency of in vitro osteogenic differentiation based on pluripotency, we measured the pluripotency pattern of cultures through stemness gene expression, proliferation ability and telomerase activity, measured by QCM.
Results: We showed that the pluripotency pattern determined by QCM was similar to the patterns of proliferation ability and gene expression, which showed a slight upregulation at the late stages, within the context of the general downregulation tendency during differentiation. Additionally, a comprehensive gene expression pattern covering nearly every stage of differentiation was identified.
Conclusion: Therefore, this assay may be powerful tools for determining the efficiency of differentiation systems based on pluripotency. In this study, we not only introduce a new method for determining efficiency based on pluripotency, but also provide more information about the characteristics of osteogenic differentiation which help facilitate future development of more efficient protocols.
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KEYWORD
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Mouse embryonic stem cells, Pluripotency, Telomerase activity, Osteogenic differentiation, Efficiency
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