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High Mineralization Capacity of IDG-SW3 Cells in 3D Collagen Hydrogel for Bone Healing in Estrogen-Deficient Mice

Kaizhe Chen, Qi Zhou, Hui Kang, Yufei Yan, Niandong Qian, Changwei Li, Fei Wang, Kai Yang, Lianfu Deng, Qi Jin

2020Frontiers in Bioengineering and Biotechnology14 citationsDOIOpen Access PDF

Abstract

Tissue engineering with 3D scaffold is a simple and effective method for bone healing after large-scale bone loss. So far, bone marrow-derived mesenchymal stem cells (BMSCs) are mostly used in the treatment of bone healing in animal models due to their self-renewal capability and osteogenic potential. Due to the mainly functional cells in promoting osteoid mineralization and bone remodeling were osteocytes. Thus, we chose an osteoblast-to-osteocyte transition cell line, IDG-SW3, which are not proliferative under physiological condition, and compared the healing capability of this cells to that of BMSCs in bone defect. In vitro, IDG-SW3 cells, revealed a stronger mineralization capacity when grown in 3D collagen gel, compared to that of BMSCs. Although both BMSC and IDG-SW3 can generate stable calcium-phosphate crystal similar to hydroxyapatite (HA), the content was much more enriched in IDG-SW3-mixed collagen gel. Moreover, the osteoclasts co-cultured with IDG-SW3-mixed collagen gel were easier to be activated, indicating that the IDG-SW3 grafting could promote the bone remodeling more efficiency in vivo. At last, in order to reduce the self-healing capability, we assessed the healing capability between the IDG-SW3 cells and BMSCs in osteoporotic mice. We found that the collagen hydrogel mixed with IDG-SW3 cells has a better healing pattern than what was seen in hydrogel mixed with BMSCs. Therefore, these results demonstrated that by promoting osteoblast-to-osteocyte transition, the therapeutic effect of BMSCs in bone defect repair could be improved.

Topics & Concepts

ChemistryOsteoblastOsteocyteMesenchymal stem cellBone cellBiophysicsCell biologyBiochemistryIn vitroBiologyBone Tissue Engineering MaterialsBone health and osteoporosis researchBone Metabolism and Diseases