摘要
Yeast cells have controllable biosorption on metallic ions during metabolism.However,few studies were dedicated to using yeast-regulated biomimetic mineralization process to control the strontium-doped positions in calcium phosphate microcapsules.In this study,the yeast cells were allowed to pre-adsorb strontium ions metabolically and then served as sacrificing template for the precipitation and calcination of mineral shell.The pre-adsorption enabled the microorganism to enrich of strontium ions into the inner part of the microcapsules,which ensured a slow-release profile of the trace element from the microcapsule.The co-culture with human marrow stromal cells showed that gene expressions of alkaline phosphatase and Collagen-I were promoted.The promotion of osteogenic differentiation was further confirmed in the 3D culture of cell-material complexes.The strategy using living microorganism as‘smart doping apparatus’to control incorporation of trace element into calcium phosphate paved a pathway to new functional materials for hard tissue regeneration.
基金
This work was supported by National Basic Research Program of China(2012CB619100)
National Natural Science Foundation of China(51072056,51572087)
the 111 Project(B13039)
Key grant of Chinese Ministry of Education(313022)
Program for Changjiang Scholars and Innovative Research Team in University(IRT 0919).
