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Critical adhesion areas of cells on micro-nanopatterns 被引量:1
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作者 Shuang Zheng Qiong Liu +6 位作者 Junhao He Xinlei Wang Kai Ye Xuan Wang Ce Yan Peng Liu Jiandong Ding 《Nano Research》 SCIE EI CSCD 2022年第2期1623-1635,共13页
Cell adhesion to extracellular matrices(ECM)is critical to physiological and pathological processes as well as biomedical and biotechnological applications.It has been known that a cell can adhere on an adhesive micro... Cell adhesion to extracellular matrices(ECM)is critical to physiological and pathological processes as well as biomedical and biotechnological applications.It has been known that a cell can adhere on an adhesive microisland only over a critical size.But no publication has concerned critical adhesion areas of cells on microislands with nanoarray decoration.Herein,we fabricated a series of micro-nanopatterns with different microisland sizes and arginine-glycine-aspartate(RGD)nanospacings on a nonfouling poly(ethylene glycol)background.Besides reproducing that nanospacing of RGD,a ligand of its receptor integrin(a membrane protein),significantly influences specific cell adhesion on bioactive nanoarrays,we confirmed that the concept of critical adhesion area originally suggested in studies of cells on micropatterns was justified also on the micro-nanopatterns,yet the latter exhibited more characteristic behaviors of cell adhesion.We found increased critical adhesion areas of human mesenchymal stem cells(hMSCs)on nanoarrayed microislands with increased RGD nanospacings.However,the numbers of nanodots with respect to the critical adhesion areas were not a constant.A unified interpretation was then put forward after combining nonspecific background adhesion and specific cell adhesion.We further carried out the asymptotic analysis of a series of micro-nanopatterned surfaces to obtain the effective RGD nanospacing on unpatterned free surfaces with densely grafted RGD,which could be estimated nonzero but has never been revealed previously without the assistance of the micro-nanopatterning techniques and the corresponding analysis. 展开更多
关键词 biomaterial surface patterning cell adhesion arginine-glycine-aspartate(RGD)nanospacing poly(ethylene glycol) critical adhesion area
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