Objective To elucidate the regulatory effects of titanium surface modification on the immune function of immature dendritic cells(imDCs),different crystalline nanomorphologies were constructed on titanium surface to investigate the mechanobiological response of imDCs to nanomorphologies with different crystalline phases.Methods Nanomorphologies with different crystalline phases were constructed on the titanium surface by anodic oxidation and calcination.The changes of the cytoskeleton F-actin,cell adhesion and morphology of imDCs cultured on nanomorphologies with different crystalline phases were observed by fluorescence staining.The relative gene expression of adhesion molecules was detected by quantitative real-time PCR.The migration behaviors of imDCs were observed using real-time live-cell imaging,and the membrane fluidity was detected by fluorescence polarization.Results Nanomorphologies with different crystalline phases,namely amorphous phase,anatase and rutile,were obtained on the titanium surface by anodic oxidation and calcination.The cytoskeleton of imDCs on nanomorphologies with different crystalline phases was remodeled.The spreading area of cells on anatase crystalline phase was relatively small,which was(353.3±148.5)μm2.The number of adherent cells was the largest,which was 587±132.The expression of adhesion molecules such as CD11a,integrin β2,ICAM1,and VCAM1 were also increased in cells which cultured on anatase crystalline phase.The imDCs cultured on anatase crystalline phase were equipped with strong migration ability.The accumulative migration distance was(383.6±177.7)μm,and the Euclidean migration distance was(51.82±50.13)μm.The membrane fluidity was relatively weak,and the fluorescence polarization was 0.348 5±0.041 8.Conclusions imDCs can respond to nanomorphologies with different crystalline phases on the titanium surface and exhibit different biomechanical behaviors.The results might provide a theoretical basis for the design of titanium biomaterials with immunomodulatory functions.

Objective To elucidate the regulatory effects of titanium surface modification on the immune function of immature dendritic cells(imDCs),different crystalline nanomorphologies were constructed on titanium surface to investigate the mechanobiological response of imDCs to nanomorphologies with different crystalline phases.Methods Nanomorphologies with different crystalline phases were constructed on the titanium surface by anodic oxidation and calcination.The changes of the cytoskeleton F-actin,cell adhesion and morphology of imDCs cultured on nanomorphologies with different crystalline phases were observed by fluorescence staining.The relative gene expression of adhesion molecules was detected by quantitative real-time PCR.The migration behaviors of imDCs were observed using real-time live-cell imaging,and the membrane fluidity was detected by fluorescence polarization.Results Nanomorphologies with different crystalline phases,namely amorphous phase,anatase and rutile,were obtained on the titanium surface by anodic oxidation and calcination.The cytoskeleton of imDCs on nanomorphologies with different crystalline phases was remodeled.The spreading area of cells on anatase crystalline phase was relatively small,which was(353.3±148.5)μm2.The number of adherent cells was the largest,which was 587±132.The expression of adhesion molecules such as CD11a,integrin β2,ICAM1,and VCAM1 were also increased in cells which cultured on anatase crystalline phase.The imDCs cultured on anatase crystalline phase were equipped with strong migration ability.The accumulative migration distance was(383.6±177.7)μm,and the Euclidean migration distance was(51.82±50.13)μm.The membrane fluidity was relatively weak,and the fluorescence polarization was 0.348 5±0.041 8.Conclusions imDCs can respond to nanomorphologies with different crystalline phases on the titanium surface and exhibit different biomechanical behaviors.The results might provide a theoretical basis for the design of titanium biomaterials with immunomodulatory functions.