Department of Prosthodontics, New York University College of Dentistry, New York, USA.
Int J Oral Maxillofac Implants. 2011 Nov-Dec;26(6):1247-55.
The aim of this study was to investigate the cellular response of human gingival fibroblasts (HGFs) cultured on smooth or rough zirconia (Zr) or titanium (Ti) disks.
Disks fabricated from four different materials--smooth Zr (Zr-S), rough Zr (Zr-R), smooth Ti (Ti-S), and rough Ti (Ti-R)--were used, and surface roughness was analyzed by atomic force microscopy. After HGFs were cultured on these disks, cell morphology was examined by scanning electron microscopy, cell proliferation activity was evaluated by a monotetrazolium assay, and gene expression levels of various collagens and integrins were measured by real-time polymerase chain reaction.
The Ti-R disks were the roughest, followed by Zr-R, Ti-S, and Zr-S, in that order. The cells cultured on the Zr-S and Ti-S disks appeared to be more aligned with the fine irregularities at later time points, whereas the cells cultured on the Zr-S showed the weakest spreading compared to the other surfaces after 3 hours of culture. With respect to proliferation, cells proliferated significantly faster on the Zr-S surface than on the other surfaces. Gene expression of integrin α2 at 3 hours and integrin α5 and type I collagen at 48 hours on Zr-S was significantly up-regulated compared to Ti. Conversely, the expression of integrins β1 and β3 and type III collagen was significantly decreased on Zr-S at 1 hour compared to the other materials.
These data indicate that different surface materials and topographies may induce a distinct HGF morphology, proliferation, and gene expression.
本研究旨在探究人牙龈成纤维细胞(HGFs)在光滑或粗糙氧化锆(Zr)或钛(Ti)盘上培养时的细胞反应。
使用了四种不同材料制成的圆盘,包括光滑氧化锆(Zr-S)、粗糙氧化锆(Zr-R)、光滑钛(Ti-S)和粗糙钛(Ti-R),通过原子力显微镜分析表面粗糙度。将 HGFs 培养在这些圆盘上后,通过扫描电子显微镜观察细胞形态,通过单四唑盐法评估细胞增殖活性,并通过实时聚合酶链反应测量各种胶原和整合素的基因表达水平。
Ti-R 盘最粗糙,其次是 Zr-R、Ti-S 和 Zr-S。培养在 Zr-S 和 Ti-S 盘上的细胞在后期似乎更能适应细小的不规则形状,而与其他表面相比,培养在 Zr-S 上的细胞在培养 3 小时后扩散能力最弱。在增殖方面,细胞在 Zr-S 表面的增殖速度明显快于其他表面。与 Ti 相比,Zr-S 表面在 3 小时时整合素α2 的基因表达和在 48 小时时整合素α5 和 I 型胶原的基因表达显著上调。相反,在 1 小时时,Zr-S 表面上整合素β1 和β3 和 III 型胶原的表达明显低于其他材料。
这些数据表明,不同的表面材料和形貌可能会诱导 HGF 产生不同的形态、增殖和基因表达。
