Ozturk Nihan, Girotti Alessandra, Kose Gamze T, Rodríguez-Cabello José C, Hasirci Vasif
Department of Biological Sciences, Biotechnology Research Unit, Inonu Bulvari, Ankara 06531, Turkey.
Biomaterials. 2009 Oct;30(29):5417-26. doi: 10.1016/j.biomaterials.2009.06.044.
In this study a tissue engineering scaffold was constructed from poly(N-isopropylacrylamide) (pNIPAM) to study the influence of strain on cell proliferation and differentiation. The effect of surface chemistry and topography on bone marrow mesenchymal stem cells was also investigated. Micropatterned pNIPAM films (channels with 10 microm groove width, 2 microm ridge width, 20 microm depth) were prepared by photopolymerization. The films were chemically modified by adsorption of a genetically engineered and temperature sensitive elastin-like protein (ELP). Dynamic conditions were generated by repeated temperature changes between 29 degrees C and 37 degrees C. ELP presence on the films enhanced initial cell attachment two fold (Day 1 cell number on films with ELP and without ELP were 27.6 x 10(4) and 13.2 x 10(4), respectively) but had no effect on proliferation in the long run. ELP was crucial for maintaining the cells attached on the surface in dynamic culturing (Day 7 cell numbers on the films with and without ELP were 81.4 x 10(4) and 12.1 x 10(4), respectively) and this enhanced the ability of pNIPAM films to transfer mechanical stress on the cells. Dynamic conditions improved cell proliferation (Day 21 cell numbers with dynamic and with static groups were 180.4 x 10(4) and 157.7 x 10(4), respectively) but decreased differentiation (Day 14 specific ALP values on the films of static and dynamic groups were 6.6 and 3.5 nmol/min/cell, respectively). Thus, a physically and chemically modified pNIPAM scaffold had a positive influence on the population of the scaffolds under dynamic culture conditions.
在本研究中,构建了一种由聚(N-异丙基丙烯酰胺)(pNIPAM)制成的组织工程支架,以研究应变对细胞增殖和分化的影响。还研究了表面化学和形貌对骨髓间充质干细胞的影响。通过光聚合制备了微图案化的pNIPAM薄膜(具有10微米凹槽宽度、2微米脊宽度、20微米深度的通道)。通过吸附一种基因工程化的温度敏感弹性蛋白样蛋白(ELP)对薄膜进行化学修饰。通过在29℃和37℃之间反复改变温度来产生动态条件。薄膜上存在ELP使初始细胞附着增加了两倍(有ELP和无ELP的薄膜上第1天的细胞数分别为27.6×10⁴和13.2×10⁴),但从长远来看对增殖没有影响。ELP对于在动态培养中维持细胞附着在表面至关重要(有ELP和无ELP的薄膜上第7天的细胞数分别为81.4×10⁴和12.1×10⁴),这增强了pNIPAM薄膜将机械应力传递到细胞上的能力。动态条件改善了细胞增殖(动态组和静态组第21天的细胞数分别为180.4×10⁴和157.7×10⁴),但降低了分化(静态组和动态组薄膜上第14天的特异性碱性磷酸酶值分别为6.6和3.5 nmol/min/细胞)。因此,物理和化学修饰的pNIPAM支架在动态培养条件下对支架上的细胞群体有积极影响。
