Neurogenic differentiation of human umbilical cord mesenchymal stem cells on aligned electrospun polypyrrole/ polylactide composite nanofibers with electrical stimulation 被引量：2

Neurogenic differentiation of human umbilical cord mesenchymal stem cells on aligned electrospun polypyrrole/ polylactide composite nanofibers with electrical stimulation

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摘要 Adult central nervous system （CNS） tissue has a limited capacity to recover after trauma or disease. Recent medical cell therapy using polymeric biomaterial- loaded stem cells with the capability of differentiation to specific neural population has directed focuses toward the recovery of CNS. Fibers that can provide topographical, biochemical and electrical cues would be attractive for directing the differentiation of stem cells into electro-responsive cells such as neuronal cells. Here we report on the fabrication of an electrospun polypyrrole/polylactide composite nanofiber film that direct or determine the fate of mesenchymal stem cells （MSCs）, via combination of aligned surface topography, and electrical stimulation （ES）. The surface morphology, mechanical properties and electric properties of the film were characterized. Comparing with that on random surface film, expression of neurofilament-lowest and nestin of human umbilical cord mesenchymal stem cells （huMSCs） cultured on film with aligned surface topography and ES were obviously enhanced. These results suggest that aligned topography combining with ES facilitates the neurogenic differentiation of huMSCs and the aligned conductive film can act as a potential nerve scaffold. Adult central nervous system （CNS） tissue has a limited capacity to recover after trauma or disease. Recent medical cell therapy using polymeric biomaterial- loaded stem cells with the capability of differentiation to specific neural population has directed focuses toward the recovery of CNS. Fibers that can provide topographical, biochemical and electrical cues would be attractive for directing the differentiation of stem cells into electro-responsive cells such as neuronal cells. Here we report on the fabrication of an electrospun polypyrrole/polylactide composite nanofiber film that direct or determine the fate of mesenchymal stem cells （MSCs）, via combination of aligned surface topography, and electrical stimulation （ES）. The surface morphology, mechanical properties and electric properties of the film were characterized. Comparing with that on random surface film, expression of neurofilament-lowest and nestin of human umbilical cord mesenchymal stem cells （huMSCs） cultured on film with aligned surface topography and ES were obviously enhanced. These results suggest that aligned topography combining with ES facilitates the neurogenic differentiation of huMSCs and the aligned conductive film can act as a potential nerve scaffold.

作者 Junfeng ZHOU Liang CHENG Xiaodan SUN Xiumei WANG ShouhongJIN Junxiang LI Qiong WU

机构地区 Key Laboratory of Advanced Materials of Ministry of Education of China School of Life Sciences

出处《Frontiers of Materials Science》 SCIE CSCD 2016年第3期260-269,共10页 材料学前沿（英文版）

关键词 human umbilical cord mesenchymal stem cells neurogenic differentiation conductive composite film electrospun nanofibers electrical stimulation human umbilical cord mesenchymal stem cells neurogenic differentiation conductive composite film electrospun nanofibers electrical stimulation

分类号 Q254 [生物学—细胞生物学] Q426 [生物学—神经生物学]

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