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伸长细胞促进共培养皮层神经元生长机制的研究 被引量:1

MECHANISMS OF TANYCYTES PROMOTING NEURONS SURVIVAL AND OUTGROWTH IN VITRO
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摘要 将皮层神经元与传代培养的伸长细胞(tanycytes,TAS)共培养,并与嗅球成鞘胶质细胞(olfactory ensheathing cells,OEC)、星形胶质细胞(astrocytes,AST)共培养的结果相比较,探讨TAS促进共培养神经元生长的机制。共培养中,按胶质细胞介质不同分五组:TAS、OEC、AST、TAS条件培养液组(TCM)和对照组,分析各组神经元2h贴壁数量和7d后神经元存活总数量和突起总长度的差异。结果显示,胶质细胞介质组和TCM组神经元的生长明显高于对照组(P<0.05);TAS组和OEC组对神经元数量和突起长度的影响无明显差别(P>0.05),并均明显高于AST和TCM组(P<0.05);AST与TCM组相比无明显差别(P>0.05)。提示传代培养的TAS与OEC一样都可明显促进皮层神经元的生长;TAS通过接触粘附作用及成鞘作用促进神经元的生长。 To explore the possible mechanisms of tanycytes(TAS) promoting neurons survival and outgrowth in vitro, the neurons from cortex were eocultured with TAS and compared with those cocultured with olfactory ensheathing cells ( OEC), astroeytes( AST). According to the glial substrates we classified them into 5 groups: TAS, OEC, AST, TCM ( TAS preconditioned medium) and eontrol group. The possible mechanism was analyzed by comparing the 2 h, 7 d neuron numbers and total process lengths in each group. There is no significant difference among the TAS ,OEC gruup or between the AST and TCM group ( P 〉 0.05 ). The neurons' growth was better in TAS ,OEC than in AST,TCM and control groups ( P 〈0.05 ) ; The neuron numbers and princess lengths in control group were significantly smaller than that in each glia substrate group aud TCM group ( P 〈 0.05 ). TAS has the same ability as OEC in promoting neuron outgrowth ; TAS possibly play their promotive retie on neurons in ritro hy adbesive and ensheathing functions.
作者 周馨 高秀来 刘国桢 许晴 路欣
机构地区 首都医科大学解剖学教研室 首都医科大学病理学教研室 首都医科大学组织胚胎学教研室
出处 《神经解剖学杂志》 CAS CSCD 北大核心 2005年第5期487-492,共6页 Chinese Journal of Neuroanatomy
关键词 伸长细胞 正中隆起 神经再生 星形胶质细胞 皮层神经元 生长机制 共培养 伸长 传代培养 TAS tanycytes,median eminence, neuroregeneration
分类号 R329 [医药卫生—人体解剖和组织胚胎学]
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参考文献9

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同被引文献25

  • 1周馨,高秀来,宋一志,景朋,刘波.波形蛋白和胶质细胞纤维酸性蛋白在成年大鼠伸长细胞中的表达[J].解剖学杂志,2005,28(1):59-61. 被引量:2
  • 2周馨,高秀来,马育平,陈亚亮,李莉,刘霞,景朋,陆涛.伸展细胞原代培养与生物学特性研究[J].解剖学报,2006,37(2):181-183. 被引量:2
  • 3Prieto M, Chauvet N, Alonso G. Tanycytes transplanted into the adult rat spinal cord support the regeneration of lesioned axons[J]. Exp Neurol, 2000, 161(1): 27-37.
  • 4Hunt D, Coffin RS, Anderson PN. The Nogo receptor, its ligands and axonal regeneration in the spinal cord; a review[J]. J Neurocytol, 2002, 31(2): 93-120.
  • 5vip JD, Herrera L, Margitich I, et al. Xenografts of expanded primate olfactory ensheathing glia support transient behavioral recovery that is independent of serotonergic or corticospinal axonal regeneration in nude rats following spinal cord transection[J]. Exp Neurol, 2008, 212(2): 261-274.
  • 6Saberi H, Moshayedi P, Aghayan HR, et al. Treatment of chronic thoracic spinal cord injury patients with autologous Schwann cell transplantation: an interim report on safety considerations and possible outcomes[J]. Neurosci Lett, 2008, 443(1): 46-50.
  • 7Huang H, Chen L, Sanberg P. Cell therapy from bench to bedside translation in CNS neurorestoratology era[J]. Cell Med, 2010, 1(1): 15-46.
  • 8Rodrl guez EM, B16 zquez JL, Guerra M. The design of barriers in the hypothalamus allows the median eminence and the arcuate nucleus to enjoy private milieus: the former opens to the portal blood and the latter to the cerebrospinal fluid[J]. Peptides, 2010, 31(4):757-776.
  • 9Feng CY, Wiggins LM, von Bartheld CS. The locus ceruleus responds to signaling molecules obtained from the CSF by transfer through tanycytes[J]. J Neurosci, 2011, 31(25): 9147-9158.
  • 10Nilaweera K, Herwig A, Bolborea M, et al. Photoperiodic regulation of glycogen metabolism, glycolysis, and glutamine synthesis in tanycytes of the Siberian hamster suggests novel roles of tanycytes in hypothalamic function[J]. Glia, 2011, 59(11): 1695-1705.

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神经解剖学杂志
2005年 第5期

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