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PTEN和mTOR信号转导通路在实验性脊髓损伤中的表达 被引量:3

Effect of expression of PTEN and mTOR Gene Protein in the experimental spinal cord injury
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摘要 目的:研究mTOR和PTEN蛋白在实验性脊髓损伤中的表达及其在脊髓损伤发生、发展中的作用。方法:用免疫组织化学方法和RT-PCR法,检测脊髓组织内mTOR和PTEN的表达。结果:与正常组织相比,免疫组化法和RT-PCR两种方法结果均显示,脊髓损伤后mTOR表达明显下降,而PTEN的表达明显增加;两者呈负相关(r=-0.862,P<0.01)。结论:PI3K/PTEN/AKT/mTOR信号转导通路中重要的调节位点和节点PTEN在实验性脊髓损伤中的表达明显增高,而mTOR的表达明显降低。提示该信号转导通路在介导实验性脊髓损伤的发生、发展的过程中起重要作用。 Objective: To explore the expression and relationship of PTEN and mTOR in the development of experimental spinal cord injury, determine the effect of the PI3K / PTEN/AKT/roTOR signal transduction on the development of experimental spinal cord injury. Methods: The expression of mTOR and PTEN in the experimental spinal cord injury was detected by the immunohistochemistry and RT-PCR method. Results: Compared to normal tissues, the expression ofPTEN gene in experimental spinal cord injury was significantly increased, but the expression ofmTOR gene decreased. There was a negative correlation between mTOR gene and PTEN gene expression in experimental spinal cord injury. Conclusions: The expression ofPTEN gene in experimental spinal cord injury was increased while the expression ofmTOR was decreased. It suggested that the roTOR gene and PTEN gene could play an important role in the process of development of experimental spinal cord injury.
作者 危国军 董大明 姚猛 王岩松
机构地区 哈尔滨医科大学附属第二医院脊柱外科
出处 《现代生物医学进展》 CAS 2009年第10期1849-1851,共3页 Progress in Modern Biomedicine
关键词 实验性脊髓损伤 信号传导 mTRO PTEN Experimental spinal cord injury Signal transduction mTOR PTEN
分类号 R681.5 [医药卫生—骨科学]
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参考文献11

  • 1Schwab ME, Bartholdi D. Degeneration and regeneration of axons in the lesioned spinal cord [J]. Physiol. Rev, 1996, 76(2): 319-370
  • 2Goldberg JL, Klassen MP, Hua Y, et al. Amacrine-signaled loss of intrinsic axon growth ability by retinal ganglion cells [J]. Science, 2002, 296(5574): 1860-1864
  • 3Filbin MT. Recapitulate development to promote axonal regeneration: good or bad approach [J]? Philos Trans R Soc Lond B Biol Sci, 2006, 361(1473): 1565-1574
  • 4Fitch MT, Silver J. CNS injury, glial scars, and inflammation: Inhibitory extracellular matrices and regeneration failure [J]. Exp Neurol, 2008, 209(2): 294-301
  • 5Case LC, Tessier-Lavigne M. Regeneration of the adult central nervous system [J]. Curr.Biol, 2005, 15(18): R749-753
  • 6Yiu G, He Z. Glial inhibitors in axon regeneration [J]. Nature Review Neurosci, 2006, 7:617-627
  • 7Harel NY, Strittmatter SM. Can regenerating axons recapitulate developmental guidance during recovery from spinal cord injury [J]. Nat Rev Neurosci, 2006, 7(8): 603-16
  • 8Xu G, Zhang W, Bertram P, et al. Pharmacogenomic profiling of the PI3K/PTEN-AKT-mTOR pathway in common human tumor [J]. Int J Oncol, 2004, 24(4): 901-908
  • 9Cao LP, Michael Duchrow. Extract RNA from formalin fixed-paraffin embedded tissues by the improved one-step method [J]. National Medical Journal of China, 2000, 80 (5): 376-378
  • 10Gao N, Zhang Z, Jiang BH, et al. Role of PI3K/AKT/mTOR signaling in the cell cycle progression of human prostate cancer [J]. Biochem Biophys Res Commun, 2003, 310 (4): 1124-1132

同被引文献46

  • 1赖新生,黄泳.血管性痴呆的针灸治疗和实验研究近况[J].广州中医药大学学报,2006,23(1):81-84. 被引量:12
  • 2Benson M, Romero M, Lush M, et al. Ephrin-B3 is a my- elin-based inhibitor of neurite outgrowth. Science 's STKE, 2005, 102(30): 10694-10699.
  • 3Liu Y, Wang X, Lu C, et al. Repulsive Wnt signaling in- hibits axon regeneration after CNS injury. Journal of Neuro- science, 2008 , 28 (33) : 8376-8382.
  • 4Jakovcevski I, Wu J, Karl N, et al. Glial scar expression of CHL 1 , the close homolog of the adhesion molecule L 1 , limits recovery after spinal cord injury. Journal of Neuroscience, 2007, 27(27): 7222-7233.
  • 5Liu K, Lu Y, Lee J, et al. PTEN deletion enhances the re- generative ability of adult corticospinal neurons. Nature neuro- science, 2010, 13(1): 1075-1081.
  • 6Ferretti P, Zhang F, O'Neill P. Changes in spinal cord re- generative ability through phylogenesis and development: les- sons to be learnt. Developmental Dynamics, 2003, 226 (2) : 245-256.
  • 7Yiu G, He Z. Glial inhibition of CNS axon regeneration. Na- ture Reviews Neuroscience, 2006, 7 ( 8 ) : 617-627.
  • 8Cafferty W, Yang S, Duffy P, et al. Functional axonal re- generation through astmcytic scar genetically modified to digest chondroitin sulfate proteoglycans. Journal of Neuroscience,2007, 27(9) : 2176-2185.
  • 9Bradbury E, Moon L, Popat R, et al. Chondroitinase ABC promotes functional recovery after spinal cord injury. Nature, 2002, 416(6881) : 636-640.
  • 10Carter L, Starkey M, Akrimi S, et al. The yellow fluores- cent protein ( YFP-H ) mouse reveals neuroprotection as a no- vel mechanism underlying chondroitinase ABC-mediated repair after spinal cord injury. Journal of Neuroscience, 2008, 28 (52) : 14107-14120.

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现代生物医学进展
2009年 第10期

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