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中华针灸电子杂志 ›› 2015, Vol. 04 ›› Issue (06) : 289 -292. doi: 10.3877/cma.j.issn.2095-3240.2015.06.014

研究生论坛

星形胶质细胞:治疗中风的靶细胞
杜静1, 王建武1, 胡汉通1, 赵晓峰2,()   
  1. 1. 300193 天津中医药大学研究生院
    2. 300193 天津中医药大学第一附属医院针灸部
  • 收稿日期:2015-05-12 出版日期:2015-12-15
  • 通信作者: 赵晓峰
  • 基金资助:
    国家自然基金面上项目(81173416)

Astrocytes:target cells for stroke therapy

Jing Du1, Jianwu Wang1, Hantong Hu1, Xiaofeng Zhao2,()   

  1. 1. Graduate School,Tianjin University of Traditional Chinese Medicine,Tianjin 300193,China
    2. Department of Acupuncture,First Teaching Hospital of Tianjin University of Traditional Chinese Medicine,Tianjin 300193,China
  • Received:2015-05-12 Published:2015-12-15
  • Corresponding author: Xiaofeng Zhao
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杜静, 王建武, 胡汉通, 赵晓峰. 星形胶质细胞:治疗中风的靶细胞[J/OL]. 中华针灸电子杂志, 2015, 04(06): 289-292.

Jing Du, Jianwu Wang, Hantong Hu, Xiaofeng Zhao. Astrocytes:target cells for stroke therapy[J/OL]. Chinese Journal of Acupuncture and Moxibustion(Electronic Edition), 2015, 04(06): 289-292.

神经干细胞治疗中风的传统观念是尽量避免缺血半暗带神经元的丢失,但在损伤部位,诸多种类的细胞丢失,包括星形胶质细胞。星形胶质细胞是中枢神经系统中的主要细胞类型,在哺乳动物的脑细胞中约占20%~30%,主要用以维持中枢神经系统的自我平衡。在受到损伤时,星形胶质细胞可通过改善糖代谢、支持血脑屏障及分泌脑源性神经因子保护神经元避免损伤和死亡,为神经再生提供相应物质,且由于脑梗死、外伤等原因被激活的星形胶质细胞具有神经干细胞特性,拥有分化为神经干细胞和神经元的潜力。鉴于以上特性,星形胶质细胞或许更适合作为治疗中风的靶细胞。

关键词: 卒中, 星形胶质细胞, 靶细胞

The traditional concept of neural stem cells in the treatment of stroke is avoid neuron loss in penumbra.However,at the injury site,all kinds of cells are lost,including astrocytes.Astrocytes are the main types of cells in the central nervous system(CNS),which account for about 20% to 30% in mammalian brain cells.Astrocytes are mainly used to maintain homeostasis of CNS.In damage,astrocytes can protect neurons from injury and death by improving glucose metabolism,supporting the blood-brain barrier and secretion of brain-derived neurotrophic factor,which provide the corresponding material for nerve regeneration.The activated astrocytes,due to cerebral infarction,trauma and other reasons,have neural stem cell characteristics.In view of the above characteristics,astrocytes may be more suitable as target cells for the treatment of stroke.

Key words: Stroke, Astrocyte, Target cell
[1]
Arvidsson A,Collin T,Kirik D,et al.Neuronal replacement from endogenous precursors in the adult brain after stroke[J].Nat Med,2002,8(9):963-970.
[2]
Takahiro T,Oberheim N,Cotrina ML,et al.Astrocytes and ischemic injury[J].Stroke,2009,40(3 Suppl):S8-12.
[3]
Ding S.Ca2+signaling in astrocytes and its role in ischemic stroke[J].Adv Neurobiol,2014(11):189-211.
[4]
Zamanian JL,Xu L,Foo LC,et al.Genomic analysis of reactive astrogliosis[J].J Neurosci,2012,32(18):6391-6410.
[5]
Li H,Zhang N,Sun G,et al.Inhibition of the group I mGluRs reduces acute brain damage and improves longterm histological outcomes after photothrombosis-induced ischaemia[J].ASN Neuro,2013,5(3):195207.
[6]
Ronaldson PT,Davis TP.Blood-brain barrier integrity and glial support:mechanisms that can be targeted for novel therapeutic approaches in stroke[J].Curr.Pharm Des,2012,18(25):3624-3644.
[7]
Wang L,Deng S,Lu Y,et al.Increased inflammation and braininjury after transient focal cerebral ischemia in activating transcription factor 3 knockout mice[J].Neurosci ence,2012,220(38):100-108.
[8]
Nardai S,Dobolyi A,P á l G,et al.Selegiline promotesNOTCH-JAGGED signaling in astrocytes of the peri-infarct region and improves the functional integrity of the neurovascular unit in a rat model of focal ischemia[J].Restor Neurol Neurosci,2015,33(1):1-14.
[9]
Dienel GA.Fueling and imaging brain activation[J].ASN Neuro,2012,4(5):267-320.
[10]
Bolaños JP,Almeida A,Moncada S.Glycolysis:a bioenergetic or a survival pathway[J].Trends Biochem Sci,2010,35(3):145-149.
[11]
Chuquet J,Quilichini P,Nimchinsky EA,et al.Predominant enhancement of glucose uptake in astrocytes versus neurons during activation of the somatosensory cortex[J].J Neurosci,2010,30(45):15298-15303.
[12]
Bittner CX,Loaiza A,Ruminot I,et al.High resolution measurement of the glycolytic rate[J].Front Neuroenergetics,2010,2(26):1-11.
[13]
Schurr A,Payne RS.Lactate,not pyruvate,is neuronal aerobic glycolysis end product:an in vitro electrophysiological study[J].Neuroscience,2007,147(3):613-619.
[14]
Marcoux J,McArthur DA,Miller C,et al.Persistent metabolic crisis as measured by elevated cerebral microdialysis lactate-pyruvate ratio predicts chronic frontal lobe brain atrophy after traumatic brain injury[J].Crit Care Med,2008,36(10):2871-2877.
[15]
Szydlowska K,Tymianski M.Calcium,ischemia and excitotoxicity[J].Cell Calcium,2010,47(2):122-129.
[16]
Bardehle S,Kr ü ger M,Buggenthin F,et al.Live imaging of astrocyte responses to acute injury reveals selective juxtavascular proliferation[J].Nat Neurosci,2013,16(5):580586.
[17]
Sirko S,Behrendt G,Johansson PA,et al.Reactive glia in the injured brain acquire stem cell properties in response to sonic hedgehog.[corrected][J].Cell Stem Cell,2013,12(4):426-439.
[18]
Moore DL,Jessberger S.All astrocytes are not created equal-the role of astroglia in brain injury[J].EMBO Rep,2013,14(6):487-488.
[19]
Jiang P,Chen C,Wang R,et al.hESC-derived Olig2+progenitors generate a subtype of astroglia with protective effects against ischaemic brain injury[J].Nat Commun,2013(4):2196.
[20]
Ding S.Dynamic reactive astrocytes after focal ischemia[J].Neural Regen Res,2014,9(23):2048-2052.
[21]
Shimada IS,LeComte MD,Granger JC,et al.Self-renewal and differentiation of reactive astrocyte-derived neural stem/progenitor cells isolated from the cortical peri-infarct area after stroke[J].J Neurosci,2012,32(23):7926-7940.
[22]
Su Z,Niu W,Liu ML,et al.In vivo conversion of astrocytes to neurons in the injured adult spinal cord[J].Nat Commun,2014(5):3338-3353.
[23]
Guo Z,Zhang L,Wu Z,et al.In vivo direct reprogramming of reactive glial cells into functional neurons after brain injury and in an Alzheimers disease model[J].Cell Stem Cell,2014,14(2):188-202.
[24]
Laywell ED,Rakic P,Kukekov VG,et al.Identification of a multipotent astrocytic stem cell in the immature and adult mouse brain[J].Proc Natl Acad Sci U S A,2000,97(25):13883-13888.
[25]
Imayoshi I,Kageyama R.bHLH Factors in Self-Renewal,Multipotency,and Fate Choice of Neural Progenitor Cells[J].Neuron,2014,82(1):9-23.
[26]
Mart í nez-Cerdeño V,Noctor SC,Espinosa A,et al.Embryonic MGE precursor cells grafted into adult rat striatum integrate and ameliorate motor symptoms in 6-OHDA-lesioned rats[J].Cell Stem Cell,2010,6(3):238-250.
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