欢迎访问《解剖学报》官方网站!今天是
English
神经元核心抗原和神经元特异性烯醇化酶在人胚胎脊髓发育阶段的表达
Expression of neuronal nuclear antigen and neuron-specific enolase in the developing spinal cord of human embryos
目的 探讨神经元核心抗原(NeuN)和神经元特异性烯醇化酶(NSE)在人胚胎脊髓发育阶段的分布规律及其表达意义。 方法 应用免疫组织化学法检测第2、3、4个月龄段,共16例人胚胎,脊髓前角、后角中NeuN和NSE的表达、分布状况。 结果 在脊髓后角处:第2个月胚龄段,NeuN呈阴性表达, 部分细胞呈NSE阳性表达;第3个月胎龄段,部分细胞开始呈NeuN阳性表达,NSE则呈广泛阳性表达;第4个月胎龄段,NeuN阳性细胞表达数量和强度均较前增高,NSE阳性表达与第3个月龄相似。在人胚胎脊髓前角处: 第2~4个月龄段,NeuN和NSE呈广泛阳性表达。 结论 人胚胎脊髓发育第2~4个月龄段,NeuN和NSE阳性表达在脊髓的前角处早于后角,NeuN和NSE参与脊髓神经元的发育成熟过程。
Objective To investigate the neuronal nuclear antigen(NeuN) and neuron-specific enolase (NSE) distribution in the developing stage of the human embryonic spinal cord and their clinical significance. Methods Sixteen cases of human embryos, from 2 to 4 month-age were used in the present study. Immunohistochemical staining was uesd to detect the expression and distribution of NeuN and NSE in the anterior and posterior horn of the spinal cord.
Results At the second month of gestation, NeuN negative expression in posterior horn and NSE positive expression in some cells of the posterior horn were observed. At the third months, NeuN positive expression was first in some cells, and NSE was widely expressed in the posterior horn. At the fourth month, the number and intensity of NeuN positive expression were higher than before, and NSE positive expression was similar to that at the third month. From the second to fourth month of gestation, NeuN and NSE positive expressions were extensive in the anterior horn of human embryonic spinal cord.
Conclusion NeuN and NSE positive expressions are appeared earlier in the anterior horn than posterior horn. From the second to fourth month of gestation, NeuN and NSE may regulate neurons in the mature process during the growth and development of human embryonic spinal cord.
脊髓 / 神经元核心抗原 / 神经元特异性烯醇化酶 / 免疫组织化学 / 人胚胎
Spinal cord / Neuronal nuclear antigen / Neuron-specific enolase / Immunohistochemistry / Human embryo
[1]Toyoshima Y, Sekiguchi S, Negishi T, et al. Differentiation of neural cells in the fetal cerebral cortex of cynomolgus monkeys (Macaca fascicularis) [J]. Comp Med,2012,62(1):53-60.
[2]Kim KK, Nam J, Mukouyama YS, et al. Rbfox3-regulated alternative splicing of Numb promotes neuronal differentiation during development[J]. J Cell Biol, 2013, 200(4):443-458.
[3]Godovalova OS. Expression of nervous tissue nuclear protein and glial fibrillary acidic protein during morphogenesis of the neocortex[J]. Bull Exp Biol Med, 2010,149(5):655-658.
[4]Sarnat H B, Nochlin D, Born DE, et al. Neurnal nuclear antigen (NeuN) : a marker of neuronal maturation in the early human fetal nervous system[J]. Brain Dev, 1998, 20(2) : 88-94.
[5]Zhang YP, Huang QL, Zhao CM, et al. Expression of NeuN in rat brain at different developmental stages[J]. Chongqing Medicine, 2010, 39(21): 2901-2903. (in Chinse)
张雨平,黄其林,赵聪敏,等. 大鼠不同发育期脑神经元核抗原的表达研究[J]. 重庆医学,2010,39(21):2901-2903.
[6]Marquardt G, Setzer M, Theisen A, et al. Experimental subacute spinal cord compression: correlation of serial S100B and NSE serum measurements, histopathological changes, and outcome[J]. Neurol Res,2011,33(4):421-426.
[7]Bharosay A, Bharosay VV, Varma M, et al. Correlation of brain biomarker neuron specific enolase (NSE) with degree of disability and neurological worsening in cerebrovascular stroke[J]. Indian J Clin Biochem, 2012, 27(2):186-190.
[8]Kim BJ, Takamoto N, Yan J, et al. Chicken ovalbumin upstream promoter-transcription factor II (COUP-TFII) regulates growth and patterning of the postnatal mouse cerebellum[J]. Dev Biol, 2009, 326(2):378-391.
[9]Baranyi A, Rothenhusler HB. The impact of S100b and persistent high levels of neuron-specific enolase on cognitive performance in elderly patients after cardiopulmonary bypass[J]. Brain Inj, 2013, 27(4):417-424.
[10]Hines DJ, Haydon PG. Inhibition of a SNARE-sensitive pathway in astrocytes attenuates damage following stroke[J]. J Neurosci, 2013, 33(10):4234-4240.
[11]Mullen RJ, Buck CR, Smith AM. NeuN, a neuronal specific nuclear protein in vertebrates[J]. Development,1992, 116(1):201-211.
[12]Yang XY, Hao ChG, Wang YH, et al. The different expression of NeuN and GFAP in the spinal cord among rat, mouse, and cat[J]. Sichuan Journal of Anatomy, 2008, 16(4): 27-28, 38.(in Chinese)
杨霄彦,郝春光,王延华,等. NeuN与GFAP在正常大鼠、小鼠、猫脊髓内的表达[J]. 四川解剖学杂志,2008,16(4):27-28,38.
[13]Li Y, Wang B, Dan QQ, et al. Specific indentification of neurons and astrocytes in spinal cords of adult monkeys and rats[J]. Journal of Kunming Medical University, 2011, 32(3): 3-6. (in Chinese)
李玉,王波,但齐琴,等. 成年恒河猴和大鼠脊髓神经元及星型胶质细胞的特异识别[J]. 昆明医学院学报,2011,32(3):3-6.
[14]Wang XH, Duan L, Cao R, et al. Different expressions of neuronal nuclei in the neurons of rat contral nervous system[J]. Acta Anatomica Sinica, 2008, 39(3): 381-385. (in Chinese)
王新红,段丽,曹荣,等. 神经元核抗原在大鼠中枢神经系统神经元的不同表达[J].解剖学报,2008,39(3):381-385.
[15]Portiansky EL, Barbeito CG, Gimeno EJ, et al. Loss of NeuN immunoreactivity in rat spinal cord neurons during aging[J]. Exp Neurol, 2006,202(2):519-521.
[16]Huang W, Mo X, Qin C, et al. Transplantation of differentiated bone marrow stromal cells promotes motor functional recovery in rats with stroke[J]. Neurol Res, 2013, 35(3):320-328.
[17]Sun JH, Zheng PH, Wang LL, et al. Survival and differentiation of neuroepithelial stem cells following transplantation into the lateral ventricle of rats[J]. Chin J Physiol, 2008,51(4):247-251.
[18]Hong YD, Zhang Y, Liu XH. Proliferating cell nuclear antigen development of the human and c-Fos protein regulating embryonic spinal cord [J]. Acta Anatomica Sinica, 2011, 42(6): 836-839. (in Chinese)
洪雅丹,张泳,刘学红. 增殖性细胞核抗原和 cFos 蛋白参与调控人胚胎脊髓的发育[J]. 解剖学报,2011,42(6):836-839.
[19]Liu XH, Zhang Y, Zhang JP, et al. Expression and significance of cell apoptosis in the development of human embryonic spinal cord as detected by TUNEL staining[J]. Medical Journal of Chinese People’s Liberation Army, 2009, 34(3): 315-317. (in Chinese)
刘学红,张泳,张金萍,等. 原位缺口末端标记法检测人胚胎脊髓发育过程中细胞凋亡的表达及意义[J].解放军医学杂志,2009,34(3):315-317.
/
| 〈 |
|
〉 |
