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曾园山, Jun-Mei Wang a, , Yuan-Shan Zeng a, b, Ran-Yi Liu c, Wen-Lin Huang c, Yi Xiong b, Yan-Hua Wang d, Shui-Jun Chen a, Yang D. Teng e
J.-M. Wang et al./Experimental Neurology 203(2007)123-127,-0001,():
-1年11月30日
AbstractWe have constructed a recombinant adenovirus expression vector carrying the human neurotrophin-3 (NT-3) receptor TrkC (tyrosine proteinkinase C) gene (rAd-TrkC; 2478 bp) and confirmed the expression of the encoded TrkC in green fluorescent protein (GFP)-murine neural stem cells (NSCs) by reverse transcription polymerase chain reaction (RT-PCR),Western blot analysis, andimmunocytochemistry. The activity of the expressedrAd-TrkC was verified in vitro by evaluating dose-related responses of NSCs to NT-3, a TrkC specific ligand. TrkC-GFP-NSCs had a significantly higher percentage of neuronal differentiation when treated with NT-3 relative to the rAd-LacZ control cells (55.2% vs. 29.8%; P<0.05, χ2 test).Thus, our rAd-TrkC vector can transfect NSCs and produce functional TrkC receptors to promote neuronal differentiation of NSCs.
TrkC, Recombinant adenovirus, Gene expression, NT-3, Neural stem cell, Differentiation
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曾园山, Wei Zhang a, b, Yuan-Shan Zeng a, ∗, Xue-Bao Zhang b, Jun-Mei Wang b, Wei Zhang b, Shui-Jun Chen b
Neuroscience Letters 408(2006)98-103,-0001,():
-1年11月30日
This study aims to investigate the effect of adenoviral vector-mediated neurotrophine-3 (NT-3) gene transfer and retinoic acid (RA) pretreatmenton inducing neuronal differentiation of bone marrow mesenchymal stem cells (MSCs) in vitro. MSCs could be efficiently transduced by NT-3gene via recombinant adenoviral vectors (Adv). Combination of AdvNT-3 and RA significantly promoted MSCs to differentiate into cell typesassociated with phenotypes of neural lineages, which included neural markers nestin, NF, MAP2 and PSD95 as detected by immunocytochemistry.But the expressions of GFAP in these cells were not obvious. RT-PCR analysis revealed that AdvNT-3 in combination with RA pretreatment couldinitiate the transcription of TrkC mRNA. These results demonstrate that the combination of AdvNT-3 and RA pretreatment may promote neuronaldifferentiation of MSCs, which may serve as ideal seed cells for the repair of spinal cord injury.
Bone marrow cells, Adenoviral vector, Neurotrophine-3, Retinoic acid, Neuronal differentiation
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曾园山, XUE-BAO ZHANG, YUAN-SHAN ZENG , WEI ZHANG, YA-YUN CHEN, YI XIONG, AND SUI-JUN CHEN
BIOMEDICAL AND ENVIRONMENTAL SCIENCES 19(2006)219-224,-0001,():
-1年11月30日
To investigate the synergistic effect of Schwann cells (SCs) and retinoic acid (RA) on differentiation andsynaptogenesis of neural stem cells (NSCs) derived from hippocampus of neonatal rats. Methods The classical methodfor 2
Neural stem cell, Neuronal differentiation, PSD95, Schwann cells, Retinoic acid
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【期刊论文】DENDRITIC PLASTICITY OF CA1 PYRAMIDAL NEURONS AFTER TRANSIENT GLOBAL ISCHEMIA
曾园山, Y.-W. RUAN, B. ZOU, Y. FAN, Y. LI, N. LIN, Y.-S. ZENG, T.-M. GAO, Z. YAO AND Z. C. XU
Neuroscience 140(2006)191-201,-0001,():
-1年11月30日
Dendrites and spines undergo dynamic changesin physiological conditions, such as learning and memory, and in pathological conditions, such as Alzheimer's diseaseand epilepsy. Long-term dendritic plasticity has also beenreported after ischemia/hypoxia, which might be compensatoryeffects of surviving neurons for the functional recoveryafter the insults. However, the dendritic changes shortly afterischemia, which might be associated with the pathogenesisof ischemic cell death, remain largely unknown. To reveal themorphological changes of ischemia-vulnerable neurons after ischemia, the present study investigated the alteration ofdendritic arborization of CA1 pyramidal neurons in rats aftertransient cerebral ischemia using intracellular staining techniquein vivo. The general appearance of dendritic arborizationof CA1 neurons within 48 h after ischemia was similar tothat of control neurons. However, a dramatic increase ofdendritic disorientation was observed after ischemia withmany basal dendrites coursed into the territory of apicaldendrites and apical dendrites branched into the region ofbasal dendrites. In addition, a significant increase of apicaldendritic length was found 24 h after ischemia. The increaseof dendritic length after ischemia was mainly due to thedendritic sprouting rather than the extension of individualdendrites, which mainly occurred in the middle segment ofthe apical dendrites. These results reveal a plasticity changein dendritic arborization of CA1 neurons shortly after cerebralischemia.
excitotoxicity,, hippocampus,, neuronal plasticity,, stroke animal model.,
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曾园山, Yuan-Shan Zeng a, Ying Ding a, Li-Zhi Wu a, Jia-Song Guo a, Hai-Biao Li a, Wai-Man Wong b, Wu-Tian Wu b
Dev Neurosci 27(2005)20-26,-0001,():
-1年11月30日
The present study investigates whether Schwann cells(SCs) could promote the survival and differentiation ofneural stem cells in the injured spinal cord. Neural stemcells were dissociated and cloned from the hippocampaltissue of newborn rats. SCs were also dissociated andpurified simultaneously from the sciatic nerves of 4-dayoldrats. The results showed that the number of survivingneural stem cells and differentiated neuron-like cells wassignificantly increased in the co-grafted (SCs and neuralstem cells) group compared with the control group (neuralstem cells only). Neuron-like cells that developedaxon-like processes were observed more commonly inthe cograftedgroup. These results demonstrate thatSCs can promote the survival and differentiation oftransplanted neural stem cells in the injured spinal cord.
Schwann cells
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