N400 involvement in the processing of action sequences

Basic fibroblast growth factor (bFGF) is a neurotrophic and vasoactive factor, and has therapeutic potential for some central nervous system (CNS) disorders. In this study, we used the intranasal pathway to administer bFGF in adult rats, and evaluated its neuroprotective benefits and effects on endogenous neural stem cells. The bFGF levels after intranasal administration in normal rats were determined by western blot. Transient focal ischemia was achieved by occlusion of the right middle cerebral artery for 2 h. bFGF was given intranasally 2 h after reperfusion and daily thereafter on 3 successive days. Dividing progenitor cells were labeled with bromodeoxyuridine (BrdU) on day 3 of reperfusion. Rats were killed the next day after BrdU labeling. bFGF levels were significantly raised in the olfactory bulb (OB) and striatum following intranasal administration. Intranasal bFGF treatment improved neurological function and reduced infarct volume after cerebral ischemia/reperfusion, while no influence was observed on the blood pressure. And the BrdU incorporation was enhanced in the ipsilateral subventricular zone (SVZ) and striatum following intranasal administration of bFGF. These results demonstrated that bFGF can be directly delivered into brain following intranasal administration, and protects against cerebral ischemia/reperfusion. The protective effects may be attributed to the reduction of infarct volume and enhancement of endogenous progenitors in brain. Therefore, intranasal administration of bFGF may provide an alternative treatment for brain ischemia and some other CNS disorders.     

Ischemia induces cell proliferation and neurogenesis in the gerbil hippocampus in response to neuronal death

We studied hippocampal cellular proliferation and neurogenesis processes in a model of transient global cerebral ischemia in gerbils by labelling dividing cells with 5'-Bromo-2'-deoxyuridine (BrdU). Surrounding the region of selective neuronal death (CA1 pyramidal layer of the hippocampus), an important increase in reactive astrocytes and BrdU-labelled cells was detected 5 days after ischemia. A similar result was found in the dentate gyrus (DG) 12 days after ischemia. The differentiation of the BrdU+ cells was investigated 28 days after BrdU administration by analyzing the morphology, anatomic localization and cell phenotype by triple fluorescent labelling (BrdU, adult neural marker NeuN and DNA marker TOPRO-3) using confocal laser-scanning microscopy. This analysis showed increased neurogenesis in the DG in case of ischemia and triple positive labelling in some newborn cells in CA1. Seven brain hemispheres from gerbils subjected to ischemia did not develop CA1 neuronal death; hippocampus from these hemispheres did not show any of the above mentioned findings. Our results indicate that ischemia triggers proliferation in CA1 and neurogenesis in the DG in response to CA1 pyramidal neuronal death, independently of the reduced cerebral blood flow or the cell migration from subventricular zone (SVZ).     

Sustained increase in adult neurogenesis in the rat hippocampal dentate gyrus after transient brain ischemia

It is known that the number of newly generated neurons is increased in the young and adult rodent subventricular zone (SVZ) and dentate gyrus (DG) after transient brain ischemia. However, it remains unclear whether increase in neurogenesis in the adult DG induced by ischemic stroke is transient or sustained. We here reported that from 2 weeks to 6 months after transient middle cerebral artery occlusion (MCAO), there were more doublecortin positive (DCX+) cells in the ipsilateral compared to the sham-control and contralateral DG of the adult rat. After the S-phase marker 5-bromo-2'-deoxyuridine (BrdU) was injected 2 days after MCAO to label newly generated cells, a large number of BrdU-labeled neuroblasts differentiated into mature granular neurons. These BrdU-labeled neurons survived for at least 6 months. When BrdU was injected 6 weeks after injury, there were still more newly generated neuroblasts differentiated into mature neurons in the ipsilateral DG. Altogether, our data indicate that transient brain ischemia initiates a prolonged increase in neurogenesis and promotes the normal development of the newly generated neurons in the adult DG.     

局灶性脑缺血后侧脑室室下区神经发生及其与血管内皮生长因子关系的研究

为了研究成年大鼠局灶性脑缺血后侧脑室室下区(SVZ)神经发生的情况及其与血管内皮生长因子(VEGF)的关系,探讨脑缺血后神经发生及其调控机制,本研究通过大脑中动脉阻断法(MCAO)建立大鼠局灶性脑缺血模型,5-溴-2-脱氧尿核苷(BrdU)标记增殖的神经前体细胞,用免疫荧光双标记法动态检测BrdU、TuJ1、MAP-2、GFAP的表达,同时观察增殖细胞表达VEGF及其受体情况。结果显示:与对照组相比,大鼠SVZ的BrdU阳性细胞数在脑缺血后4 d组明显增加,14 d组达到高峰;Br-dU/TuJ1、BrdU/MAP-2阳性双标细胞数在脑缺血后14 d组开始增加,28 d组达到高峰;但BrdU/GFAP阳性双标细胞数则无明显变化;增殖的BrdU阳性细胞同时表达VEGF及其受体FLK-1。以上结果提示:大鼠局灶性脑缺血可激活SVZ自体神经前体细胞原位增殖、分化,且增殖的细胞同时表达VEGF及其受体可能是脑缺血后神经发生增强的调节机制之一。     

Intracranial transplantation of human adipose-derived stem cells promotes the expression of neurotrophic factors and nerve repair in rats of cerebral ischemia-reperfusion injury

Adipose tissue-derived mesenchymal stem cells (ADSCs) are of great interest as a cellular therapeutic agent for regenerative and immunomodulatory purposes. The aim of this study was to investigate whether ADSCs transplantation could promote nerve repair in rats of cerebral ischemia-reperfusion (I/R) injury. We isolated and cultured human ADSCs, and then measured cell surface antigens by flow cytometry and immunofluorescence. Healthy SD rats were randomly divided into sham group, MCAO group, MCAO+vehicle group and MCAO+ADSCs group. Cerebral ischemia-reperfusion injury was induced by middle cerebral artery occlusion (MCAO). Then the human ADSCs were transplanted into the brain of rats 24 h after MCAO. The mRNA level of BDNF (brain derived neurotrophic factor, BDNF), NGF (nerve growth factor, NGF) and bFGF (basic fibroblasts growth factor, bFGF) were detected by real-time PCR at different time points (d7, d14, d21 and d28 after MCAO). Meanwhile, the neurological deficit scores were estimated. The neurological deficit of rats in MCAO+ADSCs group attenuated at d7 in contrast to the MCAO+vehicle group (P<0.05). Subsequently, they were dramatically ameliorated with the time especially at d28. At d7, d14, d21 and d28 after ADSCs transplantation, BDNF, NGF and bFGF mRNA in MCAO+ADSCs group were strikingly higher than those in MCAO+vehicle group, and these two groups both reached the peak at d14. The western blotting results showed that BDNF and Bcl-2 expressed higher in MCAO+ADSCs group than MCAO+vehicle group. Therefore, our current results suggest that ADSCs promote nerve repair after injury through elevating the expression of neurotrophic factors and inhibiting the apoptosis of neural cells.     

Ischemic preconditioning enhances neurogenesis in the subventricular zone

Ischemic preconditioning (IPC) before subsequent prolonged ischemia is considered an emerging endogenous means of ischemic brain protection. We tested whether IPC induces endogenous neurogenesis in the subventricular zone (SVZ) and angiogenesis in the peri-ischemic area. Middle cerebral artery occlusion was administered to rats by filament insertion for 10 min (IPC) and/or 2 h (prolonged focal ischemia [PFI]). IPC alone increased 5'-bromo-2'-deoxyuridine (BrdU) (+) cells 2.5-fold in the SVZ compared with controls at 7 days. The numbers of BrdU/doublecortin (Dcx) or BrdU/neuronal nuclei (NeuN) double-labeled cells also increased, but extents of BrdU/glial fibrillary acidic protein (GFAP) double-labeling in the SVZ were not different. The IPC+PFI group showed about a 40% reduction in infarct volume. PFI increased BrdU (+) cells in the SVZ, and this was greatly enhanced by IPC treatment. The number of BrdU/Dcx double-labeled cells was strongly increased in ischemic brains administered IPC. Differentiation into mature neurons was also enhanced at 14 and 28 days. In addition, IPC significantly promoted angiogenesis in the ischemic penumbra as indicated by von Willebrand factor (vWF) staining. Our results indicate that IPC enhances neurogenesis in the SVZ even without subsequent PFI, and also enhances neurogenesis and angiogenesis after subsequent PFI. We conclude that IPC confers neuroprotection, and also promotes endogenous neurogenesis and angiogenesis.     

Sustained sleep fragmentation results in delayed changes in hippocampal-dependent cognitive function associated with reduced dentate gyrus neurogenesis

Sleep fragmentation (SF) is prevalent in human sleep-related disorders. In rats, sustained SF has a potent suppressive effect on adult hippocampal dentate gyrus (DG) neurogenesis. Adult-generated DG neurons progressively mature over several weeks, and participate in certain hippocampal-dependent cognitive functions. We predicted that suppression of neurogenesis by sustained SF would affect hippocampal-dependent cognitive functions in the time window when new neurons would reach functional maturity. Sprague–Dawley rats were surgically-prepared with electroencephalogram (EEG) and electromyogram (EMG) electrodes for sleep state detection. We induced sleep-dependent SF for 12 days, and compared SF animals to yoked sleep fragmentation controls (SFC), treadmill controls (TC) and cage controls (CC). Rats were injected with bromodeoxyuridine on treatment days 4 and 5. Rats were returned to home cages for 14 days. Cognitive performance was assessed in a Barnes maze with 5 days at a constant escape position followed by 2 days at a rotated position. After Barnes maze testing rats were perfused and DG sections were immunolabeled for BrdU and neuronal nuclear antigen (NeuN), a marker of mature neurons.SF reduced BrdU-labeled cell counts by 32% compared to SFC and TC groups. SF reduced sleep epoch duration, but amounts of rapid eye movement (REM) sleep did not differ between SF and SFC rats, and non-rapid eye movement (NREM) was reduced only transiently. In the Barnes maze, SF rats exhibited a progressive decrease in escape time, but were slower than controls. SF animals used different search strategies. The use of a random, non-spatial search strategy was significantly elevated in SF compared to the SFC, TC and CC groups. The use of random search strategies was negatively correlated with NREM sleep bout length during SF. Sustained sleep fragmentation reduced DG neurogenesis and induced use of a non-spatial search strategy, which could be seen 2 weeks after terminating the SF treatment. The reduction in neurogenesis induced by sleep fragmentation is likely to underlie the delayed changes in cognitive function.     

The effects of Fabp7 and Fabp5 on postnatal hippocampal neurogenesis in the mouse

New neurons are continually produced after birth from neural stem/progenitor cells (NSCs/NPCs) in the hippocampal dentate gyrus (DG). Recent studies have reported that fatty acid binding protein 7 (Fabp7/brain lipid binding protein (BLBP)) is required for the maintenance of embryonic NSCs/NPCs and have identified an association between the Fabp7 gene and behavioral paradigms that correlate with hippocampal functions. However, the specific roles of Fabps in postnatal neurogenesis remain unknown. Herein, we demonstrate the effects of Fabp7, and another Fabp, Fabp5, on postnatal neurogenesis. Fabp7 and Fabp5 were detected in the subgranular zone (SGZ) of the DG, and Fabp7+ cells were less differentiated than Fabp5+ cells. We analyzed the differentiation state of NSCs/NPCs in the SGZ of 4-week-old (4w) Fabp7 knockout (7KO), Fabp5 KO (5KO), and Fabp7/Fabp5 double KO (7/5KO) mice and found that the number of NSCs/NPCs was dramatically reduced compared with wild-type mice. Although the uptake of BrdU 1 day after injection was decreased in all KO mice, the survival of BrdU+ cells 1 month after injection was increased in the 7/5KO mice compared to other three genotypes. We also observed an enhancement of neuronal differentiation in all Fabp KO mice. In addition, the proliferation and survival of NSCs/NPCs differed along the anterior-posterior axis (A-P axis). A greater number of newborn cells in the posterior region became extinct, but this tendency was not apparent in the Fabps KO mice. These data suggest that Fabp7 and Fabp5 have differential roles for proliferation and survival of the NSCs/NPCs during postnatal DG neurogenesis.     

液化石油气中毒对小鼠齿状回及室管膜下区神经发生的影响

目的:探讨液化石油气急性中毒对小鼠海马齿状回及侧脑室室管膜下区神经发生的影响。方法:选择健康成年昆明小鼠随机分三组,分别为对照组,液化石油气(LPG)高、低剂量中毒组。使用密闭中毒箱行染毒实验。用Morris水迷宫训练测试其空间学习与记忆能力;腹腔注射5-溴脱氧尿苷(BrdU)后通过免疫组织化学方法来显示BrdU阳性细胞。结果:两个中毒组动物的学习记忆能力均弱于对照组(P<0.01),齿状回和室管膜下区内BrdU阳性细胞数目也低于对照组(P<0.01)。结论:液化石油气急性中毒通过抑制齿状回和室管膜下区的神经发生,影响小鼠的学习记忆能力和脑损伤后修复。     

静脉移植骨髓基质干细胞对脑缺血大鼠神经功能及神经细胞凋亡的影响

目的： 探讨骨髓基质干细胞静脉移植后进入大鼠局灶性缺血脑内的短期存活情况及其对脑缺血大鼠神经功能的影响。方法: 将BrdU标记大鼠骨髓基质干细胞后，经尾静脉注射到局灶性脑缺血大鼠体内，分别在脑缺血术后1 d、7 d、14 d和28 d通过神经功能评分观察移植后大鼠神经行为学变化情况，通过组织学方法观察移植到脑内的骨髓基质干细胞存活状态和脑内缺血区与非缺血区神经细胞死亡情况，用RT-PCR方法观察到骨髓基质干细胞表达细胞因子及神经营养因子。结果: 骨髓基质干细胞移植组在14 d和28 d大鼠神经功能评分显著低于对照组（P<0.05），神经功能得到明显改善。静脉移植的骨髓基质干细胞在移植的1 d主要分布在损伤侧大脑中动脉周围组织间质中，在第3d沿着损伤侧的下丘脑迁移至海马的CA1(cornu ammonis 1, CA1)区；骨髓基质干细胞移植组大鼠梗死灶周围的死亡细胞在14 d和28 d明显少于对照组（P<0.05）。结论: 经静脉注射移植骨髓基质干细胞能迁移到损伤区并能够明显促进局灶性脑缺血大鼠的神经行为功能恢复；抗凋亡、分泌神经营养因子改善微环境、动员神经干细胞并迁移至缺血区可能是静脉注射骨髓基质干细胞治疗局灶性脑缺血的机制。     

大鼠短暂性局灶性脑缺血后脑室下带碱性成纤维细胞生长因子的表达

目的　观察成年大鼠前脑室下带 (SVZ)区域在短暂性局灶性脑缺血后碱性成纤维细胞生长因子(bFGF)的表达规律。方法　用线栓法制作局灶性脑缺血模型 ,免疫组织化学方法检测SVZ区域bFGF的表达。结果　缺血后 12h ,bFGF表达开始增加 ,2 4h达到峰值 ,随后下降 ,并持续高水平表达 ,于 14d降至正常水平。结论　短暂性局灶性脑缺血后bFGF呈规律性过表达 ,可能是神经细胞对缺血损伤的有益反应     

局灶性脑缺血后老年大鼠室管膜下区和颗粒下层细胞增殖与分化的实验研究

目的观察老年大鼠局灶性脑缺血后室管膜下区（SVZ）和颗粒下层（SGZ）神经干细胞的增殖与分化.方法取老年大鼠制作大脑中动脉梗塞模型.用5-溴脱氧尿核苷（BrdU）脉冲标记结合免疫组织化学单标记技术,观察正常组、假手术组、脑缺血后3、7、14、21、28 d组SVZ和SGZ区BrdU阳性细胞的变化;用BrdU累积标记结合免疫组织化学双标技术,观察脑缺血14 d后SVZ和SGZ区BrdU/NeuN和BrdU/GFAP双标阳性细胞的数量.结果在正常组、假手术组及各脑缺血组大鼠的双侧SVZ和SGZ均可观察到BrdU阳性细胞.与正常组和假手术组相比,脑缺血后SVZ和SGZ区BrdU阳性细胞明显增加.缺血组SVZ区BrdU阳性细胞在脑缺血后7 d时达到高峰,28 d时仍高于正常水平;SGZ区BrdU阳性细胞在脑缺血后14 d时达到高峰,28 d时仍高于正常水平.通过BrdU累积标记和免疫组织化学双标发现：脑缺血14 d后,老年大鼠SVZ区有部分细胞显示BrdU/NeuN（0.98%）或BrdU/GFAP（12.56%）双标阳性,而SGZ区未见双标细胞.结论局灶性脑缺血可激活老年大鼠室管膜下区和颗粒下层的神经干细胞明显增殖,并且室管膜下区有部分增殖细胞可分化为神经元或神经胶质.     

Hippocampal adult neurogenesis is enhanced by chronic eszopiclone treatment in rats

The adult hippocampal dentate gyrus (DG) exhibits cell proliferation and neurogenesis throughout life. We examined the effects of daily administration of eszopiclone (Esz), a commonly used hypnotic drug and γ‐aminobutyric acid (GABA) agonist, compared with vehicle, on DG cell proliferation and neurogenesis, and on sleep–wake patterns. Esz was administered during the usual sleep period of rats, to mimic typical use in humans. Esz treatment for 7 days did not affect the rate of cell proliferation, as measured by 5‐bromo‐2′‐deoxyuridine (BrdU) immunostaining. However, twice‐daily Esz administration for 2 weeks increased survival of newborn cells by 46%. Most surviving cells exhibited a neuronal phenotype, identified as BrdU–neuronal nuclei (NeuN) double‐labeling. NeuN is a marker of neurons. Non‐rapid eye movement sleep was increased on day 1, but not on days 7 or 14 of Esz administration. Delta electroencephalogram activity was increased on days 1 and 7 of treatment, but not on day 14. There is evidence that enhancement of DG neurogenesis is a critical component of the effects of antidepressant treatments of major depressive disorder (MDD). Adult‐born DG cells are responsive to GABAergic stimulation, which promotes cell maturation. The present study suggests that Esz, presumably acting as a GABA agonist, has pro‐neurogenic effects in the adult DG. This result is consistent with evidence that Esz enhances the antidepressant treatment response of patients with MDD with insomnia.     

Proliferation and differentiation of progenitor cells in the cortex and the subventricular zone in the adult rat after focal cerebral ischemia

Progenitor cells in the subventricular zone of the lateral ventricle and in the dentate gyrus of the hippocampus can proliferate throughout the life of the animal. To examine the proliferation and fate of progenitor cells in the subventricular zone and dentate gyrus after focal cerebral ischemia, we measured the temporal and spatial profiles of proliferation of cells and the phenotypic fate of proliferating cells in ischemic brain in a model of embolic middle cerebral artery occlusion in the adult rat. Proliferating cells were labeled by injection of bromodeoxyuridine (BrdU) in a pulse or a cumulative protocol. To determine the temporal profile of proliferating cells, ischemic rats were injected with BrdU every 4 h for 12 h on the day preceding death. Rats were killed 2-14 days after ischemia. We observed significant increases in numbers of proliferating cells in the ipsilateral cortex and subventricular zone 2-14 days with a peak at 7 days after ischemia compared with the control group. To maximize labeling of proliferating cells, a single daily injection of BrdU was administered over a 14-day period starting the day after ischemia. Rats were killed either 2 h or 28 days after the last injection of BrdU. A significant increase in numbers of BrdU immunoreactive cells in the subventricular zone was coincident with a significant increase in numbers of BrdU immunoreactive cells in the olfactory bulb 14 days after ischemia and numbers of BrdU immunoreactive cells did not significantly increase in the dentate gyrus. However, 28 days after the last labeling, the number of BrdU labeled cells decreased by 90% compared with number at 14 days. Clusters of BrdU labeled cells were present in the cortex distal to the infarction. Numerous cells immunostained for the polysialylated form of the neuronal cell adhesion molecule were detected in the ipsilateral subventricular zone. Only 6% of BrdU labeled cells exhibited glial fibrillary acidic protein immunoreactivity in the cortex and subcortex and no BrdU labeled cells expressed neuronal protein markers (neural nuclear protein and microtubule associated protein-2). From these data we suggest that focal cerebral ischemia induces transient and regional specific increases in cell proliferation in the ipsilateral hemisphere and that proliferating progenitor cells may exist in the adult cortex.     

神经发生对小鼠学习记忆能力的影响

本研究探讨神经发生对学习记忆能力的影响。选择健康成年昆明小鼠随机分7组,分别为生理盐水对照组,酸性成纤维细胞生长因子(aFGF)高、中、低剂量组,甲氨喋呤(MTX)高、中、低剂量组。使用脑立体定位仪行侧脑室埋管手术及侧脑室微量注射。用Morris水迷宫训练测试其空间学习与记忆能力;腹腔注射5-溴脱氧尿苷(BrdU)后通过免疫组织化学方法来显示Br-dU阳性细胞。结果表明,aFGF各剂量组学习记忆能力均强于生理盐水对照组;MTX高剂量组学习记忆能力显著低于生理盐水对照组。免疫组织化学结果显示aFGF各剂量组齿状回内BrdU阳性细胞数目显著高于对照组;而MTX高剂量组齿状回BrdU阳性细胞较之显著减少。结果提示,aFGF和MTX可能通过促进或抑制齿状回的神经发生,从而影响小鼠的学习与记忆能力。     

骨髓基质细胞促进永久性局灶性脑缺血大鼠脑室下区的神经发生

目的 探讨移植骨髓基质细胞(BMSCs)对永久性局灶性脑缺血大鼠脑室下区(SVZ)细胞增殖的影响及其增殖细胞类型分析. 方法制作永久性局灶性脑缺血大鼠模型,分为空白对照组(MCAO)、PBS对照组(MCAO PBS)和治疗组(MCAO BMSCs),每组动物再分为脑缺血后7d和14d亚组.空白对照组不予处理,PBS对照组在脑缺血后1d移植PBS,治疗组在脑缺血后1d移植BMSCs.用Zausinger六分法检测神经功能恢复情况;注射5-溴脱氧鸟嘧啶核苷(BrdU)标记SVZ的新增殖细胞,免疫荧光双重标记检测新增殖细胞的类型. 结果在脑缺血后7d和14d,与两个对照组相比,治疗组的神经功能评分较高,有显著性差异(P<0.05);脑缺血后14d,治疗组的大鼠患侧SVZ的BrdU阳性细胞较其余两组高,存在显著差异(P<0.05);免疫荧光双重标记显示,新增殖细胞表达神经元和星形胶质细胞的标志物,提示新增殖细胞为神经元和神经胶质细胞的混合体. 结论 BMSCs可以改善永久性局灶性脑缺血大鼠的神经功能,其机制可能与促进SVZ的神经细胞增殖有关.     

Neurogenesis in the dentate gyrus of the rat hippocampus enhanced by tickling stimulation with positive emotion

Hippocampal neurogenesis is influenced by many factors. In this study, we examined the effect of tactile stimulation (tickling), which induced positive emotion, on neurogenesis in the dentate gyrus (DG) of the hippocampus. Four week-old rats were tickled for 5 min/day on 5 consecutive days and received 5-bromo-2′-deoxyuridine (BrdU) administration for 4 days from the second tickling day. Then they were allowed to survive for 18 h or 3 weeks after the end of BrdU treatment. Neurogenesis in the DG was compared between the tickled and untickled rats by using immunohistochemistry with anti-BrdU antibody. The result showed that the number of BrdU- and NeuN (neural cell marker)-double positive neurons on 18 h as well as 3 weeks of the survival periods was significantly increased in the tickled group as compared with the untickled group. The expression of mRNA of brain-derived neurotrophic factor (BDNF) in the hippocampus of the tickled rats was not altered when compared with the control rats. In conclusion, tickling stimulation which induces positive emotion may affect the generation and survival of new neurons of the DG through the BDNF-independent pathway.     

The isolation of neural stem cells from the olfactory bulb of Parkinson's disease model

Hyposmia is one of the characteristic symptoms of PD. We isolated the neurosphere forming cells (NSFCs) from the olfactory bulb (OB) after dopaminergic neuronal loss induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), which is a model of Parkinson's disease. We used BrdU to label dividing cells and isolated NSFCs from the OB of adult mice with or without MPTP to confirm the function of OB in PD models. Seven days after MPTP treatment, BrdU-positive cells were significantly increased in the OB, especially in the glomerular layer (GL) and the subependymal zone (SEZ). The number of neurospheres derived from the adult OB was not decreased in groups receiving MPTP, instead, it was significantly increased at 21 days post-injection and only returned to control levels 40 days after MPTP administration. We also evaluated the differentiation of NSFCs into neural subtypes and found that these NSFCs could be well infected with retrovirus. Adult neurogenesis may be enhanced as a repair system in the tyrosine hydroxylase (TH) positive cells of the OB after MPTP administration. The isolation of neural stem cells from the OB after MPTP administration has helped to establish the cellular basis of neurogenesis and supports a role for the transplant-mediated treatment of PD.     

成年和老年大鼠局灶性脑缺血后脑室下区细胞的增殖分化

目的：比较老年和成年大鼠局灶性脑缺血后脑室下区（SVZ）神经干细胞的增殖与分化。方法：制作大脑中动脉梗死模型,用免疫组化法检测SVZ的5-溴脱氧尿核苷（BrdU）、神经元核抗原（NeuN）及胶质纤维酸性蛋白（GFAP）阳性细胞数的变化。结果：SVZ的BrdU阳性细胞在正常组和假手术组成年大鼠明显多于老年大鼠。实验组成年和老年大鼠均在缺血后增加,28d时仍高于正常水平,但成年大鼠各时间点均明显高于老年大鼠。在新生细胞中部分细胞是Brdu／NeuN或BrdU／GFAP双标细胞,但老年大鼠Brdu／NeuN双标细胞明显少于成年大鼠。结论：大鼠脑缺血激活SVZ神经干细胞增殖能力,成年大鼠明显强于老年大鼠,且新生细胞分化为神经元的比例也明显高于老年大鼠。