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1.
The application of growth factors (GFs) for treating chronic spinal cord injury (SCI) has been shown to promote axonal regeneration and functional recovery. However, direct administration of GFs is limited by their rapid degradation and dilution at the injured sites. Moreover, SCI recovery is a multifactorial process that requires multiple GFs to participate in tissue regeneration. Based on these facts, controlled delivery of multiple growth factors (GFs) to lesion areas is becoming an attractive strategy for repairing SCI. Presently, we developed a GFs‐based delivery system (called GFs‐HP) that consisted of basic fibroblast growth factor (bFGF), nerve growth factor (NGF) and heparin‐poloxamer (HP) hydrogel through self‐assembly mode. This GFs‐HP was a kind of thermosensitive hydrogel that was suitable for orthotopic administration in vivo. Meanwhile, a 3D porous structure of this hydrogel is commonly used to load large amounts of GFs. After single injection of GFs‐HP into the lesioned spinal cord, the sustained release of NGF and bFGF from HP could significantly improve neuronal survival, axon regeneration, reactive astrogliosis suppression and locomotor recovery, when compared with the treatment of free GFs or HP. Moreover, we also revealed that these neuroprotective and neuroregenerative effects of GFs‐HP were likely through activating the phosphatidylinositol 3 kinase and protein kinase B (PI3K/Akt) and mitogen‐activated protein kinase/extracellular signal‐regulated kinase (MAPK/ERK) signalling pathways. Overall, our work will provide an effective therapeutic strategy for SCI repair.  相似文献   

2.
A possible interaction between tumor necrosis factor- (TNF) and other cytokines/growth factors in stimulating the production of nerve growth factor (NGF) in Swiss 3T3 cells was studied. TNF's stimulatory activity on fibroblast NGF production was synergized by interleukin-1 (IL-1), IL-1β and interferon-γ (IFN-γ), but was antagonized by transforming growth factor-β (TGF-β). The most remarkable synergistic effect was observed between TNF and IL-1/β; as little as 0.003 ng/ml of IL-1β markedly enhanced TNF's stimulatory activity on NGF production in the cells. These findings reinforce the idea that TNF, in concert with IL-1/β, plays an essential role in regulating the regeneration of peripheral nerves following injury through an indirect mechanism by which it stimulates NGF production in fibroblasts.  相似文献   

3.
Pharmacological treatment is a therapeutic approach to improving nerve regeneration and functional recovery after peripheral nerve crush injury. The objective of the present study was to investigate the effects of the polypeptides isolated from Achyranthes bidentata Blume (abbreviated as ABPP) on rat sciatic crush injury and to test the possible involvement of neurotrophic factors. After surgical crush injury, rats received daily intraperitoneal injection of 0.2 ml saline containing 2 mg ABPP, 1 μg nerve growth factor (NGF) or no additive. The results from walking track analysis, electrophysiological assessment and histological evaluation indicated that the repair outcomes by ABPP treatment were close to those by NGF treatment, but better than those by treatment with saline alone. The quantitative real-time RT-PCR was used to monitor the mRNA expression of growth associated protein in the crush nerves and the mRNA expression of NGF, brain-derived neurotrophic factor (BDNF), ciliary neurotrophic factor (CNTF), tyrosine kinase (Trk)A and TrkB in the dorsal root ganglia (DRGs) at L4–L6. The mRNA expression of these genes in the crush nerve sample and DRGs sample was higher after treatment with ABPP or NGF than after treatment with saline alone. Our findings suggest that ABPP might protect peripheral nerve against crush injury through stimulating release of neurotrophic factors and the other cytokines.  相似文献   

4.
Glial‐derived neurotrophic factor (GDNF) and nerve growth factor (NGF) have both been shown to enhance peripheral nerve regeneration following injury and target different neuronal populations. The delivery of either growth factor at the site of injury may, therefore, result in quantitative differences in motor nerve regeneration and functional recovery. In this study we evaluated the effect of affinity‐based delivery of GDNF or NGF from fibrin‐filled nerve guidance conduits (NGCs) on motor nerve regeneration and functional recovery in a 13 mm rat sciatic nerve defect. Seven experimental groups were evaluated consisting of GDNF or NGF and the affinity‐based delivery system (DS) within NGCs, control groups excluding the DS and/or growth factor, and nerve isografts. Groups with growth factor in the conduit demonstrated equivalent or superior performance in behavioral tests and relative muscle mass measurements compared to isografts at 12 weeks. Additionally, groups with GDNF demonstrated greater specific twitch and tetanic force production in extensor digitorum longus (EDL) muscle than the isograft control, while groups with NGF produced demonstrated similar force production compared to the isograft control. Assessment of motor axon regeneration by retrograde labeling further revealed that the number of ventral horn neurons regenerating across NGCs containing GDNF and NGF DS was similar to the isograft group and these counts were greater than the groups without growth factor. Overall, the GDNF DS group demonstrated superior functional recovery and equivalent motor nerve regeneration compared to the isograft control, suggesting it has potential as a treatment for motor nerve injury. Biotechnol. Bioeng. 2010;106: 970–979. © 2010 Wiley Periodicals, Inc.  相似文献   

5.
Abstract: The present study compares the effects of chronic administration of basic fibroblast growth factor (bFGF) and nerve growth factor (NGF) on various hippocampal cholinergic parameters in rats with partial unilateral fimbrial transections. Lesions resulted in marked reductions of several presynaptic cholinergic parameters: choline acetyltransferase (ChAT) activity (by 50%), [3H]-acetylcholine ([3H]ACh) synthesis (by 59%), basal and ve-ratridine (1 μM)-evoked [3H]ACh release (by 44 and 57%, respectively), and [3H]vesamicol binding site densities (by 35%). In addition, [3H]AF-DX 116/muscarinic M2 binding site densities were also modestly decreased (by 23%). In contrast, [3H]pirenzepine/muscarinic M1 and [3H]AF-DX 384/muscarinic M2/M4 binding site densities were not altered by the lesions, nor were they affected by any of the treatments. Intracerebroventricular administration of bFGF (10 ng, every other day, for 21 days) partially prevented the lesion-induced deficit in hippocampal ChAT activity, an effect that was not markedly different from that measured in the NGF-treated (1 μg intracerebroventricularly, every other day, for 21 days) rats. In rats treated with a combination of bFGF and NGF, ChAT activity was not different from that in rats treated with the individual factors alone. In contrast, the lesion-induced deficits in the other cholinergic parameters were not attenuated by bFGF treatment, although they were at least partially prevented by NGF administration. To determine whether higher concentrations of bFGF are necessary to affect cholinergic parameters other than hippocampal ChAT activity, rats were treated with 1 μg (every other day, 21 days) of the growth factor. In this group of rats, detrimental effects of bFGF, manifested by an increased death rate (46%), and marked reductions in body weight of the survivors, were observed. In addition, this concentration of bFGF appeared to exacerbate the lesion-induced reduction in [3H]ACh synthesis by hippocampal slices; [3H]ACh synthesis in lesioned hippocampi represented 36 and 52% of that in contralateral unlesioned hippocampi for the bFGF-treated and control groups, respectively. In conclusion, although bFGF administration attenuates the deficit in hippocampal ChAT activity induced by partial fimbrial transections, this does not appear to translate into enhanced functional capacity of the cholinergic terminals. This is clearly in contrast to NGF, which enhances not only hippocampal ChAT activity, but also other parameters indicative of increased function in the cholinergic terminals.  相似文献   

6.
神经生长因子是神经营养因子家族成员之一,对不同时期神经元的存活、分化、生长及损伤后的修复和再生都有着十分重要的作用。不仅在神经系统中,随着人类的其他正常和肿瘤组织中同样也检测得到了NGF,神经生长因子在各方面的应用也得到了重视并均已得到了证实。NGF功能的发挥离不开与其受体的结合,根据NGF表面糖蛋白与凝集素结合能力的不同,其受体可被分为高亲和力受体酪氨酸激酶A和低亲和力受体p75。Trk A与NGF结合后所介导的信号通路主要有:1MAPK通路;2PLC-γ通路;3PI3K/PKB通路。而p75与NGF结合介导的信号传导通路主要包括:1NF-κB通路;2JNK-p53-Bax凋亡通路;3神经酰胺通路。Trk A一般介导的是正性信号,如促进神经细胞生长、维持神经细胞的存活等;而p75既可促进神经细胞存活,也可诱导神经细胞凋亡,但以后者为主。当Trk A与p75同时表达时,Trk A可抑制p75诱导细胞凋亡,使受损神经细胞大量增殖,所以其生物学总效应是促进神经细胞的生长和存活。  相似文献   

7.

Background

Sciatic nerve injuries often cause partial or total loss of motor, sensory and autonomic functions due to the axon discontinuity, degeneration, and eventual death which finally result in substantial functional loss and decreased quality of life. Nerve growth factor (NGF) plays a critical role in peripheral nerve regeneration. However, the lack of efficient NGF delivery approach limits its clinical applications. We reported here by fusing with the N-terminal domain of agrin (NtA), NGF-β could target to nerve cells and improve nerve regeneration.

Methods

Laminin-binding assay and sustained release assay of NGF-β fused with NtA (LBD-NGF) from laminin in vitro were carried out. The bioactivity of LBD-NGF on laminin in vitro was also measured. Using the rat sciatic nerve crush injury model, the nerve repair and functional restoration by utilizing LBD-NGF were tested.

Findings

LBD-NGF could specifically bind to laminin and maintain NGF activity both in vitro and in vivo. In the rat sciatic nerve crush injury model, we found that LBD-NGF could be retained and concentrated at the nerve injury sites to promote nerve repair and enhance functional restoration following nerve damages.

Conclusion

Fused with NtA, NGF-β could bind to laminin specifically. Since laminin is the major component of nerve extracellular matrix, laminin binding NGF could target to nerve cells and improve the repair of peripheral nerve injuries.  相似文献   

8.
Treatment for peripheral nerve injuries includes the use of autografts and nerve guide conduits (NGCs). However, outcomes are limited, and full recovery is rarely achieved. The use of nerve scaffolds as a platform to surface immobilize neurotrophic factors and deliver locally is a promising approach to support neurite and nerve outgrowth after injury. We report on a bioactive surface using functional amine groups, to which heparin binds electrostatically. X-ray photoelectron spectroscopy analysis was used to characterize the presence of nitrogen and sulfur. Nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) were bound by electrostatic interaction to heparin, and the release profile evaluated by enzyme-linked immunosorbent assay, which showed that ca. 1% of NGF was released from each of the bioactive surface within 7 days. Furthermore, each surface showed a maximum release of 97% of BDNF. Neurotrophin release on neurite outgrowth was evaluated by primary dorsal root ganglion with a maximum neurite growth response in vitro of 1,075 µm detected for surfaces immobilized with NGF at 1 ng/ml. In summary, the study reports on the design and construction of a biomimetic platform to deliver NGF and BDNF using physiologically low concentrations of neurotrophin. The platform is directly applicable and scalable for improving the regenerative ability of existing NGCs and scaffolds.  相似文献   

9.
Up-regulation of neurotrophin synthesis is an important mechanism of peripheral nerve regeneration after injury. Neurotrophin expression is regulated by a complex series of events including cell interactions and multiple molecular stimuli. We have studied neurotrophin synthesis at 2?weeks time-point in a transvertebral model of unilateral or bilateral transection of sciatic nerve in rats. We have found that unilateral sciatic nerve transection results in the elevation of nerve growth factor (NGF) and NT-3, but not glial cell-line derived neurotrophic factor or brain-derived neural factor, in the uninjured nerve on the contralateral side, commonly considered as a control. Bilateral transection further increased NGF but not other neurotrophins in the nerve segment distal to the transection site, as compared to the unilateral injury. To further investigate the distinct role of NGF in regeneration and its potential for peripheral nerve repair, we transduced isogeneic Schwann cells with NGF-encoding lentivirus and transplanted the over-expressing cells into the distal segment of a transected nerve. Axonal regeneration was studied at 2?weeks time-point using pan-neuronal marker NF-200 and found to directly correlate with NGF levels in the regenerating nerve.  相似文献   

10.
NSE 和NGF 在颅脑损伤后血清中含量变化及临床意义   总被引:1,自引:0,他引:1       下载免费PDF全文
创伤性颅脑损伤后外周血清中神经元特异性烯醇化酶(NSE)和神经生长因子(NGF)含量呈动态变化,在颅脑损伤(尤其是重型颅脑损伤)早期即可出现表达增加,其中NSE含量与颅脑损伤程度呈正相关,而NGF在颅脑损伤后的神经修复、再生和神经元保护等机制中起重要作用,其在血清中含量变化的临床意义明显不同。两者在血清中含量变化对于颅脑损伤后病情、治疗及预后评估有重要的作用,是颅脑损伤后评估病情、进行治疗的重要指标,因此监测血清中NSE及NGF的变化,可以为更准确判断病情、评估预后,并为临床治疗提供依据。本文就其在颅脑损伤患者血清中的含量变化及临床意义作以简要综述。  相似文献   

11.
The successful removal of damaged myelin sheaths during Wallerian degeneration (WD) is essential for ensuring structural remodelling and functional recovery following traumatic peripheral nerve injury (PNI). Recent studies have established that autophagy involves myelin phagocytosis and cellular homoeostasis, and its disorder impairs myelin clearance. Based on the role of basic fibroblast growth factor (bFGF) on exerting neuroprotection and angiogenesis during nerve tissue regeneration, we now explicitly focus on the issue about whether the therapeutic effect of bFGF on supporting nerve regeneration is closely related to accelerate the autophagic clearance of myelin debris during WD. Using sciatic nerve crushed model, we found that bFGF remarkedly improved axonal outgrowth and nerve reconstruction at the early phase of PNI (14 days after PNI). More importantly, we further observed that bFGF could enhance phagocytic capacity of Schwann cells (SCs) to engulf myelin debris. Additionally, this enhancing effect is accomplished by autophagy activation and the increase of autophagy flux by immunoblotting and immune-histochemical analyses. Taken together, our data suggest that the action of bFGF on modulating early peripheral nerve regeneration is closely associated with myelin debris removal by SCs, which might result in SC-mediated autophagy activation, highlighting its insight molecular mechanism as a neuroprotective agent for repairing PNI.  相似文献   

12.
Triptolide (T10), an extract from the traditional Chinese herb, Tripterygium wilfordii Hook F (TWHF), has been shown to attenuate the rotational behavior induced by d-amphetamine and prevent the loss of dopaminergic neurons in the substantia nigra in rat models of Parkinson’s disease. To examine if the neuroprotective effect is mediated by its stimulation of production of neurotrophic factors from astrocytes, we investigated the effect of T10 on synthesis and release of nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and glial cell line-derived neurotrophic factor (GDNF) in rat astrocyte cultures. T10 did not affect the synthesis and release of either BDNF or GDNF. However, it significantly increased NGF mRNA expression. It also increased both intracellular NGF and NGF level in culture medium. These results indicate that the neuroprotective effect of T10 might be mediated, at least in part, via a stimulation of the production and release of NGF in astrocytes. Authors Bing Xue and Jian Jiao contributed equally to this work.  相似文献   

13.
Intervertebral disc degeneration (IVD) can result in chronic low back pain, a common cause of morbidity and disability. Inflammation has been associated with IVD degeneration, however the relationship between inflammatory factors and chronic low back pain remains unclear. Furthermore, increased levels of nerve growth factor (NGF) and brain derived neurotrophic factor (BDNF) are both associated with inflammation and chronic low back pain, but whether degenerating discs release sufficient concentrations of factors that induce nociceptor plasticity remains unclear. Degenerating IVDs from low back pain patients and healthy, painless IVDs from human organ donors were cultured ex vivo. Inflammatory and nociceptive factors released by IVDs into culture media were quantified by enzyme‐linked immunosorbent assays and protein arrays. The ability of factors released to induce neurite growth and nociceptive neuropeptide production was investigated. Degenerating discs release increased levels of tumour necrosis factor‐α, interleukin‐1β, NGF and BDNF. Factors released by degenerating IVDs increased neurite growth and calcitonin gene‐related peptide expression, both of which were blocked by anti‐NGF treatment. Furthermore, protein arrays found increased levels of 20 inflammatory factors, many of which have nociceptive effects. Our results demonstrate that degenerating and painful human IVDs release increased levels of NGF, inflammatory and nociceptive factors ex vivo that induce neuronal plasticity and may actively diffuse to induce neo‐innervation and pain in vivo.  相似文献   

14.
目的:探讨新型材料poly(ethylene argininylaspartate diglyceride)(PEAD)结合肝素包裹神经生长因子组成的三元复合体比单纯运用NGF治疗大鼠坐骨神经损伤效果明显,为临床治疗外周神经损伤提供实验依据。方法:24只200g左右Wistar大鼠,分成生理盐水组,NGF组,NGF凝聚体三组,每组各8只,距梨状肌下缘远侧约1.5cm处运用静脉夹夹紧坐骨神经2min,采用无创细线(5/0)缝合肌肉和皮肤,并用碘伏进行消毒,NGF组每天沿坐骨切迹肌注80ngNGF,持续30天;NGF凝聚体组仅在造模时肌注复合体(内含2.4μg的NGF);生理盐水组给予等体积的生理盐水。术后每周运用脚步印迹法评价动物的行为学,并于30天后灌流、收集各组损伤侧坐骨神经,运用HE染色及投射电镜观察坐骨神经结构恢复情况,免疫荧光标记MBP,观察其蛋白的表达。结果:NGF组,NGF凝聚体组在行为学、病理结构及蛋白的表达远高于生理盐水组,并且NGF凝聚组的治疗效果优于NGF组。结论:新型凝聚体包载NGF具有明显的促进周围神经损伤后的修复与再生作用,能够在一定程度上提高单纯运用NGF治疗大鼠坐骨神经损伤的不足,达到更加理想和显著的促恢复效果。  相似文献   

15.
神经生长因子促进坐骨神经再生修复的酶组织化学研究   总被引:6,自引:0,他引:6  
目的研究对兔右坐骨神经损伤后局部给予蛇毒神经生长因子(NGF),观察坐骨神经酶活性变化和超微结构的恢复情况,探讨NGF对神经再生的影响.方法乙酰胆碱酯酶(AChE)、酸性磷酸酶(ACPase)的酶组织化学技术和电镜技术.结果神经损伤后:AChE活性明显下降,NGF组的AChE活性恢复快于盐水对照组;ACPase活性逐渐增高,NGF组的ACPase活性恢复时间短于盐水对照组.坐骨神经的超微结构在神经损伤后也发生变化,NGF组的变化程度小于盐水对照组,恢复时间短于对照组.结论NGF可通过影响酶物质的代谢而起到加快受损神经恢复的作用.为临床上应用蛇毒NGF治疗周围神经损伤提供形态学依据.  相似文献   

16.
樊新建  雷鹏 《生物磁学》2011,(6):1191-1193
创伤性颅脑损伤后外周血清中神经元特异性烯醇化酶(NSE)和神经生长因子(NGF)含量呈动态变化,在颅脑损伤(尤其是重型颅脑损伤)早期即可出现表达增加,其中NSE含量与颅脑损伤程度呈正相关,而NGF在颅脑损伤后的神经修复、再生和神经元保护等机制中起重要作用,其在血清中含量变化的临床意义明显不同。两者在血清中含量变化对于颅脑损伤后病情、治疗及预后评估有重要的作用,是颅脑损伤后评估病情、进行治疗的重要指标,因此监测血清中NSE及NGF的变化,可以为更准确判断病情、评估预后,并为临床治疗提供依据。本文就其在颅脑损伤患者血清中的含量变化及临床意义作以简要综述。  相似文献   

17.
Abstract: Exposure of cultured rat hippocampal neurons to glutamate resulted in accumulation of cellular peroxides (measured using the dye 2,7-dichlorofluorescein). Peroxide accumulation was prevented by an N -methyl- d -aspartate (NMDA) receptor antagonist and by removal of extracellular Ca2+, indicating the involvement of NMDA receptor-induced Ca2+ influx in peroxide accumulation. Glutamate-induced reactive oxygen species contributed to loss of Ca2+ homeostasis and excitotoxic injury because antioxidants (vitamin E, propyl gallate, and N-tert -butyl-α-phenylnitrone) suppressed glutamate-induced elevation of intracellular Ca2+ concentration ([Ca2+]i) and cell death. Basic fibroblast growth factor (bFGF), nerve growth factor (NGF), and brain-derived neurotrophic factor (BDNF), but not ciliary neurotrophic factor, each suppressed accumulation of peroxides induced by glutamate and protected neurons against excitotoxicity. bFGF, NGF, and BDNF each increased (to varying degrees) activity levels of superoxide dismutases and glutathione reductase. NGF increased catalase activity, and BDNF increased glutathione peroxidase activity. The ability of the neurotrophic factors to suppress glutamate toxicity and glutamate-induced peroxide accumulation was attenuated by the tyrosine kinase inhibitor genistein, indicating the requirement for tyrosine phosphorylation in the neuroprotective signal transduction mechanism. The data suggest that glutamate toxicity involves peroxide production, which contributes to loss of Ca2+ homeostasis, and that induction of antioxidant defense systems is a mechanism underlying the [Ca2+]i-stabilizing and excitoprotective actions of neurotrophic factors.  相似文献   

18.
Adipose-derived stem cells (ADSCs) and bone marrow stem cells (BMSCs) can be equally proper in the treatment of neurodegenerative diseases. However, ADSCs have practical benefits. In this study, we attempted to induce the secretion of neurotrophic factors (NTF) in human ADSCs. We then evaluated the effects of co-culture with NTF secreting cells in neural differentiation of human ADSCs. Isolated human ADSCs were induced to neurotrophic factors secreting cells. To evaluate the in vitro effects of NTF-secreting ADSCs on neurogenic differentiation of ADSCs, we used neurogenic induction medium (control group), the combination of neurogenic medium and conditioned medium, or co-cultured NTF-secreting ADSCs which were encapsulated in alginate beads (co-culture) for 7 days. ELISA showed increased (by about 5 times) release of brain-derived neurotrophic factor (BDNF) and nerve growth factor (NGF) in NTF-secreting ADSCs compared to human ADSCs. Real time RT-PCR analysis revealed that NTF-secreting ADSCs highly expressed NGF and BDNF. In addition, co-culture with NTF-secreting ADSCs could also promote neuronal differentiation relative to gliogenesis. Overall, NTF-secreting ADSCs secrete a range of growth factors whose levels in culture could promote neuronal differentiation and could support the survival and regeneration in a variety of neurodegenerative diseases.  相似文献   

19.
Summary A serum-free clonal density growth assay was developed for the quantification of the biological activity of human recombinant insulin-like growth factor I (IGF-I). The assay measures IGF-I stimulated growth of Balb/c 3T3 cells cultured over 4 d on poly-d-lysine-coated plastic surfaces in a serum-free medium formulation composed of a 1∶1 (vol/vol) mixture of Ham's F12 and Dulbecco's modified Eagle's media, supplemented with 3.0 ng/ml bovine basic fibroblast growth factor (bFGF), 10 μg/ml human transferrin, 100 μg/ml ovalbumin, and 1.0 μM dexamethanose. Low-temperature trypsinization of serum-supplemented stock cultures combined with the use of poly-d-lysine-coated plates made it unnecessary to use serum or fibronectin to promote cell attachment and survival. Serum-free growth conditions were optimized with respect to the concentrations of the supplements. Addition of IGF-I resulted in 3.5-fold more cells than control cultures without IGF-I after 4 d. Deletion of bFGF resulted in no IGF-I stimulation of growth. The concentrations of various preparations of IGF-I required to achieve one-half maximal stimulation of cell number (ED50), ranged between 1.25 and 4.7 ng/ml. In parallel assays, IGF-I was 6.6 times more potent than human recombinant insulin-like growth factor II and 32 times more potent than insulin. When cells were seeded into medium containing IGF-I, transferrin, ovalbumin, and dexamethasone but no bFGF, growth was minimal. Dose-response addition of bFGF showed an ED50, of 0.9 ng/ml. The methods reported are useful to monitor the biological potency of recombinant and natural-source growth factors as well as providing a new means of studying the multiple growth factor requirements of Balb/c 3T3 cells in cultures. This work was supported by a contract from IMCERA Bioproducts, Inc.  相似文献   

20.
The potential of cell therapy is promising in nerve regeneration, but is limited by ethical considerations about the proper and technically safe source of stem cells. We report the successful differentiation of human EnSCs (endometrial stem cells) as a rich source of renewable and safe progenitors into high-efficiency cholinergic neurons. The extracellular signals of NGF (nerve growth factor) and bFGF (basic fibroblast growth factor) could induce cholinergic neuron differentiation. ChAT (choline acetyltransferase), MAP2 (microtubule associated protein 2) and NF-l (neurofilament L) increased after administration of bFGF and NGF to the EnSC cultures. trkC and FGFR2 (fibroblast growth factor receptor 2), which belong to the NGF and bFGF receptors respectively, were determined in populations of EnSCs. NGF, bFGF and their combination differentially influenced human EnSCs high efficiency differentiation. By inducing cholinergic neurons from EnSCs in a chemically defined medium, we could produce human neural cells without resorting to primary culture of neurons. This in vitro method provides an unlimited source of human neural cells and facilitates clinical applications of EnSCs for neurological diseases.  相似文献   

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