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1.
Hepatocellular carcinoma (HCC) is one of the most common cancers worldwide. Basic fibroblast growth factor (bFGF), which is highly expressed in developing tissues and malignant cells, regulates cell growth, differentiation, and migration. Its expression is essential for the progression and metastasis of HCC. This study aims to investigate the effects of bFGF on the expression of angiogenin, another growth factor, which plays an important role in tumor angiogenesis, and on cell proliferation in H7402 human hepatoma cells. The bFGF sense cDNA or antisense cDNA was stably transfected into H7402 cells. Genomic DNA PCR analysis demonstrated that human bFGF sense cDNA or antisense cDNA was inserted into the genome. Furthermore, the expression of bFGF and angiogenin was examined by RT-PCR and Western blot assays. MTT and colony formation assays were employed to determine cell proliferation. Stable bFGF over-expressing and under-expressing transfectants were successfully established. Expression of angiogenin was decreased in the over-expressing bFGF cells (sense transfectants) and was increased in the under-expressing bFGF cells (antisense transfectants). Cell proliferation increased in the bFGF sense transfectants and decreased in the bFGF antisense transfectants. These results demonstrated that the endogenous bFGF may not only negatively regulate the angiogenin expression but also contribute to the overall cell proliferation in H7402 human hepatoma cells. This study may be helpful in finding a potential therapeutic approach to HCC.  相似文献   

2.
Neural stem cells (NSCs) constitute the cellular basis for embryonic brain development and neurogenesis.The processis regulated by NSC niche including neighbor cells such as vascular and glial cells.Since both vascular and glial cellssecrete vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF),we assessed the effect ofVEGF and bFGF on NSC proliferation using nearly homogeneous NSCs that were differentiated from mouse embryonicstem cells.VEGF alone did not have any significant effect.When bFGF was added,however,VEGF stimulated NSCproliferation in a dose-dependent manner,and this stimulation was inhibited by ZM323881,a VEGF receptor (Flk-1)-specific inhibitor.Interestingly,ZM323881 also inhibited cell proliferation in the absence of exogenous VEGF,suggestingthat VEGF autocrine plays a role in the proliferation of NSCs.The stimulatory effect of VEGF on NSC proliferationdepends on bFGF,which is likely due to the fact that expression of Flk-1 was upregulated by bFGF via phosphoryla-tion of ERK1/2.Collectively,this study may provide insight into the mechanisms by which mieroenvironmental nichesignals regulate NSCs.  相似文献   

3.
鸡胚胎干细胞的分离、培养和鉴定   总被引:14,自引:0,他引:14  
安静  杜立新 《动物学报》2003,49(5):698-703
SNL cells (permanent line of irradiated mouse fibroblast cells), primary mice embryonic fibroblasts (PMEF) cells and primary chicken embryonic fibroblasts (PCEF) cells were respectively used as the feeder cells for chicken embryonic stem cell culture. The isolated blastoderm cells front the stage X embryos of chicken were cultured in Dulercco‘‘ s Modified Eagle Medium (DMEM) supplemented with leukemia inhibitory factor (LIF, 1 000 IU/ml), basic fibroblast growth factor (bFGF 10 ng/ml) and stem cell factor (SCF, 5 ng/ml). The alkaline phosphatase (AKP) test, differentiation experiment in vitro and chimeric chicken production were carried out. The resuts showed that culture on feeder layer of PMEF yielded high quality CES cell colonies. The shape of typical CES clone showed as follows: nested aggregation (clone) with clear edge and round surface as well as close arrangement within the clone. Strong positive AKP reactive cellswere observed. On the other hand, the fourth passage CES cells could differentiate into various cells in the absence of feeder layer cells and LIF in vitro. The third and fourth passage cells were injected into the subgerminal cavity of recipient embryos at stage X. The manipulated embryos were incubated until hatching. Of 269 Hailan embryos injected with CES cells of Shouguang Chickens, 8.2 % (22/269) survived to hatching, 3 feather chimeras had been produced, which suggests that an effective culture systems were established and it could promote the growth of CES cells and maintain them in an undifferentiated state .  相似文献   

4.
5.
为探索猕猴神经干细胞分化及特性维持,推进神经干细胞临床应用研究,该实验以绿色荧光蛋白(green fluorescence protein,GFP)为标记探讨猕猴胚胎干细胞向玫瑰花环(rosettes)结构神经干细胞的分化及其碱性成纤维细胞生长因子(basic fibroblast growth factor,bFGF)和表皮生长因子(epidermal growth factor,EGF)的扩增培养。结果表明:1)建立了稳定高效的猕猴神经干细胞分化体系,在该分化体系下,GFP标记猕猴胚胎干细胞在分化的第12天时,95%以上的细胞分化为神经干细胞;2)分化得到的Rosettes结构神经干细胞经bFGF/EGF扩增后,能够较好地维持其Rosettes结构;3)经bFGF/EGF扩增后的rosettes结构神经干细胞移植到猕猴脑内后能够较好的存活并向神经元分化,即bFGF/EGF扩增培养能较好地维持Rosettes结构的神经干细胞,且移植到猕猴脑内的该细胞亦能够较好地存活并向神经元分化,该结果为神经干细胞应用于临床提供了基础理论依据。  相似文献   

6.
Scientific evidence suggests that stem cells possess the anti-aging ability to self-renew and maintain differentiation potentials, and quiescent state. The objective of this review is to discuss the microenvironment where stem cells reside in vivo, the secreted factors to which stem cells are exposed, thehypoxic environment, and intracellular factors including genome stability, mitochondria integrity, epigenetic regulators, calorie restrictions, nutrients, and vitamin D. Secreted tumor growth factor-β and fibroblast growth factor-2 are reported to play a role in stem cell quiescence. Extracellular matrices may interact with caveolin-1, the lipid raft on cell membrane to regulate quiescence. N-cadherin, the adhesive protein on niche cells provides support for stem cells. The hypoxic micro-environment turns on hypoxia-inducible factor-1 to prevent mesenchymal stem cells aging through p16 and p21 down-regulation. Mitochondria express glucosephosphate isomerase to undergo glycolysis and prevent cellular aging. Epigenetic regulators such as p300, protein inhibitors of activated Stats and H19 help maintain stem cell quiescence. In addition, calorie restriction may lead to secretion of paracrines cyclic ADP-ribose by intestinal niche cells, which help maintain intestinal stem cells. In conclusion, it is crucial to understand the anti-aging phenomena of stem cells at the molecular level so that the key to solving the aging mystery may be unlocked.  相似文献   

7.
《生物磁学》2013,(10):I0002-I0002
发表于2013年2月第6期《中国神经再生研究(英文版)》(Neural Regeneration Research)杂志的一项研究“Effects of resveratrol on hydrogen peroxide-induced oxidative stress in embryonic neural stem cells”表明,白藜芦醇提高抗氧化酶活性的作用可减轻胚胎神经干细胞受到的氧化应激性损害。  相似文献   

8.
先前的研究已经证实,阿魏酸钠诱导分化的PC12细胞裂解液的无细胞滤液具有改善抑郁症样模型大鼠的行为学障碍、上调其海马和大脑皮质神经生长因子(nerve growth factor,NGF)和脑源性神经营养因子(brain-derived neurotrophic factor,BDNF)的表达、增加海马神经干细胞(neural stem cells,NSCs)/神经前体细胞(neural progenitor cells)增殖的效果。该研究的目的在于探讨神经干细胞裂解液的无细胞滤液(cell-free filtrate ofneural stem cell lysates,FNSCL)脑室内注射促进谷氨酸盐诱导的成年小鼠兴奋性神经元损伤修复的可能性。成年小鼠谷氨酸单钠(monosodiumglutamate,MSG,2.0g/(kg·d))灌胃,连续10日,造成兴奋性神经元损伤模型。自孕15 d的昆明种小鼠取胎脑,分离、培养神经干细胞,免疫细胞化学法检测巢蛋白(nestin)抗原,制备神经干细胞裂解液的无细胞滤液。MSG+NSCs组动物在MSG灌胃后接收脑室内NSCs移植,MSG+FNSCL组动物在MSG灌胃...  相似文献   

9.
During the development and regeneration of skeletal muscle,many growth factors,such asbasic fibroblast growth factor (bFGF,FGF-2) and myostatin,have been shown to play regulating roles.bFGF contributes to promote proliferation and to inhibit differentiation of skeletal muscle,whereas myostatinplays a series of contrasting roles.In order to elucidate whether the expression of bFGF has any relationshipwith the expression of myostatin in skeletal muscle cells,we constructed a eukaryotic expression vector forthe expression of exogenous bFGF in murine C2C12 myoblasts.Quantitative RT-PCR assays indicated thatwith the increase of the expression of exogenous bFGF gene,the expression of endogenous myostatin genewas suppressed at mRNA level and protein level.  相似文献   

10.
Xiao Z  Kong Y  Yang S  Li M  Wen J  Li L 《Cell research》2007,17(1):73-79
Neural stem cells (NSCs) constitute the cellular basis for embryonic brain development and neurogenesis. The process is regulated by NSC niche including neighbor cells such as vascular and glial cells. Since both vascular and glial cells secrete vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF), we assessed the effect of VEGF and bFGF on NSC proliferation using nearly homogeneous NSCs that were differentiated from mouse embryonic stem cells. VEGF alone did not have any significant effect. When bFGF was added, however, VEGF stimulated NSC proliferation in a dose-dependent manner, and this stimulation was inhibited by ZM323881, a VEGF receptor (Flk-1)- specific inhibitor. Interestingly, ZM323881 also inhibited cell proliferation in the absence of exogenous VEGF, suggesting that VEGF autocrine plays a role in the proliferation of NSCs. The stimulatory effect of VEGF on NSC proliferation depends on bFGF, which is likely due to the fact that expression of Flk-1 was upregulated by bFGF via phosphorylation of ERK1/2. Collectively, this study may provide insight into the mechanisms by which microenvironmental niche signals regulate NSCs.  相似文献   

11.
Neural stem cells are capable of differentiating into three major neural cell types, but the underlying molecular mechanisms remain unclear. Here, we investigated the mechanism by which integrin beta4 modulates mouse neural stem cell differentiation in vitro. Inhibition of endogenous integrin beta4 by RNA interference inhibited the cell differentiation and the expression of fibroblast growth factor receptor 2 but not fibroblast growth factor receptor 1 or fibroblast growth factor receptor 3. Overexpression of integrin beta4 in neural stem cells promoted neural stem cell differentiation. Furthermore, integrin beta4-induced differentiation of neural stem cells was attenuated by SU5402, the inhibitor of fibroblast growth factor receptors. Finally, we investigated the role of integrin beta4 in neural stem cell survival: knockdown of integrin beta4 did not affect survival or apoptosis of neural stem cells. These data provide evidence that integrin beta4 promotes differentiation of mouse neural stem cells in vitro possibly through fibroblast growth factor receptor 2.  相似文献   

12.
兔胚胎神经干细胞的分离、培养和鉴别   总被引:2,自引:0,他引:2  
王黎明  巩晓明  胡火珍 《四川动物》2007,26(1):18-21,F0002
目的:研究兔胎脑神经干细胞体外生长特性,为探讨神经干细胞的临床应用及神经系统的发育奠定基础。方法:采用含碱性成纤维细胞生长因子(bFGF)和表皮细胞生长因子(EGF)的N2无血清培养技术,取18天龄兔胚胎脑组织,分离神经干细胞,并观察分离的细胞体外培养、增殖、分化潜能,免疫组化鉴定。结果:从18天龄兔胎脑皮质和纹状体中成功分离出具有自我更新和多分化潜能的神经干细胞,在无血清培养时细胞呈半贴壁状态生长,形成神经球,可传代。细胞呈Nestin免疫反应阳性;在含血清培养基中培养时则分化,分化后的细胞表达神经元细胞、星形胶质细胞和少突胶质细胞的特异性抗原。结论:来自兔胎脑神经干细胞能在体外培养、增殖并保持传代能力。无血清N2EGF、bFGF培养基有利于兔胎脑神经干细胞的存活和增殖,含血清培养基能诱导兔胎脑神经干细胞分化。  相似文献   

13.
人胚与鼠胚神经干细胞体外培养的差异   总被引:2,自引:0,他引:2  
为比较人胚与鼠胚神经干细胞体外培养的差异。实验采用具有丝裂原作用的细胞生长因子。结合无血清细胞培养技术从人胚和鼠胚皮层分离神经干细胞。在连续传代过程中观察其体外培养特性,免疫荧光染色检测Nestin抗原和分化后特异性成熟神经细胞抗原的表达,并用流式细胞仪检测神经干细胞分化情况。结果表明:(1)使用单一生长因子即可从鼠胚皮层分离神经干细胞,但在人胚却需同时使用多种生长因子,协同使用bFGF,EGF和LIF是人胚神经干细胞体外培养的较佳条件;(2)鼠胚皮层神经干细胞在连续传代过程中增殖速度快于人胚,其Nestin阳性率和BrdU标记的阳性率亦高于人胚,表明其增殖能力明显高于人胚,(3)人胚神经干细胞较鼠胚更易分化为神经元。  相似文献   

14.
Controlling the dynamics of growth factor signaling is a challenge in regenerative medicine for various tissues including the central nervous system. Here, we report on the development of the biomolecular system that facilitates sequential regulation of growth factor signals acting on neural stem/progenitor cells. Recombinant technology was employed to synthesize the multifunctional chimeric protein that contained multiple domains, including epidermal growth factor (EGF), ciliary neurotrophic factor (CNTF), globular capping domain, thrombin-cleavable sequence, and substrate-binding domain with affinity for Ni(II) ions. The chimeric protein is expected to expose CNTF upon elimination of the capping domain by digestion with endogenous thrombin in vivo. When the multifunctional chimeric protein was immobilized onto a substrate through the coordination of the substrate-binding domain with surface-immobilized Ni(II) ions, the substrate served to proliferate neural stem cells, maintaining the population of undifferentiated cells at 85%. This effect is primarily due to the activity of EGF, while CNTF activity is temporally veiled with the capping domain. Upon digesting the thrombin-cleavable sequence to remove the capping domain, the activity of CNTF emerged to induce differentiation of astrocytes in situ from the proliferated neural stem cells. The fraction of differentiated astrocytes reached 68% of total cells. These results demonstrate the feasibility of the system for controlling the dynamics of growth factor signals.  相似文献   

15.
In the postgenomic era the elucidation of the physiological function of genes has become the rate-limiting step in the quest to understand the development and function of living organisms. Double-stranded RNA (dsRNA) interferes with gene expression in various species, a phenomenon known as RNA interference (RNAi). We show here that RNAi is also effective in modifying gene expression in neural stem cell differentiation. The progenitor cells were obtained from E14 mouse embryonic forebrain and maintained using N-2 medium containing basic fibroblast growth factor (bFGF), epidermal growth factor (EGF) and B27.A gene (NM017084.1) was previously discovered and validated to express obviously differently between differentiated and undifferentiated neural stem cells in our laboratory. Here we report a long double-stranded RNA to knock out or knock down this gene. The results demonstrated that following RNAi inhibition of expression of the NM017084.1 gene, the differentiation of neural stem cells is accelerated. Thus the NM017084.1 gene may play a pivotal role in the process of differentiation of neural stem cells.  相似文献   

16.
Nerve fiber innervation of the scar following myocardial damage may have occurred either via the growth of pre-existing fibers and/or the mobilization of neural stem cells. The present study examined whether neural stem cells were recruited to the infarct region of the rat heart following coronary artery ligation. The neural stem cell marker nestin was detected in the infarct region of 1-week post-myocardial infarct (MI) male rats and cultured scar-derived neural-like cells. By contrast, nestin staining was undetected in either scar myofibroblasts or cardiac myocytes residing in the non-infarcted left ventricle. Reactive astrocytes were isolated from the infarct region and characterized by the co-expression of nestin, glial fibrillary acidic protein, and vimentin. Specific staining of oligodendrocytes and neurons was also detected in the infarct region and cultured scar-derived neural-like cells. Furthermore, neurofilament-M positive fibers were identified in the scar and tyrosine hydroxylase immunoreactivity was observed in peripherin-positive neurons. Neurite formation was induced in PC12 cells treated with the conditioned-media of primary passage scar-derived cells, highlighting the synthesis and secretion of neurotrophic factors. Nerve growth factor (NGF) and brain-derived neurotrophic factor were detected in myofibroblasts and neural cells, and both cell types expressed the NGF receptors trkA and p75. These data highlight the novel observation that neural stem cells were recruited to the infarct region of the damaged rat heart and may contribute in part to nerve fiber growth and subsequent innervation of the scar.  相似文献   

17.
Little is known about how neural stem cells are formed initially during development. We investigated whether a default mechanism of neural specification could regulate acquisition of neural stem cell identity directly from embryonic stem (ES) cells. ES cells cultured in defined, low-density conditions readily acquire a neural identity. We characterize a novel primitive neural stem cell as a component of neural lineage specification that is negatively regulated by TGFbeta-related signaling. Primitive neural stem cells have distinct growth factor requirements, express neural precursor markers, generate neurons and glia in vitro, and have neural and non-neural lineage potential in vivo. These results are consistent with a default mechanism for neural fate specification and support a model whereby definitive neural stem cell formation is preceded by a primitive neural stem cell stage during neural lineage commitment.  相似文献   

18.
Chondroitin/dermatan sulfate in the central nervous system   总被引:1,自引:0,他引:1  
In the central nervous system (CNS) chondroitin sulfate proteoglycans, as one of the major barrier-forming molecules, influence cell migration patterns and axon pathfinding. By contrast, chondroitin sulfate side chains often form hybrid chains with dermatan sulfate and serve as a neural stem cell marker and neurogenic/neuritogenic molecules involved in neural stem cell proliferation. Hybrid chondroitin/dermatan sulfate chains are also involved in formation of the neural network by capturing and presenting heparin-binding growth factors like basic fibroblast growth factor, pleiotrophin, and hepatocyte growth factor to stem cells or neuronal cells. Research tools for structural glycobiology are emerging to perform a high-throughput screening of glycosaminoglycans for the binding to ligands, to decipher sulfation patterns of rare functional oligosaccharide sequences and to build structural models for the shape of such sulfated oligosaccharides.  相似文献   

19.
Recent evidence suggests that adult neural stem/progenitor cells (ANSCs) secrete autocrine/paracrine factors and that these intrinsic factors are involved in the maintenance of adult neurogenesis. We identified a novel secretory molecule, stem cell-derived neural stem/progenitor cell supporting factor (SDNSF), from adult hippocampal neural stem/progenitor cells by using the signal sequence trap method. The expression of SDNSF in adult central nervous system was localized to hippocampus including dentate gyrus, where the neurogenesis persists throughout life. In induced neurogenesis status seen in ischemically treated hippocampus, the expression of SDNSF was up-regulated. As functional aspects, SDNSF protein provided a dose-dependent survival effect for ANSC following basic fibroblast growth factor 2 (FGF-2) withdrawal. ANSCs treated by SDNSF also retain self-renewal potential and multipotency in the absence of FGF-2. However, SDNSF did not have mitogenic activity, nor was it a cofactor that promoted the mitogenic effects of FGF-2. These data suggested an important role of SDNSF as an autocrine/paracrine factor in maintaining stem cell potential and lifelong neurogenesis in adult central nervous system.  相似文献   

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