17 resultados para Stem cell factor


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Bone marrow-derived mesenchymal stem cells (MSCs) hold great promise for treating immune disorders because of their immunoregulatory capacity, but the mechanism remains controversial. As we show here, the mechanism of MSC-mediated immunosuppression varies

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In the present study, five homologous feeder cell lines were developed for the culture and maintenance of rhesus monkey embryonic stem cells (rESCs). Monkey ear skin fibroblasts (MESFs), monkey oviductal fibroblasts (MOFs), monkey follicular granulosa fibroblast-like (MFG) cells, monkey follicular granulosa epithelium-like (MFGE) cells, and clonally derived fibroblasts from MESF (CMESFs) were established and compared with the ability of mouse embryonic fibroblasts (MEFs) to support rESC growth. MESF, MOF, MFG, and CMESF cells, but not MFGE cells, were as good as or better than MEFs in supporting undifferentiated growth while maintaining the differentiation potential of the rESCs. In an effort to understand the unique properties of supportive feeder cells, expression levels for a number of candidate genes were examined. MOF, MESF, and MEF cells highly expressed leukemia inhibitory factor, ciliary neurotrophic factor, basic fibroblast growth factor, stem cell factor, transforming growth factor PI, bone morphogenetic protein 4, and WNT3A, whereas WNT2, WNT4, and WNT5A were downregulated, compared with MFGE cells. Additionally, all monkey feeder cell lines expressed Dkk1 and LRP6, antagonists of the WNT signaling pathway, but not WNT1, WNT8B, or Dkk2. rESCs grown on homologous feeders maintained normal karyotypes, displayed the characteristics of ESCs, including morphology, alkaline phosphatase, Oct4, the cell surface markers stage-specific embryonic antigen (SSEA)-3, SSEA-4, tumor-related antigen (TRA)-1-60, and TRA-1-81, and formed cystic embryoid bodies in vitro that included differentiated cells representing the three major germ layers. These results indicate that the four homologous feeder cell lines can be used to support the undifferentiated growth and maintenance of pluripotency in rESCs.

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Generation of homogeneous oligodendrocytes as donor cells is essential for human embryonic stem cell (hESC)-based cell therapy for demylinating diseases. Herein we present a novel method for efficiently obtaining mature oligodendrocytes from hESCs with high purity (79.7 +/- 6.9%), using hepatocyte growth factor (HGF) and G5 supplement(containing insulin, transferrin, selenite, biotin, hydrocortisone, basic fibroblast growth factor and epidermal growth factor) in a four-step method. We induced hESCs into neural progenitors (NP) with HGF (5 ng/ml) and G5 (1 x) supplemented medium in an adherent differentiation system. The purified NPs were amplified in suspension as neurospheres for 1 month, and terminal oligodendrocyte differentiation was then induced by G5 supplement withdrawal and HGF treatment (20 ng/ml). The cells generated displayed typical morphologies of mature oligodendrocytes and expressed oligodendrocyte markers O4 and myelin basic protein (MBP). Our result revealed that HGF significantly enhanced the proliferation of hESC-derived NPs and promoted the differentiation as well as the maturation of oligodendrocytes from NPs. Further studies suggest that HGF/c-Met signaling pathway might play an important role in oligodendrocyte differentiation in our system. Our studies provide a means for generating the clinically relevant cell type and a platform for deciphering the molecular mechanisms that control oligodendrocyte differentiation. (C) 2009 International Society of Differentiation. Published by Elsevier Ltd. All rights reserved.

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Spermatogonia are the male germ stem cells that continuously produce sperm for the next generation. Spermatogenesis is a complicated process that proceeds through mitotic phase of stem cell renewal and differentiation, meiotic phase, and postmeiotic phase of spermiogenesis. Full recapitulation of spermatogenesis in vitro has been impossible, as generation of normal spermatogonial stem cell lines without immortalization and production of motile sperm from these cells after long-term culture have not been achieved. Here we report the derivation of a normal spermatogonial cell line from a mature medakafish testis without immortalization. After 140 passages during 2 years of culture, this cell line retains stable but growth factor-dependent proliferation, a diploid karyotype, and the phenotype and gene expression pattern of spermatogonial stem cells. Furthermore, we show that this cell line can undergo meiosis and spermiogenesis to generate motile sperm. Therefore, the ability of continuous proliferation and sperm production in culture is an intrinsic property of medaka spermatogonial stem cells, and immortalization apparently is not necessary to derive male germ cell cultures. Our findings and cell line will offer a unique opportunity to study and recapitulate spermatogenesis in vitro and to develop approaches for germ-line transmission.

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We described the derivation of four stable pluripotent rabbit embryonic stem cell ( ESC) lines, one ( RF) from blastocysts fertilized in vivo and cultured in vitro and three ( RP01, RP02, and RP03) from parthenogenetic blastocysts. These ESC lines have be

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目的:探索以Lentivirus为载体,构建同时携带并表达多基因的基因工程人胚神经干细胞(hum an neu鄄ral stem cell,hNSC)的可行性,为脊髓损伤治疗的研究提供材料。方法:培养和鉴定hNSC;用携带绿色荧光蛋白(green fluorescence protein,GFP)和神经营养因子-3(neurotrophic factor-3,NT-3)的Lentivirus转染hNSC;用荧光显微镜观察、鼠胚背根神经结培养(dorsal root ganglion,DRG)和Slot blot等方法检测基因工程hNSC的多基因表达情况。结果:培养获得了大量的hNSC;荧光显微镜观察到几乎100%的hNSC表达GFP;基因工程hNSC的培养液能促使大鼠DRG旺盛生长;Slot blot检测到基因工程hNSC能高效分泌NT-3蛋白。结论:以Lentivirus为载体能构建同时携带并稳定表达多基因的基因工程hNSC,为脊髓损伤治疗的基础研究及进一步临床应用提供了有价值的细胞资源。

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The ovary of triploid shrimp Fenneropenaeus chinensis was apparently impaired compared to that of the diploid shrimp at the same age. Therefore triploid shrimp ovary is possible to be taken as a model to understand the mechanism of ovary development of shrimp compared to that of the ovary of diploid shrimp at the same age. In the present study, a suppression subtractive hybridization (SSH) technique was applied to identify differentially expressed genes in the ovary between diploid and triploid shrimp. For the forward library (RNA from the ovary of triploid shrimp as the tester), 54 genes were identified. For the reverse library (RNA from the ovary of diploid shrimp as the tester), 16 genes were identified. The identified genes encoded proteins with multiple functions, including extracellular matrix components, cytoskeleton, cell growth and death, metabolism, genetic information processing, signal transduction/transport or immunity related proteins. Eleven differentially expressed genes were selected to be confirmed in the ovaries of triploid and diploid shrimp by semi-quantitative RT-PCR. Genes encoding spermatogonial stem-cell renewal factor, cytochrome c oxidase subunits I and II, clottable protein, antimicrobial peptide and transposase showed up-regulated expressions in the ovary of triploid shrimp. Genes encoding tubulin, cellular apoptosis susceptibility protein, farnesoic acid O-methyltransferase, thrombospondin and heat shock protein 90 genes showed higher expressions in the ovary of diploid shrimp. The differential expressions of the above genes are suggested to be related to the ovary development of shrimp. It will provide a new clue to uncover the molecular mechanisms underlying the ovarian development in penaeid shrimp. (C) 2010 Elsevier Inc. All rights reserved.

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三倍体培育是水产动物遗传改良的重要途径之一,它在提高养殖产量、改良品质方面发挥着重要作用。对虾三倍体在性腺发育和性别比率方面与二倍体之间存在明显差异。本论文对三倍体性腺发育的分子机理进行了初步探讨,为阐明甲壳动物的性腺发育和性别控制机理提供重要依据。本论文取得的主要进展如下: 利用联会复合体的分析技术,比较分析了雄性二倍体和三倍体中精母细胞的减数分裂行为。二倍体对虾具有典型的真核生物联会复合体的形态,联会复合体在二价体联会处沿同源染色体长轴分布;未见明显的异型性别染色体;三倍体对虾精母细胞的联会行为复杂,可见二价体、单价体、非同源联会的三价体、同源转换和同源区完全配对的双联会复合体等不同形态;三倍体对虾在晚粗线期普遍表现为三价体同源区完全配对的双联会复合体形态,这种联会行为可能是导致其产生 3n 倍性精子的关键原因。 利用抑制性消减杂交技术,建立了对虾二倍体和三倍体卵巢间的2个消减文库;在正向消减文库(以三倍体卵巢作为实验组,二倍体卵巢作为驱动组)中,鉴定到54个基因;在反向消减文库(以二倍体卵巢为实验组,三倍体卵巢为驱动组)中,鉴定到16个基因;选取11个差异表达的基因,利用半定量RT-PCR的方法对其在二倍体和三倍体卵巢间的表达进行了检测,均能很好地与消减结果相吻合;这些差异基因编码多种功能的蛋白,分析表明染色体的三倍化使三倍体卵巢中的基因调控网络受到了影响;为深入揭示维持卵巢正常发育的关键分子调控事件奠定了基础。 为进一步分析特定基因对对虾性腺发育的调控机制,选取了在对虾三倍体和二倍体卵巢中差异表达显著的 3 个不同基因,PCNA (proliferating cell nuclear antigen)、CAS/CSE1 (cellular apoptosis susceptibility protein/chromosome segregation 1)和 SSRF (spermatogonial stem-cell renewal factor),进行了相关研究分析,为深入探讨特定基因对对虾性腺发育的调控机制以及三倍体中的基因表达调控机制奠定了基础; 中国明对虾PCNA基因在增殖旺盛的性腺组织及造血组织中表达量最高;在二倍体卵巢中的表达水平显著高于三倍体卵巢;在不同病原刺激下的造血组织中的表达模式不同,与对虾对抗不同病原刺激的免疫反应相关;PCNA在序列上的高度保守性,提示了其功能的保守性;利用PCNA基因可以指示细胞的增殖活性的特点,将辅助我们在对虾发育生物学和二倍体、三倍体对虾比较发育生物学的研究; 中国明对虾CAS/CSE1基因在二倍体卵巢中高表达;在卵母细胞中,其mRNA大量分布于细胞质及细胞核周围;是早期胚胎发育的母源性因子;在其氨基酸序列的N端具有importin-β 家族蛋白的保守结构,提示其可能通过参与核质运输在发育过程中发挥重要作用;利用原核表达系统成功地对其进行了体外重组表达,为进一步在蛋白水平上的功能研究提供了条件; 中国明对虾SSRF(暂时命名)基因在三倍体卵巢中高表达;在正常二倍体对虾的神经组织中表达量最高,提示该基因在神经发育中可能发挥重要作用;在氨基酸序列上与胸苷磷酸化酶(TP)具有最高的相似性;利用原核表达系统成功地对其进行了体外重组表达,为进一步在蛋白水平上的功能研究奠定了基础;对对虾SSRF活性蛋白的酶活及功能验证亟待进行。

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植物顶端分生组织中干细胞数量的维持对于侧生器官的发生至关重要。在干细胞的基因调控网络中WUSCHEL (WUS) 是一个关键成员,围绕该基因形成两个反馈调节环,控制分生组织中干细胞群的平衡。   论文分析了用激活标签法 (activation tagging) 获得的突变体sef (stem-ecotopic-flowers),其最大的表型特点是花序轴上产生异位花和幼苗下胚轴增长。本论文就此两个表型产生的机理进行了探索,以期了解WUS基因的新功能。   对sef的表型观察发现异位分生组织不仅在花序轴上出现,而且也出现在叶柄、叶片、托叶叶腋内、花梗、花梗腋内以及花器官上。组织切片结果表明花序轴上的异位分生组织起源于已经分化的皮层细胞。对突变体的分子鉴定证明T-DNA是以单拷贝插入到WUS起始密码子上游810 bp处。对插入位点上下游各10 kb的4个基因在花序轴中的表达水平进行了分析,结果表明只有WUS基因的表达量升高,说明增强子只对WUS基因发挥了激活作用,暗示了WUS基因过表达与异位花之间存在某种联系。转35S::WUS的拟南芥幼苗下胚轴与根部出现异位的生长点;WUS被诱导表达的突变体pga6-1花序轴上出现异位花芽,证实sef的表型是由WUS超表达所导致。利用组织原位杂交和RT-PCR分析了WUS、CLAVATA3 (CLV3)、LEAFY (LFY) 与AGAMOUS (AG) 在异位分生组织中的表达模式与表达水平,结果表明WUS、CLV3、LFY、AG在花序轴表皮以下皮层中异位表达。这些结果表明WUS能激活CLV3异位表达,从而在已经分化的皮层中重新产生具有分生组织特征的细胞,同时WUS异位激活AG的表达并使LFY也在这些异位的分生组织中表达,这些分生组织发育方向被LFY与AG所决定,最终发育为异位花器官。   sef突变体另外一个突出的表型是幼苗的下胚轴增长。对幼苗期下胚轴以及胚胎4个时期的胚干细胞数进行统计,结果表明下胚轴与胚干细胞数目都呈现出sef比野生型多而wus-1比野生型少的趋势,因此sef幼苗下胚轴增长是由于细胞数目改变引起的。进一步分析发现这种区别是由于胚胎早期(授粉后1~3天)胚干细胞分裂速率的差异所造成的。利用基因芯片杂交分析突变体的基因表达谱,结果发现许多与细胞分裂相关的基因在sef中表达水平升高。RT-PCR证实这些基因在胚胎时期的表达水平升高,说明胚胎早期胚干细胞分裂速率的不同导致了幼苗下胚轴的异常。   综上所述,我们的研究结果揭示了sef异常表型的产生的可能机制。在已经分化的皮层中激活标签介导的WUS超表达激活干细胞标志基因之一CLV3和花器官基因AG,并使LFY异位表达,重新产生具有分生组织特征的细胞,这些分生组织的发育方向被LFY和AG所决定,最终发育为异位花。在sef的早期胚胎中,WUS表达增强使细胞分裂相关基因表达水平升高、细胞分裂增快,说明WUS与细胞周期相关基因的调控存在某些联系。   本论文的创新之处在于首次提出WUS表达增强能在分化的组织中产生具有分生组织特征的细胞以及WUS调控细胞分裂的结论。   

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Kallikrein 8 (KLK8) is a serine protease functioning in the central nervous system, and essential in many aspects of neuronal activities. Sequence comparison and gene expression analysis among diverse primate species identified a human-specific splice for

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目的 从体外培养成熟囊胚中分离并鉴定猕猴胚胎干细胞(embryonic stem cell , ES cell) 。方法 猕猴卵母细 胞经体外成熟培养、体外受精和早期胚胎体外成熟培养后,获得猕猴囊胚。当囊胚由透明带自然孵出后,用细玻璃针剥离 囊胚中的内细胞团(inner cell mass , ICM) 并与饲养细胞进行共培养。由ICM分离,培养并鉴定胚胎干细胞集落。结果 由 4 只FSH 超排猕猴中共取得92 个处于GV 期的猕猴卵母细胞,选取其中的22 个用HECM210 培养基培养后,获得6 个高质 量的囊胚,由此6 个囊胚中分离得到3 个内细胞团,并由此最终获得1 株猕猴ES 细胞,即RS5 细胞。RS5 细胞具高比例核P 质比,核仁多,其细胞集落边缘平整,其内各单个细胞清晰。经约5 个月的连续传代后,仍保持了正常二倍体的核型,其染 色体数目为42 条。碱性磷酸酶细胞组织化学染色为阳性,说明RS5 细胞为未分化态的胚胎干细胞。经高密度和长时间 培养后,RS5 细胞可进一步分化为多种类型细胞。结论 RS5 细胞株具有自我更新能力和多分化潜能,属于胚胎干细胞。

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Histo-blood group antigens CD173 (H2) and CD174 (Lewis Y) are known to be developmentally regulated carbohydrate antigens which are expressed to a varying degree on many human carcinomas. We hypothesized that they might represent markers of cancer-initiating cells (or cancer stem cells, CSC). In order to test this hypothesis, we examined the co-expression of CD173 and CD174 with stem cell markers CD44 and CD133 by flow cytometry analysis, immunocytochemistry, and immunohistochemistry on cell lines and tissue sections from breast cancer. In three breast cancer cell lines, the percentage of CD173(+)/CD44(+) cells ranged from 17% to > 60% and of CD174(+)/CD44(+) from 21% to 57%. In breast cancer tissue sections from 15 patients, up to 50% of tumor cells simultaneously expressed CD173, CD174, and CD44 antigens. Co-expression of CD173 and CD174 with CD133 was also observed, but to a lesser percentage. Co-immunoprecipitation and sandwich ELISA experiments on breast cancer cell lines suggested that CD173 and CD174 are carried on the CD44 molecule. The results show that in these tissues CD173 (H2) and CD174 (LeY) are associated with CD44 expression, suggesting that these carbohydrate antigens are markers of cancer-initiating cells or of early progenitors of breast carcinomas.

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目的:研究人胚胎神经干细胞的培养条件及体外分化情况。方法:从12周龄人胚胎脑皮质分离细胞,采用无血清培养技术,协同应用碱性成纤维细胞生长因子(bFGF)、表皮生长因子(EGF)和重组人白血病抑制因子(rhLIF)进行培养;5-溴脱氧尿嘧啶核苷(BrdU)标记检测细胞的增殖能力,间接免疫荧光化学法检测细胞的分化情况。结果:培养得到的大量半悬浮生长的神经干细胞球能够传代培养;BrdU标记阳性,可诱导分化为神经元、星形胶质细胞和少突胶质细胞。结论:人胚胎脑皮质分离细胞培养得到的细胞群具有神经干细胞的基本特征,可进一步用于基础及临床研究。