胚胎干细胞诱导分化为雄性生殖细胞的研究进展

胚胎干细胞（embryonic stem cells,ES细胞）具有自我更新及无限分化潜能,理论上可以分化为生殖细胞。目前,在人及鼠中已有体外诱导ES细胞分化为成熟精子的报道。系统阐述影响ES细胞分化为雄性生殖细胞的内源性及外源性因素,并结合国内外最新研究进展总结其诱导分化方法,展望应用前景,期望为从事相关研究的学者提供参考。     

小鼠胚胎干细胞向生殖细胞分化的研究

小鼠胚胎干细胞(ESC)在体外可以分化为多种细胞类型,其中包括各阶段的生殖细胞,甚至精细胞和成熟卵母细胞。ESC向生殖细胞分化的效率受到包括生长因子、激素和体细胞等多种因素的影响,在体外形成的是雌性配子还是雄性配子与ESC是XX型还是XY型没有必然联系。简要综述了小鼠生殖细胞在体内外的分化发育、性别决定和增殖等,并总结和展望了ESC向生殖细胞分化研究面临的问题和应用前景。     

体外诱导鸡胚胎生殖细胞分化为神经干细胞

本研究探讨体外诱导鸡胚胎生殖细胞(EGCs)分化为神经干细胞(NSCs)的可能性.EGCs经类胚体(EB)阶段,以维生素A酸(RA)等进行诱导,在NSCs选择性培养基中筛培养扩增7 d,观察形态变化;采用RT-PCR法检测nestin基因表达及免疫细胞化学法检测nestin等NSCs特异性标志物,并对其扩增及分化能力进行观察.结果显示:EGCs经初级诱导,NSCs选择性培养基筛选培养7 d后,形成大量神经球样结构,可扩增传代;绝大部分神经球样结构呈nestin抗原阳性,表达nestin基因,且可分化为神经上皮样及少突胶质细胞.研究结果表明:RA等诱导的EGCs,经选择性培养基筛选培养可获得NSCs,有望为眼部神经变性疾病的治疗提供新的技术参考.     

干细胞体外定向分化为雌性生殖细胞的研究进展

如今女性卵子不足所致不孕的患者日渐增多,却尚无治愈的方法。干细胞作为高度未分化的细胞,其体外定向分化为雌性生殖细胞为治疗这类不孕患者提供了新途径。随着干细胞的研究不断发展,不同来源的干细胞诱导生成雌性生殖细胞的研究也越来越多,目前研究者们能够在体外条件下获得类卵母样细胞,不过其诱导的机制、生物学功能仍需进一步研究探讨。本文对不同来源的干细胞体外定向分化为雌性生殖细胞的研究进行综述,以期为从事该方面的研究者提供一定的借鉴帮助。     

人胚胎干细胞向滋养层分化的研究进展

哺乳动物胚胎发育产生的第一个细胞系的分离是内细胞团和滋养层的分离,不同哺乳动物之间胚胎干细胞向滋养层细胞分化不同,滋养层细胞对胚胎的植入、促进胚胎在子宫内的生存和生长至关重要.人胚胎干细胞为研究人类胚胎发育及向滋养层分化提供了一个独特的模型.人胚胎干细胞可以在实验室条件下保持无限期稳定的培养,用于最初胚胎和滋养外胚层发生的机制研究.目前人胚胎干细胞分化为滋养层细胞在体外可以通过自发分化、基因敲除、分离EB小体和BMP4诱导等几种途径实现.不同哺乳动物之间胚胎干细胞向滋养层分化机制,主要通过信号通路如BMP4,LIF等以及某些标志基因如OCT4,CDX2,Eomes等的变化调节.人胚胎干细胞向滋养层分化的研究为临床应用提供了一定的基础.     

胚胎干细胞向血液干细胞定向分化的研究进展

骨髓移植是目前治疗恶性白血病以及遗传性血液病最有效的方法之一。但是HLA相匹配的骨髓捐献者严重短缺,骨髓造血干细胞（hematopoietic stem cells,HSCs）体外培养困难,在体外修复患者骨髓造血干细胞技术不成熟,这些都大大限制了骨髓移植在临床上的应用。多能性胚胎干细胞（embryonic stem cells,ESCs）具有自我更新能力,在合适的培养条件下分化形成各种血系细胞,是造血干细胞的另一来源。在过去的二十多年里,血发生的研究是干细胞生物学中最为活跃的领域之一。小鼠及人的胚胎干细胞方面的研究最近取得了重大进展。这篇综述总结了近年来从胚胎干细胞获得造血干细胞的成就,以及在安全和技术上的障碍。胚胎干细胞诱导生成可移植性血干细胞的研究能够使我们更好地了解正常和异常造血发生的机制,同时也为造血干细胞的临床应用提供理论和实验依据。     

人胚胎干细胞向内皮祖细胞诱导分化及其应用研究进展

近年来,内皮细胞的应用价值不断提高,应用领域不断拓宽,但其来源有限,成为研究应用的主要障碍.胚胎干细胞在体外可分化为多种组织细胞系,有可能成为获取内皮细胞的另一来源.就人胚胎干细胞向内皮祖细胞分化、分离方法、相关分子机制及内皮祖细胞应用价值等进行阐述,以期能够引起更多的关注,推动其研究的进展.     

胚胎干细胞与胚胎生殖细胞

西北农林科技大学、陕西省干细胞工程技术研究中心的徐小明、杨炜峰、窦忠英等先生对胚胎干细胞(embrgonicstemcells,ES)与胚胎生殖细胞(embryonicgermCells,EG)分别从附置前早期胚胎内细胞团(innercellmass,ICM)和早期胎儿生殖嵴原始生殖细胞(primordialgtrmcells,PGCs)分离克隆出来的一种具有自我更新、无限增殖能力,能分化成代表3个胚层组织细胞能力的干细胞、可对其进行遗传操作、选择和冻存不失其多能性。ES/EG应用于移植医学,在特定条件下可诱导其分化为特定细胞,并可在体外构建特定组织器官,如诱导分化为心肌细胞来治疗心肌梗…     

人胚胎干细胞优化培养的进展

人胚胎干细胞(humanembryonicstemcell,hEScell)是来源于着床前人囊胚内细胞团(innercellmass,ICM)的、具有自我更新能力和分化全能性的细胞。由于hES细胞能在一定条件下分化成三个胚层来源的各种细胞,所以它具有重要的基础研究价值和巨大的临床应用前景,可应用于人早期胚胎发育过程的研究、药物毒物筛选、细胞移植治疗、基因治疗等领域。目前,世界上已经建立了多株hES细胞系,最早建立的hES细胞系是生长在小鼠胚胎成纤维(mouseembryonicfibroblast,MEF)细胞上的,培养体系中含血清等动物源性成分,这些成分可能引起动物源性病原体或支原体的污染,从而限制了hES细胞的临床应用。近年来,科学家们在优化hES细胞的体外培养体系方面做出了很大的努力并取得了长足进展,已经开始采用无血清、无饲养层细胞、无外源性蛋白、成分明确的培养体系进行hES细胞建系及培养,从而在一定程度上解决了上述问题。本文主要从饲养层细胞、无饲养层培养体系、培养基质、细胞因子等方面综述了hES细胞建系和维持其未分化状态的优化培养所取得的最新进展和存在的问题。     

Molecular cloning and functional analysis of ESGP, an embryonic stem cell and germ cell specific protein

Several putative Oct-4 downstream genes from mouse embryonic stem （ES） cells have been identified using the suppression-subtractive hybridization method. In this study, one of the novel genes encoding an ES cell and germ cell specific protein （ESGP） was cloned by rapid amplification of cDNA ends. ESGP contains 801 bp encoding an 84 amino acid small protein and has no significant homology to any known genes. There is a signal peptide at the N-terminal of ESGP protein as predicted by SeqWeb （GCG） （SeqWeb version 2 ttp：//gcg.biosino.org：8080/）. The result of immunofluorescence assay suggested that ESGP might encode a secretory protein. The expression pattern of ESGP is consistent with the expression of Oct-4 during embryonic development. ESGP protein was detected in fertilized oocyte, from 3.5 day postcoital （dpc） blastocyst to 17.5 dpc embryo, and was only detected in testis and ovary tissues in adult. In vitro, ESGP was only expressed in pluripotent cell lines, such as embryonic stem cells, embryonic carcinoma cells and embryonic germ cells, but not in their differentiated progenies. Despite its specific expression, forced expression of ESGP is not indispensable for the effect of Oct-4 on ES cell self-renewal, and does not affect the differentiation to three germ layers.     

Neural precursors derived from human embryonic stem cells

Human embryonic stem (hES) cells provide a promising supply of specific cell types for transplantation therapy. We presented here the method to induce differentiation of purified neural precursors from hES cells. hES cells (Line PKU-1 and Line PKU-2) were cultured in suspension in bacteriological Petri dishes, which differentiated into cystic embryoid bodies (EBs). The EBs were then cultured in N₂ medium containing bFGF in poly-L-lysine-coated tissue culture dishes for two weeks. The central, small cells with 2–3 short processes of the spreading outgrowth were isolated mechanically and replated. The resulting neurospheres were cultured in suspension for 10 days, then dissociated into single cell suspension with a Pasteur pipette and plated. Cells grew vigorously in an attached way and were passed every 4–5 days. Almost all the cells were proved nestin positive by immunostaining. Following withdrawal of bFGF, they differentiated into neurons expressing β-tubulin isotype_III, GABA, serotonin and synaptophysin. Through induction of PDGF-AA, they differentiated into astrocytes expressing GFAP and oligodendrocytes expressing O₄. The results showed that hES cells can differentiate into typical neural precursors expressing the specific marker nestin and capable of generating all three cell types of the central nervous system (CNS)in vitro.     

Neural precursors derived from human embryonic stem cells

Before the successful isolation of human embryonic stem (hES) cells, many investigations had shown that mouse embryonic stem (mES) cells can be induced to differentiate into neural precursors which could be purified and differentiated to mature dopamine, motor, serotonin, GABA neurons, and oligodendrocytes and astrocytes in vitro[1―3]. mES cell-derived dopamine neurons have been shown capable of integrating into host brains after transplanting to the rodents of Park-inson’s disease model …     

Generation of progeny from embryonic stem cells by microinsemination of male germ cells from chimeric mice

Mice chimeric for embryonic stem (ES) cells have not always successfully produced ES-derived offspring. Here we show that the male gametes from ES cells could be selected in male chimeric mice testes by labeling donor ES cells or host blastocytes with GFP. Male GFP-expressing ES-derived germ cells occurred as colonies in the chimeric testes, where the seminiferous tubules were separated into green and non-green regions. When mature spermatozoa from green tubules were used for microinsemination, GFP-expressing offspring were efficiently obtained. Using a reverse study, we also obtained ES-derived progeny from GFP-negative ES cells in GFP-labeled host chimeras. Furthermore, we showed this approach could be accelerated by using round spermatids from the testes of 20-day-old chimeric mice. Thus, this technique allowed us to generate the ES cell-derived progeny even from the low contributed chimeric mice, which cannot produce ES-origin offspring by natural mating.     

Expression of the 49 human ATP binding cassette (ABC) genes in pluripotent embryonic stem cells and in early- and late-stage multipotent mesenchymal stem cells

The 49-member human ATP binding cassette (ABC) gene family encodes 44 membrane transporters for lipids, ions, peptides or xenobiotics, four translation factors without transport activity, as they lack transmembrane domains, and one pseudogene. To understand the roles of ABC genes in pluripotency and multipotency, we performed a sensitive qRT-PCR analysis of their expression in embryonic stem cells (hESCs), bone marrow-derived mesenchymal stem cells (hMSCs) and hESC-derived hMSCs (hES-MSCs). We confirm that hES-MSCs represent an intermediate developmental stage between hESCs and hMSCs. We observed that 44 ABCs were significantly expressed in hESCs, 37 in hES-MSCs and 35 in hMSCs. These variations are mainly due to plasma membrane transporters with low but significant gene expression: 18 are expressed in hESCs compared with 16 in hES-MSCs and 8 in hMSCs, suggesting important roles in pluripotency. Several of these ABCs shared similar substrates but differ regarding gene regulation. ABCA13 and ABCB4, similarly to ABCB1, could be new markers to select primitive hMSCs with specific plasma membrane transporter^low phenotypes. ABC proteins performing basal intracellular functions, including translation factors and mitochondrial heme transporters, showed the highest constant gene expression among the three populations. Peptide transporters in the endoplasmic reticulum, Golgi and lysosome were well expressed in hESCs and slightly upregulated in hMSCs, which play important roles during the development of stem cell niches in bone marrow or meningeal tissue. These results will be useful to study specific cell cycle regulation of pluripotent stem cells or ABC dysregulation in complex pathologies, such as cancers or neurological disorders.     

Pluripotential stem cells derived from migrating primordial germ cells

Pluripotent stem cells termed embryonic germ cells (EGCs) have earlier been derived from pre- and post-migrating mouse primordial germ cells (PGCs). We have recently obtained four EGC lines from migrating PGCs of 9.5 days post coitum (dpc) embryos. All lines were male with normal karyotype and showed properties that are similar to previously established EGC lines, including colony morphology, expression of alkaline phosphatase (AP), and expression of SSEA-1 antigen. The developmental potency of two of these lines was tested in vivo. They contributed to a range of tissues in fetal chimeras including heart, lung, kidney, intestine, muscle, brain and skin. We also examined the methylation status of the imprinted genes: Igf2r, p57Kip2, Lit1, H19 and Igf2. Igf2r, p57Kip2 and Lit1 were unmethylated in all analysed EGC lines, whereas H19 and Igf2 showed significant hypo-methylation in the 9.5 dpc EGC-1 line when compared to previously derived 11.5 dpc male EGC lines. This suggests that imprint erasure in the male germ line occurs prior to 9.5 dpc for all imprinted genes examined.