从原始生殖细胞分离和克隆兔的胚胎生殖细胞

研究采用 1 4～ 1 8d兔胎儿的生殖嵴及周围组织与其同源成纤维细胞共培养 ,低糖DMEM +1 0 %NBS +1 0 %FCS +1 0ng/mLLIF +1 0ng/mLSCF+0 1mol/Lβ 巯基乙醇 +1 0 0U/mL青霉素 +80U/mL链霉素作培养基 ,分离出兔原始生殖细胞 (PGC) ,克隆并多次传代。从原始生殖细胞 (PGC)中获得胚胎生殖细胞 (EG)细胞集落 ,1 4d胎儿原代观察到类EG细胞集落 ,传至 4代后丢失。 1 6d胎儿的类EG只传 2代 ,1 8d胎儿没有得到EG细胞集落。EG细胞具有干细胞的诸多特征 ,呈典型的团块状聚集生长 ,碱性磷酸酶 (AKP)染色呈阳性 ,在衰老饲养层的培养基中生长形成类胚体、上皮细胞、神经细胞和成纤维细胞等     

Biallele Expression of PEG10 Gene in Primordial Germ Cells Derived from Day 27 Porcine Fetuses

Primordial germ cells (PGCs) from day 27 porcine fetuses have often been isolated to establish pluripotent embryonic germ (EG) cell lines, but little is known regarding their imprinted gene status. In our study, we attempted to detect the imprinted gene expression of cloned embryos and EG cells derived from individual PGC of day 27 and day 35, using single nucleotide polymorphism (SNP) analysis of the paternally expression gene 10 (PEG10) as a sign of parental‐origin‐specific expression. The results showed biallelic gene expression of the SNP that occurred in EG cell colonies and almost all of the cloned blastocysts, demonstrating that aberrant imprinted gene expression of PEG10 occurs in the day 27 porcine PGCs, whereas monoallelic expression of the PEG10 gene occurs in all the PGC clones derived from day 35 PGCs. In addition, the same imprinted gene status was observed for blastocysts derived from both male and female PGCs, indicating that the parental genomic imprinting is erased in male and female germlines.     

水牛PGC和前精原细胞的体外培养

分别对取自50~95日龄水牛胎儿的原生殖细胞和前精原细胞进行体外培养,观察其生物学行为,并检测其碱性磷酸酶(AP)活性和Oct-4蛋白特性,探讨利用这些生殖细胞建立干细胞系的可行性和检测方法。结果表明水牛原生殖细胞及前精原细胞分别在体外培养时,均能形成细胞克隆;克隆与周围细胞分界明显,但克隆中细胞相互间界限不清;部分克隆有分隔现象,形如多个克隆共同组成一个大克隆;细胞克隆均至少能培养4代以上;原生殖细胞和前精原细胞及其来源的细胞克隆均呈AP阴性和Oct-4蛋白阴性,其中部分克隆表现为AP假阳性。研究结果显示水牛原生殖细胞和前精原细胞均可用于建立干细胞系;体外培养时,AP活性和Oct-4蛋白不适宜用来检测这些细胞及其来源的细胞克隆。     

山羊PGCs用于分离与克隆类ES细胞

选择健康成年本地白山羊，自然发情，配种后44d取胎儿，以传统的原始生殖细胞（PGCs)分离与克隆的方法和PGCs与其胎儿生殖嵴周围组织细胞共同培养的方法获得类胚胎干细胞（类ES细胞），并对山羊类ES细胞在不同饲养层上进行培养。结果表明，采用传统方法与共培养的方法并添加细胞因子均能分离获得类ES细胞。分离获得的类ES细胞在同源（山羊）胎儿细胞饲养层上生长效果较好，可传4代或5代，而在小鼠原代成纤维细胞饲养层上类ES细胞仅传3代。另外，共培养不添加细胞因子组仅获1个ES细胞集落，传代后丢失。     

Perspectives of germ cell development in vitro in mammals

Pluripotent stem cells, such as embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) are able to differentiate into all cell lineages of the embryo proper, including germ cells. This pluripotent property has a huge impact on the fields of regenerative medicine, developmental biology and reproductive engineering. Establishing the germ cell lineage from ESCs/iPSCs is the key biological subject, since it would contribute not only to dissection of the biological processes of germ cell development but also to production of unlimited numbers of functional gametes in vitro. Toward this goal, we recently established a culture system that induces functional mouse primordial germ cells (PGCs), precursors of all germ cells, from mouse ESCs/iPSCs. The successful in vitro production of PGCs arose from the study of pluripotent cell state, the signals inducing PGCs and the technology of transplantation. However, there are many obstacles to be overcome for the robust generation of mature gametes or for application of the culture system to other species, including humans and livestock. In this review, we discuss the requirements for a culture system to generate the germ cell lineage from ESCs/iPSCs.     

Enhancing effects of serum-rich and cytokine-supplemented culture conditions on developing blastocysts and deriving porcine parthenogenetic embryonic stem cells

The present study was conducted to develop an effective method for establishment of porcine parthenogenetic embryonic stem cells (ppESCs) from parthenogenetically activated oocyte-derived blastocysts. The addition of 10% fetal bovine serum (FBS) to the medium on the 3rd day of oocyte culturing improved the development of blastocysts, attachment of inner cell masses (ICMs) onto feeder cells, and formation of primitive ppESC colonies. ICM attachment was further enhanced by basic fibroblast growth factor, stem cell factor, and leukemia inhibitory factor. From these attached ICMs, seven ppESC lines were established. ppESC pluripotency was verified by strong enzymatic alkaline phosphatase activity and the expression of pluripotent markers OCT3/4, Nanog, and SSEA4. Moreover, the ppESCs were induced to form an embryoid body and teratoma. Differentiation into three germ layers (ectoderm, mesoderm, and endoderm) was confirmed by the expression of specific markers for the layers and histological analysis. In conclusion, data from the present study suggested that our modified culture conditions using FBS and cytokines are highly useful for improving the generation of pluripotent ppESCs.     

胚胎干细胞及种系嵌合体的研究进展

胚胎干细胞是着床前的囊胚内细胞团或早期胎儿的原始生殖细胞经体外分化抑制培养建立的多能性细胞系 ,具有与胚胎细胞相似的形态特征和分化潜能 ,体外培养时保持未分化状态 ,可以传代增殖。改变维持胚胎干细胞不分化的培养条件 ,胚胎干细胞可自发分化成多细胞结构。在一定诱导下 ,胚胎干细胞可向多个方向分化 ,并生成多种功能细胞。胚胎干细胞注入到胚泡期胚胎或与桑椹期胚胎聚合 ,可以参与包括性腺在内的各种组织的嵌合体的形成。胚胎干细胞在细胞分化与调控 ,胚胎发育 ,遗传病 ,肿瘤 ,免疫和组织或器官移植等研究中显示着广泛的应用前景。而种系嵌合体的获得是实现 ES细胞途径的决定步骤 ,低的种系嵌合率则是制约 ES细胞应用的关键。提高供体 PGCs在受体生殖腺中的比例 ,缩短 ES细胞的体外培养时间 ,以及注入早期发育阶段的受体胚胎等都能提高种系嵌合率。文章从多个方面综述了胚胎干细胞的最新研究成果 ,并着重以禽类 ES细胞为例论述了种系嵌合体的检测方法 ,种系嵌合率的影响因素以及提高种系嵌合率的方法     

兔原始生殖细胞体外培养的研究

旨在探索兔原始生殖细胞（primordial germ cells,PGCs）体外分离培养的最佳条件,从而建立成熟稳定的兔PGCs体外分离培养方法。本研究首先通过两种不同的体外分离法（胰酶消化法、机械法）和3种不同的传代法（胰酶消化法、机械法、连同饲养层消化法）探索第14~18天胎兔的PGCs体外分离传代的最佳方式,另将培养液分为A、B、C、D 4组,以D组为对照组,探究不同细胞因子浓度对兔PGCs形态变化及集落形成的影响。其次,利用碱性磷酸酶染色（alkaline phosphatase staining,AKP）法对兔PGCs进行鉴定染色;实时荧光定量（real-time polymerase chain reaction,RT-PCR）检测转录因子Oct-4的表达。结果表明,机械法分离得到的兔PGCs集落数量是酶消化法分离的2.2倍,而兔PGCs经不同的消化法传代发现,酶消化法、连同饲养层消化法、机械法在兔胚胎成纤维细胞（rabbit embryo fibroblast,REF）饲养层上分别成功传至P2、P2、P4代。B组PGCs培养液（基础液+10%胎牛血清（fetal bovine serum,FBS）+2 ng·mL^-1转化生长因子-β1（transforming growth factor-β1,TGF-β1）+4 ng·mL^-1碱性成纤维细胞生长因子（basic fibroblast growth factor, bFGF）+10 ng·mL^-1白血病抑制因子（leukemia inhibitory factor,LIF））所获得的集落数量最多,具有较好的集落形态,保持未分化的时间较长。AKP染色结果显示,PGCs集落呈红黑色; RT-PCR结果显示,体外分离培养的兔PGCs表达转录因子Oct-4。结果显示,兔原代PGCs最适采用机械分离法和机械传代法进行体外分离传代,适宜浓度的细胞因子添加至兔PGCs培养液中有利于兔PGCs在体外保持较多的集落数量和较长时间的未分化状态。本研究通过筛选和优化兔PGCs体外培养方法,为进一步建立稳定成熟兔PGCs细胞系奠定技术基础。     

牛胚胎生殖细胞的分离与培养

以牛胎儿为材料,从原始生殖细胞（PGC）分离培养出胚胎生殖细胞（EG）,并进行传代和鉴定,对影响胚胎生殖细胞分离与培养的因素进行了探讨,研究发现以共培养方式培养牛原始生殖细胞时,原代培养都可以出现大量形态较好的EG细胞集落,说明同源的体细胞可以很好地支持PGC的生长和增殖,组织块培养细胞克隆数目较少,PGC很难增殖,不能形成典型的集落,传代也不理想,只传了一代.同时比较了不同传代方法对牛胚胎生殖细胞细胞传代的影响,发现消化＋机械分离法和消化＋吹打法都可以用于EG细胞的传代.消化＋吹打法操作简单,省时省力,也能够很好的保持细胞的增殖活力.原代培养的牛原代胚胎生殖细胞进行了细胞表面标志抗原SSEA-1,3,4鉴定,呈弱阳性.细胞体外培养可以分化为成纤维样细胞、上皮样细胞和类胚体.     

绵羊胚胎成纤维细胞饲养层用于培养人诱导性多能干细胞的效果研究

试验在体外分离培养1月龄绵羊胚胎成纤维细胞（sheep embryonic fibroblast，SEF），经丝裂霉素C处理后探讨其作为诱导性多能干细胞（induced pluripotent stem cells，iPSC）体外培养饲养层的可行性。试验以SNL饲养层细胞为对照，人iPSC（hiPSC）为培养对象，通过形态学观察、碱性磷酸酶（AP）染色、以及实时荧光定量PCR和免疫细胞化学对hiPSC标志基因mRNA和蛋白表达的检测，比较了SEF细胞和SNL细胞作为干细胞饲养层的效果。结果表明，在试验期内，与SNL饲养层体外培养的hiPSC相似，SEF饲养层体外培养的hiPSC在形态上呈集落样生长，增殖速度快；AP染色呈蓝紫色，能够维持未分化状态；能正常表达多能性标志基因。两种饲养层细胞培养的hiPSC多能性标志基因c-Myc、Klf4、OCT4和SOX2 mRNA的表达以及OCT4、SOX2、SSEA4和TRA-1-60蛋白的表达并无显著差异（P>0.05）。本研究结果初步表明SEF可作为体外培养iPSC的饲养层细胞，为进一步建立可表达促生长因子的基因修饰SEF细胞系奠定了基础。     

Expression of p63 in the mouse primordial germ cells

Proteins encoded by p63 gene a have structural similarity with tumor suppressor p53, and were thought to induce cell cycle arrest and apoptosis during development. The p63 proteins are also expressed in the basal cells of many epithelial tissues in the adult, and supposed to play important roles in maintaining the epidermal stem cells. Previously, we reported the p63 expression in the testis of mouse embryos, suggesting their involvement in the growth arrest and apoptosis of testicular germ cells (Nakamuta and Kobayashi, J. Vet. Med. Sci. 65:853-856). In this study, we investigated the timing of this p63 expression in the germ cells during migration and colonization to the gonads. Immunohistochemical analysis of mice from embryonic day (E) 7.5 to E12.5 demonstrated that p63 positive reactivity was seen as early as E8.5 when the founder cells of germ cells, primordial germ cells (PGCs), were located in the hind gut epithelium, but PGCs were negative for p63 at E7.5 when they first appeared. p63 is expressed as six isoforms, resulting from alternative splicing at C-terminus and by the use of two promoters that generate variations at N-terminal end. RT-PCR analyses suggested that different types of p63 mRNAs were likely to be expressed in PGCs during development. These results imply that p63 may be involved in the regulation of PGC development by controlling the gene expression required for their migration and colonization to the gonads.     

同源物种不同饲养层对鸡精原干细胞体外培养的影响

分别以鸡胚来源的不同细胞为饲养层培养精原干细胞,比较3种不同的饲养层对精原干细胞体外培养的影响。结果显示:精原干细胞在鸡胚成纤维细胞饲养层和鸡睾丸支持细胞饲养层上存活时间较长、生长增殖状况良好。在鸡胚成纤维饲养层上传至四代,每代的AKP阳性克隆率分别为45%、40%、36%和21%。在以睾丸支持细胞为饲养层进行培养时传至三代,每代的AKP阳性克隆率分别是40%、32%、和22%。而以鸡肝细胞作为饲养层,精原干细胞未见有克隆形成,不能进行传代培养,表明鸡胚肝细胞饲养层不适合培养精原干细胞。     

Pluripotent cell derivation from male germline cells by suppression of Dmrt1 and Trp53

Diploid germ cells are thought to have pluripotency potential. We recently described a method to derive pluripotent stem cells (PSCs) from cultured spermatogonial stem cells (SSCs) by depleting Trp53 and Dmrt1, both of which are known suppressors of teratomas. In this study, we used this technique to analyze the effect of this protocol in deriving PSCs from the male germline at different developmental stages. We collected primordial germ cells (PGCs), gonocytes and spermatogonia, and the cells were transduced with lentiviruses expressing short hairpin RNA against Dmrt1 and/or Trp53. We found that PGCs are highly susceptible to reprogramming induction and that only Trp53 depletion was sufficient to induce pluripotency. In contrast, gonocytes and spermatogonia were resistant to reprogramming by double knockdown of Dmrt1 and Trp53. PSCs derived from PGCs contributed to chimeras produced by blastocyst injection, but some of the embryos showed placenta-only phenotypes suggestive of epigenetic abnormalities of PGC-derived PSCs. These results show that PGCs and gonocytes/spermatogonia have distinct reprogramming potential and also suggest that fresh and cultured SSCs do not necessarily have the same properties.     

山羊雄性胎儿生殖细胞建立干细胞系初探

体外培养山羊50~68日龄雄性胎儿生殖细胞,并检测它们的碱性磷酸酶(AP)活性和Oct-4蛋白,探讨性别分化后的生殖细胞用于建立干细胞系的可行性及检测指标。当山羊胎儿睾丸细胞体外培养时,生殖细胞及其来源的细胞克隆均呈AP阴性和Oct-4蛋白阴性,其中有部分细胞克隆表现为AP假阳性。山羊胎儿生殖细胞克隆呈隆突状生长,多为圆形,与周围细胞界限分明,但克隆内细胞间界限不清。细胞克隆至少可以培养3代以上。研究结果显示,山羊雄性胎儿生殖细胞可以用于建立生殖系来源的干细胞系;AP和Oct-4蛋白不适宜用来检测体外培养的山羊胎儿生殖细胞及其来源的细胞系。     

山羊类ES细胞的分离与克隆

采集山羊交配后6～8d的桑椹胚、囊胚和孵化囊胚,将桑椹胚和囊胚分别放在小鼠原代胎儿成纤维细胞(PMEF)饲养层和同源原代胎儿成纤维细胞(PGEF)饲养层上比较其脱带时间及脱带率。脱带后,将各自一半胚胎切割,把含ICM的半胚分别放在相应饲养层上进行培养,另一半整胚在各自饲养层上继续培养,而孵化囊胚直接于PGEF饲养层上培养。当ICM增殖一定程度时进行传代,以比较其类ES细胞分离与克隆的效果。结果表明,在2种不同饲养层上,囊胚的脱带时间均短于桑椹胚,囊胚的脱带率均高于桑椹胚,而饲养层的种类对胚胎的脱带时间以及脱带率影响不大。脱带切割囊胚不论在PMEF还是在PGEF饲养层上,其贴壁时间均短于脱带整胚及孵化囊胚,而贴壁率高于脱带整胚,与孵化囊胚相似。脱带整胚及脱带切割胚在PMEF饲养层上所获类ES细胞只能维持3代,而在PGEF饲养层上,脱带切割半胚和孵化囊胚所获类ES细胞传至5代。由此认为,对脱带后的胚胎进行切割处理,有利于ICM的贴壁和增殖;应用同源原代胎儿成纤维细胞饲养层培养系统,有利于类ES细胞的分离与克隆。     

鸡胚胎干细胞及其应用研究进展

鸡胚胎干细胞是一种多能性干细胞,从X期胚盘分离胚盘细胞或早期鸡胚的生殖嵴分离原始生殖细胞,经体外长期抑制分化培养可得到鸡胚胎干细胞。为维持细胞在培养过程中的未分化状态,需要采用饲养层细胞培养,同时设计合理的培养液配方并添加多种抑制分化或促进增殖的细胞因子。通过碱性磷酸酶活性检测、胚胎表面特异性抗原检测、分化试验及嵌合体试验等方法,可对鸡胚胎干细胞进行准确鉴定。文章主要就鸡胚胎干细胞的分离、培养与鉴定方法的研究进展及其应用前景进行简要综述,为进一步发展更高效的鸡胚胎干细胞培养体系并应用于生产实践提供一定的借鉴。     

哺乳动物原始生殖细胞与EG细胞研究进展

本文综述了哺乳动物原始生殖细胞的来源、增殖、迁移及生物学特点及近年来国内外用原始生殖细胞分离EG细胞的研究进展，探讨了EG细胞作为另一种多能性干细胞的优越性。     

禽类多能性干细胞研究进展

胚胎干细胞是未分化的具有增殖和自我更新能力的细胞,并且能分化成所有类型的体细胞以及生殖细胞。它们提供了早期胚胎分化的体外模型,也是基因操作的重要靶细胞。禽类多能性干细胞培养最重要的应用领域是以干细胞体外遗传修饰、鉴定为技术平台的家禽转基因技术。通过此技术对禽类基因进行遗传修饰与操作,在胚胎发育基础研究、转基因禽类生产及家禽育种等方面有巨大的应用前景。但是禽类多能性干细胞培养的许多基本问题仍亟待解决,如探索其建系的培养条件、揭示其维持多能性和增殖能力的分子机制等。文章综述了禽类多能性干细胞的分离方法、体外分化能力、嵌合体形成以及基因修饰方面的研究进展及目前的研究局限。