培养原始生殖细胞的新方法

为探讨原始生殖细胞(primordial germ cells,PGCs)在体外长期增殖、生长并长期保持分化潜能的新方法,我们将PGCs分别与睾丸支持细胞(Sertoli cells,SCs)和同源生殖嵴成纤维细胞共培养。结果与SCs共培养的PGCs集落明显多于同源生殖嵴成纤维细胞共培养PGCs集落,传代次数也显著多于同源生殖嵴成纤维细胞．目前与SCs共培养的PGCs已成功传代培养至了第51代。因此我们认为PGCs与SCs共培养,可有效提高原始生殖细胞在体外的增殖能力并可长期维持干细胞的特性。     

饲养层种类及密度对体外培养兔原始生殖细胞的影响

该研究以14~18天胎兔为试验对象,体外分离培养扩增原始生殖细胞(primordial germ cells,PGCs),观察其形态变化及集落形成过程。用AKP染色(alkaline phosphatase staining)及分子生物学等方法鉴定兔PGCs,结果均为阳性,将兔PGCs分别接种于鼠胚胎成纤维细胞(mouse embryo fibroblast,MEF)、兔胚胎成纤维细胞(rabbit embryo fibroblast,REF)制成的不同密度饲养层来确定种属跟密度对体外培养兔PGCs的影响。结果显示,兔PGCs接种于用同源胚胎成纤维细胞所制成的密度为6×104的饲养层上所得到的集落个数最多,集落形态最好,分化速度较慢。     

人原始生殖细胞的特化和表观遗传重编程研究进展

原始生殖细胞(primordial germ cells,PGCs)起源于原肠胚阶段,是生殖细胞的前体细胞,由特定细胞经过一系列分子调控特化而成。PGCs完成特化后迁移进入生殖嵴,在迁移过程中存在一系列的表观遗传修饰的动态变化,包括DNA甲基化和组蛋白修饰等。PGCs迁移的后期会发生两性分化,迁入生殖嵴的PGCs影响原始性腺的发育。有关小鼠PGCs特化、迁移/增殖和两性分化等的机制已得到了广泛研究,而在人类中则由于伦理以及材料获取困难等因素还有待更深入的研究。该文综述了人原始生殖细胞(human PGCs,h PGCs)的特化机制、表观遗传调节在其特化和迁移过程中的作用以及h PGCs对性腺形成的影响。     

鸡胚胎生殖细胞在鼠胚成纤维细胞饲养层上的生长

目的:探讨以鼠胚成纤维细胞为饲养层分离、培养鸡胚胎生殖细胞的方法和条件。方法:分离、培养12.5～13.5d鼠胚成纤维细胞。分离孵化5.5d鸡胚原始生殖细胞,原代培养时不使用饲养层,与性腺基质细胞共培养;继代培养时将其置于鼠胚成纤维细胞饲养层上,在含生长因子、分化抑制因子的培养体系中培养胚胎生殖细胞。结果:鼠胚成纤维细胞可连续传代18代以上(4个月),3～15代细胞可以用作饲养层细胞。分离的鸡胚胎生殖细胞在饲养层上可增殖形成典型胚胎生殖细胞集落,并能连续在体外培养超过9代。集落未分化标志高碘酸希夫反应(PAS)呈强阳性,体外分化实验表明胚胎生殖细胞具有多能性。结论:用鼠胚成纤维细胞作为饲养层能获得可连续增殖的胚胎生殖细胞。     

哺乳动物原始生殖细胞体内特化和体外培养

原始生殖细胞(primordial germ cells, PGCs)是胚胎中最先出现的生殖细胞。PGCs来源于上胚层,最早出现在后肠,随后向生殖嵴迁移。这一过程伴随一系列复杂的分子调控机制,以及DNA甲基化重编程和组蛋白修饰等表观遗传过程。PGCs经过不断的分裂、发育及分化,最终形成配子。为了更好地研究PGCs发育与分化的调控和表观遗传过程,体外培养的研究变得越来越重要。本文以小鼠和人为例,介绍了哺乳动物PGCs的特化过程、PGCs特化过程中的表观遗传过程和PGCs的体外培养研究进展。     

革胡子鲇原始生殖细胞的起源、迁移及性腺分化

革胡子鲇又称埃及胡子鲇,是一种多次产卵类型的硬骨鱼。作者用组织学、组织化学、电子显微镜等方法对革胡子鲇的原始生殖细胞(Primordial germ cells,PGCs)的起源、特征、迁移方式和性腺分化进行了研究。实验结果:PGCs来源于内胚层;PGCs的细胞质中存在着一种与生殖细胞有关的电子致密物--生殖质(Germ plasm);PGCs在迁移过程中有主动迁移的能力;PGCs到达生殖嵴的部位后,与生殖上皮细胞(Epithelisl cells)一起共同形成原始性腺;原始性腺分别逐步向精巢和卵巢分化;生殖质与性腺的分化有密切关系;卵巢的分化比精巢早。       

胎牛雄性生殖干细胞源类ES细胞的分离培养与多能性研究

雄性生殖干细胞（male germ stem cells, mGSCs）来源于原始生殖细胞(primordial germ cells, PGCs),且终生存在于性分化后的睾丸中。从20周胎牛分离睾丸细胞,2步连续贴壁速率差法能有效纯化胎牛mGSCs,经流式细胞仪检测,CD9阳性细胞的比例达到 95.8%。原代与支持细胞共培养,出现隆突状和鸟巢状两种细胞集落。获得1株传至4代仍呈现集落生长的细胞株,且集落AKP染色阳性。对第3代鸟巢状细胞集落免疫组化和诱导分化分析,结果显示：SSEA1和Oct-4免疫组化染色阳性;短期内可自发形成c-kit染色阳性的分化态精原细胞;定向诱导分化形成了表达神经丝蛋白(Neuro filament,NF)的神经样细胞和表达α-actin的心肌样细胞团。试验结果表明：20周胎牛雄性生殖干细胞在体外可形成具有多分化潜能性的类胚胎干（embryonic stem, ES）细胞。     

禽类胚胎生殖细胞的研究

胚胎干细胞有2种来源：一种来自于早期胚胎囊胚期内细胞团（inner cell mass,ICM）的胚胎干细胞（embryonic stem cells,ES细胞）,另一种是来自胚胎生殖腺原始生殖细胞（primordial germ cells,PGCs）的胚胎生殖细胞（embryonic germ cells,EG细胞）。PGCs是生殖母细胞的前体细胞,是精子或卵子的祖先细胞。自Matsui等证实了PGCs同样可以作为胚胎干细胞的原材料之后,现已在人、小鼠、猪和鸡等多种动物的PGCs进行了分离培养并获得了EG细胞。现从形态特征和迁移、分离培养及鉴定方面对禽类EG细胞的研究进展作一综述。     

小鼠原生殖细胞体外培养及其应用研究

原生殖细胞（ｐｒｉｍｏｒｄｉａｌｇｅｒｍｃｅｌｌ,ＰＧＣ）是胚胎生殖谱系最原始形式的细胞,在体胚胎迁移期ＰＧＣ增殖极为旺盛。体外培养的小鼠迁移期ＰＧＣ在饲养层细胞和三种生长因子（干细胞生长因子、碱性成纤维细胞生长因子及白血病抑制因子）的共同作用下,可发展为长期增殖并维持不分化状态的胚胎性干细胞,即胚胎生殖细胞（ｅｍｂｒｙｏｎｉｃｇｅｒｍｃｅｌｌ,ＥＧ）,具全能性发育潜能。ＥＧ建系成功对于研究生殖细胞发育以及寻找新的转基因动物操作的有效载体具有重要价值。     

蒙古绵羊原始生殖细胞用于胚胎干细胞培养的研究

原始生殖细胞是用做分离和克隆胚胎干细胞的一种新的细胞资源。本研究将30-45日龄的蒙古绵羊胚胎生殖嵴及其临近组织用机械剪碎和胰蛋白酶+EDTA消化处理,添加DMEM（低糖）+10%FBS（犊牛血清）、38.0℃、5%CO2和饱和湿度条件下进行培养。其结果：未加任何细胞生长因子的情况下与其胎儿成纤维细胞共培养的方式也能分离得到类胚胎干细胞集落。这些集落细胞经多次克隆传代具有胚胎干细胞的诸多特征,如：具有连续传代的能力,细胞集落有典型鸟巢状结构,AKP染色呈阳性,核型分析结果染色体正常等。这些表明该细胞具有多能性,是绵羊类ES细胞。     

Induction of oocyte-like cells from mouse embryonic stem cells by co-culture with ovarian granulosa cells

Abstract In vitro derivation of oocytes from embryonic stem (ES) cells has the potential to be an important tool for studying oogenesis as well as advancing the field of therapeutic cloning by providing an alternative source of oocytes. Here, we demonstrate a novel, two-step method for inducing mouse ES cells to differentiate into oocyte-like cells using mouse ovarian granulosa cells. First, primordial germ cells (PGCs) were differentiated within the embryonic body (EB) cells around day 4 as defined by the expression of PGC-specific markers and were distinguished from undifferentiated ES cells. Second, day 4 EB cells were co-cultured with ovarian granulosa cells. After 10 days, these cells formed germ cell colonies as indicated by the expression of the two germ cell markers Mvh and SCP3. These cells also expressed the oocyte-specific genes Fig α, GDF-9 , and ZP1-3 but not any testis-specific genes by RT-PCR analysis. EB cultured alone or cultured in granulosa cell-conditioned medium did not express any of these oocyte-specific markers. In addition, EB co-cultured with Chinese hamster ovary (CHO) cells or cultured in CHO cell-conditioned medium did not express all of these oocyte-specific markers. Immunocytochemistry analysis using Mvh and GDF-9 antibodies confirmed that some Mvh and GDF-9 double-positive oocyte-like cells were generated within the germ cell colonies. Our results demonstrate that granulosa cells were effective in inducing the differentiation of ES cell-derived PGCs into oocyte-like cells through direct cell-to-cell contacts. Our method offers a novel in vitro system for studying oogenesis; in particular, for studying the interactions between PGCs and granulosa cells.     

影响鸡原始生殖细胞分离克隆因素的研究（简报）

具有多向分化潜能的胚胎干细胞有两种来源：一是来自于早期胚胎内细胞团的胚胎干细胞(Em．bryonic Stem Cells,ESCs),另一种是来自于胚胎生殖腺原始生殖细胞(Primordial Germ Cells,PGCs)的胚胎生殖细胞(Embryonic Germ Cells,EGCs)。     

The ability of mouse nuclear transfer embryonic stem cells to differentiate into primordial germ cells

Nuclear transfer embryonic stem cells (ntESCs) show stem cell characteristics such as pluripotency but cause no immunological disorders. Although ntESCs are able to differentiate into somatic cells, the ability of ntESCs to differentiate into primordial germ cells (PGCs) has not been examined. In this work, we examined the capacity of mouse ntESCs to differentiate into PGCs in vitro. ntESCs aggregated to form embryoid bodies (EB) in EB culture medium supplemented with bone morphogenetic protein 4(BMP4) as the differentiation factor. The expression level of specific PGC genes was compared at days 4 and 8 using real time PCR. Flow cytometry and immunocytochemical staining were used to detect Mvh as a specific PGC marker. ntESCs expressed particular genes related to different stages of PGC development. Flow cytometry and immunocytochemical staining confirmed the presence of Mvh protein in a small number of cells. There were significant differences between cells that differentiated into PGCs in the group treated with Bmp4 compared to non-treated cells. These findings indicate that ntESCs can differentiate into putative PGCs. Improvement of ntESC differentiation into PGCs may be a reliable means of producing mature germ cells.     

Metastable primordial germ cell-like state induced from mouse embryonic stem cells by Akt activation

Specification to primordial germ cells (PGCs) is mediated by mesoderm-induction signals during gastrulation. We found that Akt activation during in vitro mesodermal differentiation of embryonic stem cells (ESCs) generated self-renewing spheres with differentiation states between those of ESCs and PGCs. Essential regulators for PGC specification and their downstream germ cell-specific genes were expressed in the spheres, indicating that the sphere cells had commenced differentiation to the germ lineage. However, the spheres did not proceed to spermatogenesis after transplantation into testes. Sphere cell transfer to the original feeder-free ESC cultures resulted in chaotic differentiation. In contrast, when the spheres were cultured on mouse embryonic fibroblasts or in the presence of ERK-cascade and GSK3 inhibitors, reversion to the ESC-like state was observed. These results indicate that Akt signaling promotes a novel metastable and pluripotent state that is intermediate to those of ESCs and PGCs.     

大鼠原生殖细胞培养和分化的研究

研究大鼠胚胎原生殖细胞（primordial germ cells,PGCs)的培养及分化,取受精后11-12.5天大鼠PGCs进行原代培养,光、电镜观察PGCs及其分化细胞的微细结构,碱性磷酸酶染色检测细胞的分化程度,结果显然显示大鼠PGCs大而圆,散在分布,或多个聚集成团,胞质中含有椭圆形的线粒体和丰富的核糖体,在鼠胚成纤维细胞饲养层存在的情况下,PGCs保持未分化状态,碱性磷酸酶反应呈强阳性,在缺乏饲养层的条件下PGCs很快分化,形态不规则,有伪足,碱性磷酸酶反应减弱,进一步分化可形成具有细长突起的神经元样细胞,胞质中含有细丝束的表皮细胞,可见节律性跳动的心肌细胞,具有分泌颗粒的分泌细胞及似血管,心脏形状的管腔结构等,由PGCs分化来的细胞碱性磷酸酶反应均呈阴性,结果表明大鼠PGCs能够分化形成三个胚层的衍生物,生殖嵴来源的PGCsp是一种具有发育全能性的胚胎多能干细胞,本研究同时证明鼠胚饲养层能抑制大鼠PGCs的分化。     

An improved method for isolating Schwann cells from postnatal rat sciatic nerves

The major difficulty in Schwann cell (SC) purification is contamination by fibroblasts, which usually become the predominant cell type during SC enrichment in vitro. Current reported measures are mainly limited by either high cost or complicated procedures with low cell yields or purity. Our objectives have been to develop an efficient, easily applicable, rapid method to obtain highly purified SC from the sciatic nerve of newborn rats. The method involves two rounds of purification to eliminate fibroblasts with the novel combined use of cytosine-B-arabinoside hydrochloride (Ara-C) action and differential cell detachment. Cultured cells were first treated with Ara-C for 24 h. The medium was replaced with the growth medium containing 20 ng/ml human heregulin1-β1 extracellular domain (HRG1-β1 ECD). After another 48 h in culture, the cells were treated with 0.05% trypsin, following which SCs, but not fibroblasts, were easily detached from the dishes. The advantage of this method is that the two steps can eliminate the fibroblasts complementarily. Ara-C eliminates most of the fibroblasts growing among SCs, whereas the differential cell detachment technique removes the remainder growing under or interacting with the SC layer. A purity of more than 99% SCs has been obtained, as confirmed by cell morphology and immunostaining. The purified SCs have a spindle-shaped, bipolar, and sometimes tripolar morphology, align in fascicles, and express S-100. The whole procedure takes about 10 days from primary culture to the purified SCs growing to confluence (only half the time reported previously). This protocol provides an alternative method for investigating peripheral nerve regeneration and potentially could be used to produce enough SCs to construct artificial nerve scaffolds in vitro. This work was supported by Tsinghua-Yue-Yuen Medical Sciences Fund, the National Natural Science Foundation of China (contract grant numbers: 30670528, 30700848, 30772443), Beijing Municipal Science & Technology Commission (BMSTC, contract grant number: H060920050430), National Basic Research Program of China (also called the 973 Program, contract grant number: 2005CB623905), and the National Natural Science Foundation of Beijing (contract grant number: 7082090).     

Anti-β1 integrin antibody inhibits schwann cell meylination

Schwann cells (SCs) co-cultured with sensory neurons require ascorbate supplementation for basal lamina assembly and differentiation into myelinating cells. The ascorbate requirement can be bypased by adding a purifed basal lamina component, laminin, to SC/neuron cocultures. We have examined the role of laminin receptors, Namely, the β1 subfamily of integrins, in the process of myelination. We demonstrate by immunostaining or immunoprecipitation that undifferentiated SCs in contact with axons express large amounts of the β1 subunit in association with the α1 or α6 subunit. In co-cultures of myelinating SCs, α1β1 is no longer present, α6β1 is still present but at reduced levels, and α6β4 is expressed at much higher levels than in co-cultures of undifferentiated SCs. Immunogold labelling at the electron microscope level suggested that β1 integrins are randomly distributed on undifferentiated SCs, become localized to the SC surface contacting basal lamina in differentiating SCs before the onset of myelination, and are not detected on myelinating SCs. Fab fragments of β1 function-blocking antibody block both attachment of isolated SCs to laminin and formation of myelin sheaths by SCs co-cultured with neurons in ascorbate-supplemented medium. SCs unable to myelinate in the presence of the anti-β1 antibody assemble patchy basal lamina that is only loosely attached to the cell surface and in some cases appears to be detaching from the membrane. In contrast, an α1β1 function-blocking antibody only partially blocks attachment of isolated SCs to laminin but has no inhibitory effect on SC myelination. These results are consistent with the hypothesis that a member of the β1 subfamily of integrins other than α1β1 binds laminin present in basal lamina to the SC surface and transduces signals that are critical for initiation of SC differentiation into a myelinating cell. 1994 John Wiley & Sons, Inc.     

Novel method to obtain highly enriched cultures of adult rat Schwann cells

Schwann cells (SCs) can be used to repair both the peripheral and central nervous systems. Therefore, establishment of a procedure to obtain activated, highly proliferative SCs, in an appropriate time for clinical applications, is a prerequisite. Purification is complicated by contamination with fibroblasts which often become the predominant cell type in an in vitro SC culture. This study describes a novel and efficient method to enrich SCs by utilizing the differential detachment properties of the two cell types. In culture, cells were treated with two different media and the chelator, EGTA, which detached SCs faster than fibroblasts and allowed for easy isolation of SCs. Within seven days, high yields of SCs with a purity of greater than 99% were achieved. This was confirmed by immunostaining characterization and flow-cytometric analyses using an antibody against the p75 low affinity nerve growth factor receptor (p75LNGFR). The entire procedure was completed in approximately 21 days. This method has the advantage of being technically easier, faster, and more efficient than other previously described methods. An SC culture that was about 99% homogenous was achieved.