从原始生殖细胞分离克隆鸡胚胎生殖细胞的研究

从孵化 5 5天的鸡胚生殖腺中分离得到大量原始生殖细胞 (PGCs)集落 ,这些集落的细胞经多次克隆传代具有胚胎生殖细胞 (EG)的诸多特征 ,如有连续传代的能力 (传至第 9代 ) ,细胞集落有典型鸟巢状结构 ,PAS染色阳性 ,AKP染色阳性 ,在无饲养层无分化抑制因子LIF时可以自发分化成几种细胞类型 ,包括成纤维细胞、神经细胞、自律细胞等 ,悬浮培养时具有形成类胚体的能力。上述发现表明该细胞具EG细胞的诸多特性 ,为类EG细胞     

不同时期鸡胚原始生殖细胞分离的研究

采用Ficoll密度梯度离心,酶解离两种方法在鸡胚孵化的第14期、19期、28期,分离、培养鸡胚中的原始生殖细胞(PGCs)。探索PGCs分离、培养的适宜时期及方法,以期获得较多数量,较高活力的PGCs作介导生产转基因鸡。结果表明：1．提取、分离PGCs的最佳时期依次为19期、28期。2．两种分离方法均能分离到一定数量的PGCs细胞。但在19期和28期,酶解离法分离到的PGCs的相对数量较多,存活时间较长,是一种较适宜的分离方法。     

第二十八期鸡胚原始生殖细胞的冷冻保存

采用Ficoll密度梯度离心 ,提取第 2 8期 (孵化 13 2h)性腺中的PGCs ,对其应用不同的冷冻保护剂和不同的平衡方法进行冷冻保存 ,并于复苏后进行体外培养。复苏后的PGCs用台盼蓝染色检测其存活率 ,结果发现 :从第 2 8期性腺中获取的PGCs在同一种冷冻保护液下 ,采用不同的平衡方法进行冷冻 ,对PGCs的存活率有显著影响 (P <0 .0 5 ) ;平衡方法相同 ,在不同冷冻保护液条件下 ,冷冻保护液III的冻存效果最好 ,与其他保护液之间存在显著 (P <0 .0 5 )或极显著 (P <0 .0 1)差异。冷冻保护液V和冷冻保护液VI二者对PGCs的冻存效果次之。冷冻保护液I、冷冻保护液II和冷冻保护液IV三者对PGCs的冻存效果最差。PGCs经体外培养 2 4小时后再进行冷冻保存 ,复苏后其存活率、体外培养存活时间均极 (P <0 .0 1)显著短于分离后直接冷冻的PGCs。     

鸡胚胎原始生殖细胞体外培养

以14-15期鸡胚血液为材料,采用Ficoll密度梯度离心方法,提取鸡胚胎原始生殖细胞(primordial germ cells,PGCs),在无基质细胞和基质细胞上分别进行体外培养。从实验结果可以看出：在含有胎牛血清(fetal bovine serum,FBS)、鸡血清(chicken serum,CS)、碱性成纤维细胞生长因子(bFGF)、人胰岛素样生长因子(hIGF-1)、小鼠白血病抑制因子(mLIF)和青,链霉素双抗的M199培养液中培养时,鸡PGCs最多能够存活4天：当采用细胞因子和5天鸡胚胎性腺基质细胞共培养时能存活23代且每代细胞增殖可达近10倍。提纯后的PGCs细胞冻存复苏后,经台盼蓝染色鉴定存活率可达80％左右。     

鸡胚原始生殖细胞的分离和鸡鸭嵌和体的制备

探索了鸡胚12～17期血液中的原始生殖细胞(PGCs)迁移数量变化规律,将其在液氮中冷冻保存.并以Ficoll密度梯度离心、MiniMACS磁气分离、滤膜三种方法对PGCs进行分离,结果发现12～17期血液中均有PGCs存在,13期达到高峰约47.1±10.5个/μl,在血液中比例为0.0126%.冷冻保存3个月后解冻成活率达80%以上.三种分离方法所得的分离效果分别为95.7%、39.2%、63.0%,纯度为27.5%、8.4%、3.1%.将分离的原始生殖细胞以微注射法转移至14～15期麻鸭胚胎中制备了鸡鸭种间嵌和体,获得8只雏鸭(8/110).以鸡W染色体探针原位杂交法在早期鸭胚性腺中检测到鸡原始生殖细胞,嵌和率达84.2%(16/19).表明鸡原始生殖细胞能够迁移定居到鸭胚性腺中,并有可能增殖分化成有功能的配子.     

鸡胚不同发育时期原始生殖细胞的分离方法

采用Ficoll密度梯度离心法和EDTA-胰酶酶解法两种方法,分别提取第14期(孵化53h)血液、第19期(孵化72h)和第28期(孵化132h)生殖腺中的PGCs,以比较两种分离方法对3个发育时期的鸡胚原始生殖细胞在相同体外培养条件下存活时间的差异。结果发现,两种分离方法均能分离到一定数量的原始生殖细胞,但是酶解法分离到的原始生殖细胞的相对数量较Ficoll密度梯度离心法的多,存活时间较长,是一种适宜的分离方法;对鸡胚发育第14、19、28期3个时期提取的原始生殖细胞进行体外培养,存活时间分别为：72h、88h和80h,三者之间差异显著。结果表明：在鸡胚孵化的第19期,因原始生殖细胞大量聚集在肢体后端的生殖嵴原基处,因而较容易收集,体外培养较为适宜,具有较强的可操作性[动物学报49(6)：835～842,2003]。     

小鼠原始生殖细胞的起源,迁移和增殖

哺乳动物原始生殖细胞(PGCs)的起源、迁移和增殖是发育生物学最基本的问题之一,多年来一直未能获得较大突破。近几年,由于实验技术的改进,这一领域的研究有了较大进展。本文以小鼠为例,比较全面地介绍哺乳动物原始生殖细胞的起源、迁移和增殖及其迁移与增殖机制等方面的最新研究进展。     

鸡原始生殖细胞转染条件优化

为获得鸡原始生殖细胞(primordial germ cells,PGCs)的最佳转染效率,本研究比较不同质粒用量和不同细胞数在3种转染试剂(Lipofectamine 2000、3000和LTX&Plus Reagent)中PGCs的转染效率,利用荧光激活细胞分选技术(fluorescence activated cell sorting technology,FACS)辅助优化Lipofectamine 3000转染试剂,经FACS进一步分选获得带绿色荧光蛋白(GFP)的PGCs,继续培养3周后,移植回注到受体鸡胚中,移植3.5 d后分离性腺拍照观察。结果显示,转染试剂Lipofectamine 3000的转染效率最高,质粒、Lipofectamine 3000转染试剂和PGCs细胞数的配比为3μg:4μL:0.5×10⁴个,转染5h转染效率最高,达到23.4%,与现有的研究结果相比提高了2倍以上。移植回注PGCs到受体鸡胚中,荧光显微镜观察到鸡胚性腺中有GFP阳性细胞。本研究综合考虑转染试剂、质粒用量和细胞数量的影响因素以优化PGCs的转染条件,为高...     

多氯联苯对鸡胚原始生殖细胞的损伤作用

目的：本实验研究了PCB以及雌二醇（E2）,睾酮（T）和雌激素受体阻断剂克罗米酚（clomiphen)对5日龄鸡胚性朱中原始生殖细胞（PGC）形态和数量的影响,并对胚胎性腺受损伤程度进行了评价。方法：在入孵前将PCB（Aroclor 1254)油剂注入海兰种蛋卵黄内,实验组中PCB的剂量分别为1,10,100ug/枚;E2和T油剂注射剂量均为10,100ug/枚;克罗米酚,克罗米酚和Aroclor 1254均为100ug/枚,体积均为100ul;对照组注射等量花生油,孵化温度为38度,相对湿度60％,孵化111－120h后取出胚胎进行全固定,经石蜡切片和高碘酸席夫试剂染色后观察性腺中的PGC。结果（1）与对照组相比,PCB延缓鸡胚发育,但是鸡胚死亡率与PCB的剂量不呈现剂量依赖关系,最大死亡率在PCB 1ug/枚组;（2）性腺中的PGC的数量随PCB注射剂量的升高而显著降低,而且左侧性腺比右侧性腺明显,在PCB 100ug/枚组的性腺中,PGC发生了空泡化和核固缩甚至成为空洞;（3）PCB可以导致鸡胚性腺中PGC的损伤程度显著加强;（4）E2,T和克罗米酚处理后,对性腺中的PGC没有显著影响;（5）注射PCB和克罗米酚后,对性腺中PGC的影响与Aroclor 100ug/枚组的结果相同,结论：PCB对鸡胚生殖的影响早在PGC定居性腺就开始了,且对PGC的影响只表现其毒性作用,并没有通过类性激素作用影响PGC的形态和数量。     

鸡胚血液中原始生殖细胞的分离及其培养的研究

从孵化４８～５５小时鸡胚中抽取血液,每只胚胎可获血液２～６μｌ左右。一步法离心分离原始生殖细胞,可使其浓度由０．１％以下提高到５０％以上。将多余血细胞用微量吸管移走后,加入添加１０％胎牛血清的ＴＣＭ—１９９做为培养基,３７．５℃,５％ＣＯ２,９５％空气,饱和湿度下培养,原始生殖细胞可成活２４小时左右。     

Pro-proliferating effect of homologous somatic cells on chicken primordial germ cells

Many studies demonstrated that chicken primordial germ cells (PGCs) could maintain undifferentiated state on mouse embryonic fibroblast feeders supplemented with growth factors and cytokines. However, the xenosupport systems may run risk of cross-transfer of animal pathogens from the other animal feeder, matrix to the PGCs, then influencing later transgenic technology. In this study, chicken PGCs were identified by alkaline phosphatase, stage-specific embryonic antigen-1 and Oct-4 immunocytochemical stainings. Three different homologous somatic cell feeder layers (chicken embryonic fibroblast feeder layer, CEF; embryonic skeletal myoblast feeder layer; follicular granulosa cell feeder layer) were used to support growth and proliferation of PGCs to find a better supporting culture system. In addition, the effects of fetal calf serum (FCS), leukemia inhibitory factor (LIF) and the combination of insulin, transferring and selenite (ITS) on PGC proliferation were compared. Results showed that CEF was the best supporter for PGC growth and proliferation, which was verified by 5-bromo-2'-deoxyuridine incorporation stain. FCS alone or in combination with LIF could significantly promote PGC proliferation in the presence of CEF in ITS medium. This study will contribute to providing a safer supporting system for chicken PGC amplification in vitro, and may be applied in transgenic chicken production and transplantation therapy.     

Heterogeneity in imprinted methylation patterns of pluripotent embryonic germ cells derived from pre-migratory mouse germ cells

Pluripotent stem cells, termed embryonic germ (EG) cells, have been generated from both human and mouse primordial germ cells (PGCs). Like embryonic stem (ES) cells, EG cells have the potential to differentiate into all germ layer derivatives and may also be important for any future clinical applications. The development of PGCs in vivo is accompanied by major epigenetic changes including DNA demethylation and imprint erasure. We have investigated the DNA methylation pattern of several imprinted genes and repetitive elements in mouse EG cell lines before and after differentiation. Analysed cell lines were derived soon after PGC specification, “early”, in comparison with EG cells derived after PGC colonisation of the genital ridge, “late” and embryonic stem (ES) cell lines, derived from the inner cell mass (ICM). Early EG cell lines showed strikingly heterogeneous DNA methylation patterns, in contrast to the uniformity of methylation pattern seen in somatic cells (control), late EG cell and ES cell lines. We also observed that all analysed XX cell lines exhibited less methylation than XY. We suggest that this heterogeneity may reflect the changes in DNA methylation taking place in the germ cell lineage soon after specification.     

On the fate of primordial germ cells injected into early mouse embryos

Primordial germ cells (PGCs) are the founder cells of the germline. Via gametogenesis and fertilisation this lineage generates a new embryo in the next generation. PGCs are also the cell of origin of multilineage teratocarcinomas. In vitro, mouse PGCs can give rise to embryonic germ (EG) cells – pluripotent stem cells that can contribute to primary chimaeras when introduced into pre-implantation embryos. Thus, PGCs can give rise to pluripotent cells in the course of the developmental cycle, during teratocarcinogenesis and by in vitro culture. However, there is no evidence that PGCs can differentiate directly into somatic cell types. Furthermore, it is generally assumed that PGCs do not contribute to chimaeras following injection into the early mouse embryo. However, these data have never been formally published. Here, we present the primary data from the original PGC-injection experiments performed 40 years ago, alongside results from more recent studies in three separate laboratories. These results have informed and influenced current models of the relationship between pluripotency and the germline cycle. Current technologies allow further experiments to confirm and expand upon these findings and allow definitive conclusions as to the developmental potency of PGCs.     

鸡鸭异种间嵌合体的制备

本研究采集孵化14期鸡胚血液中的原始生殖细胞,在液氮中冷冻保存三个月后,解冻成活率达80％以上。以Ficoll密度梯度离心将其从血液中分离纯化,分离获得纯度为27.5%,平均每枚胚胎可获得近50个PGCs。将分离的PGCs 100-200个以微注射法转移至15期早期麻鸭胚胎中制备了鸡鸭种间嵌合体,孵出8（6♂,2♀）只雏鸭,总孵化率为7.3%（8／110）。以鸡W染色体特异性DNA探针原位杂交法在早期鸭胚性腺中检测鸡PGCs。在被检测的21个鸭胚的性腺中,16个有不同程度的阳性信号,嵌合率达76.2%(16/21)。实验结果表明鸡原始生殖细胞能够迁移并定居到鸭胚性腺中,并有可能在鸭性腺中增殖分化成有功能的配子。     

猪原始生殖细胞的分离、培养与鉴定

Embryonic germ cells (EG cells) are pluripotential undifferentiated stem cells isolated from cultured primordial germ cells (PGCs). Like ES cells, EG cells are of importance for gene targeting, therapeutical cloning and organ trans-plantation. The aim of this study was to isolate and characterize EG cells from porcine PGCs. The genital ridges from 24- 26 days old porcine embryos were treated in 0.02% EDTA for 20 min and pricked with a needle to release PGCs. The isolated PGCs were cultured on a SNL feeder layer in an EG cell medium. The EG cell medium consisted of Dulbecco‘‘s modified Eagle‘‘ s medium (DMEM) supplemented with 20 % Buffalo rat lever (BRL) cell-conditioned medium, 15 % fe-tal bovine serum, 1 mmol L-glutamine, 0.1 mol nonessential amino acids, 10 μmol β-mercaptoethanol and antibiotics.The freshly isolated PGCs were positive for alkaline phosphatase activity and Periodic acid-Schiff‘‘ s staining. Under this culture regime, PGCs could be maintained in an undifferentiated state and used for further cultures. One strain of the cul-tured PGCs was cultured 8 times, and alkaline phosphatase activity was detected in the colony formed from this strain.These cultured PGCs could spontaneously differentiate into fibroblast-like cells. These data suggested that we had success-fully isolated EG-like cells from oorcine PGCs.     

鸡胚胎原始生殖细胞的培养和传代

本文旨在探索鸡胚胎原始生殖细胞(Primordialgermcells,PGCs)培养、传代以及各种因素对PGCs培养的影响。实验结果表明,在添加10%的胎牛血清、2%的鸡血清、2mmol/LL谷氨酰胺、1mmol/L丙酮酸钠、5.5×10-5mol/Lβ巯基乙醇、10μl/ml非必需氨基酸、以及5ng/ml人干细胞生长因子(Humanstemcellfactor,hSCF)、10U/ml鼠白血病抑制因子(Mouseleukemiainhibitoryfactor,mLIF)、10ng/ml碱性成纤维生长因子(Fibroblastgrowthfactorbasic,bFGF)、0.04ng/ml人白细胞介素11(Humaninterleukin11,hIL11),10ng/ml胰岛素样生长因子(Humaninsulinlikegrowthfactor,hIGF)的高糖DMEM培养体系中,以多次离散法进行传代获得5-6代鸡胚胎PGCs,有效地维持了PGCs的未分化状态和正常二倍体核型,同时能够定向地诱导分化为神经细胞,具有作为多能性胚胎干细胞的特征