Derivation of Intermediate Pluripotent Stem Cells Amenable to Primordial Germ Cell Specification

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猪原始生殖细胞生物学特性的研究

胚胎生殖细胞（embryonic germ cell,EGC）是由胎儿原始生殖细胞（primordial germ cell,PGC）经体外驯化培养获得的一种多潜能干细胞。研究猪PGC生物学特性对于建立猪EGC及了解猪生殖细胞发育机制具有重要意义。该研究以原代培养的猪PGC为对象,探讨了其生长行为特征及其重编程过程中多能性、生殖系标志基因的表达模式。结果显示,26 d胚胎生殖嵴分离的PGC呈碱性磷酸酶阳性,细胞体积及核质比较大;体外培养初期呈现出较强的增殖及迁移能力,培养第5 d细胞增殖达到平台期,此时克隆高表达Oct4、Sox2、Nanog、c-Myc、Klf4和Ifi tm3（P〈0.05）,低表达Blimp1（P〈0.05）,Nanos1和Stella的表达水平与猪胎儿成纤维细胞无差异;猪PGC形成的原代克隆已经具有多向分化潜能。     

果蝇原生殖细胞特化的分子机制

原生殖细胞在许多有性生殖动物的胚胎发育早期就已特化出来,并进一步分化为生殖细胞以产生新的子代。动物原生殖细胞的特化主要有生殖质决定和诱导两种模式,果蝇原生殖细胞的特化模式属于前者。研究表明,果蝇原生殖细胞特化过程中生殖质组装的关键基因是osk,其调控下游基因转录产物的定位和翻译,如vas和tud。此外,基因转录沉默是原生殖细胞特化过程的一个重要特征,其与生殖质中的成分如基因nos、gcl、pgc的表达产物密切相关。现对果蝇原生殖细胞特化分子机制进行综述。     

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。     

Primordial Germ Cell-Like Cells Differentiated In Vitro from Skin-Derived Stem Cells

Background

We have previously demonstrated that stem cells isolated from fetal porcine skin have the potential to form oocyte-like cells (OLCs) in vitro. However, primordial germ cells (PGCs), which must also be specified during the stem cell differentiation to give rise to these putative oocytes at more advanced stages of culture, were not systematically characterized. The current study tested the hypothesis that a morphologically distinct population of cells derived from skin stem cells prior to OLC formation corresponds to putative PGCs, which differentiate further into more mature gametes.

Methodology/Principal Findings

When induced to differentiate in an appropriate microenvironment, a subpopulation of morphologically distinct cells, some of which are alkaline phosphatase (AP)-positive, also express Oct4, Fragilis, Stella, Dazl, and Vasa, which are markers indicative of germ cell formation. A known differentially methylated region (DMR) within the H19 gene locus, which is demethylated in oocytes after establishment of the maternal imprint, is hypomethylated in PGC-like cells compared to undifferentiated skin-derived stem cells, suggesting that the putative germ cell population undergoes imprint erasure. Additional evidence supporting the germ cell identity of in vitro-generated PGC-like cells is that, when labeled with a Dazl-GFP reporter, these cells further differentiate into GFP-positive OLCs.

Significance

The ability to generate germ cell precursors from somatic stem cells may provide an in vitro model to study some of the unanswered questions surrounding early germ cell formation.     

On the Origin of Primordial Germ Cells in the Chick Embryo

An attempt was made to re-examine the location of the primordial germ cells (PGCs) in very young chick embryos. Freshly laid blastoderms, prior to hypoblast formation, of a known anterio-posterior axis, were transversely bisected and each half was separately grown in vitro. Both anterior and posterior halves were shown to be fertile and each was shown to contain roughly the same amount of PGCs as a normal control embryo. It has been concluded that in the chick as well as in the duck there is no concentration of cells containing germinal plasm in the posterior part of the blastoderm.
Two other possibilities should be investigated:
1. A concentric arrangement of cells containing germinal plasm. 2. The absence of a germinal plasm and a relatively late appearance of PGCs as a result of induction.     

Purification of Primordial Germ Cells from TNAPMouse Embryos Using FACS-gal

Tissue nonspecific alkaline phosphatase (TNAP), the product of theAkp2locus, is expressed in mouse primordial germ cells (PGC) for an extensive period during embryogenesis. Mice with theAkp2^tm1Sormutant allele of TNAP expresslacZ(β-galactosidase; β-gal) under control of theAkp2locus. PGCs were purified fromAkp2^tm1Sorembryos using fluorescence activated cell sorting of β-gal expressing cells (FACS-gal). Analysis of the purified cells by alkaline phosphatase staining and immunocytochemistry with anti-c-kitantibody demonstrated that highly (98%) purified PGCs can be isolated using this method. This technique will facilitate experiments that require highly purified preparations of PGCs including cell culture and gene expression analyses.     

Appearance of Primordial Germ Cells in Young Chick Blastoderms Cultured in vitro

Appearance of primordial germ cells (PGCs) in young chick blastoderms was investigated by the cultivation of only the epiblast or hypoblast. Presumptive PGCs exist in the epiblast before primitive-streak formation. They translocate gradually to the lower layer during early stages of primitive-streak formation, though substantial number of presumptive PGCs remain in the upper layer. The existing primary hypoblast under the epiblast is dispensable for the further differentiation of the PGCs.     

Purification of Mouse Primordial Germ Cells by MiniMACS Magnetic Separation System

During migration toward gonadal ridges, primordial germ cells (PGCs; the earliest identifiable germ cells in the embryo) are very few in number, move along different tissues, and are not identifiable by morphological criteria alone. Here we report the use of the magnetic cell sorter MiniMACS as a tool for the isolation of such rare cells from 10.5- to 13.5-days post coitum mouse embryos. Cells stained sequentially by TG-1 (a monoclonal IgM antibody known to bind to the surface of PGCs) and superparamagnetic microbeads coated with secondary anti-mouse IgM antibody were separated on a magnetic column. Unlabeled cells (somatic cells) pass through the column, while labeled cells (germ cells) are retained. The retained cells can be eventually easily eluted and immediately used for biochemical studies or grown in suitable in vitro culture systems.     

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。     

Licensing of Primordial Germ Cells for Gametogenesis Depends on Genital Ridge Signaling

In mouse embryos at mid-gestation, primordial germ cells (PGCs) undergo licensing to become gametogenesis-competent cells (GCCs), gaining the capacity for meiotic initiation and sexual differentiation. GCCs then initiate either oogenesis or spermatogenesis in response to gonadal cues. Germ cell licensing has been considered to be a cell-autonomous and gonad-independent event, based on observations that some PGCs, having migrated not to the gonad but to the adrenal gland, nonetheless enter meiosis in a time frame parallel to ovarian germ cells -- and do so regardless of the sex of the embryo. Here we test the hypothesis that germ cell licensing is cell-autonomous by examining the fate of PGCs in Gata4 conditional mutant (Gata4 cKO) mouse embryos. Gata4, which is expressed only in somatic cells, is known to be required for genital ridge initiation. PGCs in Gata4 cKO mutants migrated to the area where the genital ridge, the precursor of the gonad, would ordinarily be formed. However, these germ cells did not undergo licensing and instead retained characteristics of PGCs. Our results indicate that licensing is not purely cell-autonomous but is induced by the somatic genital ridge.     

革胡子鲇原生殖细胞和早期间质细胞主动迁移时的超微结构

用电镜观察了革胡子鲇原生殖细胞和早期间质细胞主动迁移时的超微结构．这两种细胞具有伪足,伪足内有线粒体．两种细胞周围的间质细胞的排列比较疏松．在这两种细胞主动迁移时,细胞周围的空隙内分布有丰富的纤维状的结构,这种纤维状结构与这两种细胞的主动迁移有密切的联系．     

Stage-Specific Roles for Tet1 and Tet2 in DNA Demethylation in Primordial Germ Cells

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Highlights? PGCs differentiated from ESCs undergo genome-wide DNA demethylation ? Tet1 and Tet2 do not regulate genome-wide DNA demethylation in PGCs ? Tet1 and Tet2 regulate locus-specific demethylation in PGCs     

A Critical Function of Mad2l2 in Primordial Germ Cell Development of Mice

The development of primordial germ cells (PGCs) involves several waves of epigenetic reprogramming. A major step is following specification and involves the transition from the stably suppressive histone modification H3K9me2 to the more flexible, still repressive H3K27me3, while PGCs are arrested in G2 phase of their cycle. The significance and underlying molecular mechanism of this transition were so far unknown. Here, we generated mutant mice for the Mad2l2 (Mad2B, Rev7) gene product, and found that they are infertile in both males and females. We demonstrated that Mad2l2 is essential for PGC, but not somatic development. PGCs were specified normally in Mad2l2^−/− embryos, but became eliminated by apoptosis during the subsequent phase of epigenetic reprogramming. A majority of knockout PGCs failed to arrest in the G2 phase, and did not switch from a H3K9me2 to a H3K27me3 configuration. By the analysis of transfected fibroblasts we found that the interaction of Mad2l2 with the histone methyltransferases G9a and GLP lead to a downregulation of H3K9me2. The inhibitory binding of Mad2l2 to Cyclin dependent kinase 1 (Cdk1) could arrest the cell cycle in the G2 phase, and also allowed another histone methyltransferase, Ezh2, to upregulate H3K27me3. Together, these results demonstrate the potential of Mad2l2 in the regulation of both cell cycle and the epigenetic status. The function of Mad2l2 is essential in PGCs, and thus of high relevance for fertility.     

维甲酸直接诱导鸡原始生殖细胞启动并完成减数分裂

维甲酸（RA）在胚胎期生殖细胞启动减数分裂过程中发挥重要的调控作用,但RA与性腺细胞的作用机制及其能否诱导生殖细胞完成整个减数分裂生成配子的问题尚不清楚.本文以鸡原始生殖细胞体外无饲养层培养体系为模型,避开性腺体细胞的影响,研究RA诱导PGC进入减数分裂的作用机理.研究发现,在无体细胞的情况下,RA显著上调鸡胚PGC中STRA8,SYCP3和DMC1的mRNA和蛋白表达水平,从而促进其进入减数分裂;同时,流式细胞分析和吉姆萨染色结果表明,RA能使鸡胚PGC经历各个减数分裂时期,最终生成36.5%～58.4%单倍体生殖细胞;此外,本实验还对雌性和雄性PGC对RA的应答能力进行了研究,发现两者对RA的敏感程度相似.综上所述,RA能直接诱导PGC启动并完成整个减数分裂过程,生成单倍体生殖细胞,无需体细胞或其他因子的介导.这为临床上治疗不孕不育及配子形成的机理研究提供了基础.     

Exposure to Endocrine Disruptor Induces Transgenerational Epigenetic Deregulation of MicroRNAs in Primordial Germ Cells

In mammals, germ cell differentiation is initiated in the Primordial Germ Cells (PGCs) during fetal development. Prenatal exposure to environmental toxicants such as endocrine disruptors may alter PGC differentiation, development of the male germline and induce transgenerational epigenetic disorders. The anti-androgenic compound vinclozolin represents a paradigmatic example of molecule causing transgenerational effects on germ cells. We performed prenatal exposure to vinclozolin in mice and analyzed the phenotypic and molecular changes in three successive generations. A reduction in the number of embryonic PGCs and increased rate of apoptotic cells along with decrease of fertility rate in adult males were observed in F1 to F3 generations. Blimp1 is a crucial regulator of PGC differentiation. We show that prenatal exposure to vinclozolin deregulates specific microRNAs in PGCs, such as miR-23b and miR-21, inducing disequilibrium in the Lin28/let-7/Blimp1 pathway in three successive generations of males. As determined by global maps of cytosine methylation, we found no evidence for prominent changes in DNA methylation in PGCs or mature sperm. Our data suggest that embryonic exposure to environmental endocrine disruptors induces transgenerational epigenetic deregulation of expression of microRNAs affecting key regulatory pathways of germ cells differentiation.     

Germline Gene Editing in Chickens by Efficient CRISPR-Mediated Homologous Recombination in Primordial Germ Cells

The CRISPR/Cas9 system has been applied in a large number of animal and plant species for genome editing. In chickens, CRISPR has been used to knockout genes in somatic tissues, but no CRISPR-mediated germline modification has yet been reported. Here we use CRISPR to target the chicken immunoglobulin heavy chain locus in primordial germ cells (PGCs) to produce transgenic progeny. Guide RNAs were co-transfected with a donor vector for homology-directed repair of the double-strand break, and clonal populations were selected. All of the resulting drug-resistant clones contained the correct targeting event. The targeted cells gave rise to healthy progeny containing the CRISPR-targeted locus. The results show that gene-edited chickens can be obtained by modifying PGCs in vitro with the CRISPR/Cas9 system, opening up many potential applications for efficient genetic modification in birds.