Isolation of mouse primordial germ cells

Primordial germ cells (PGCs) were obtained from fetal mouse gonads of both sexes days post coitum (dpc), either by collagenase treatment, or by mechanical procedures with or without prior EDTA treatment. With mechanical procedures alone, yield was relatively low and many of the cells released were dead. After EDTA treatment, both yield and viability were significantly improved. Collagenase treatment gave the best yield of cells, since the entire gonad was disaggregated, but contamination with somatic cells was substantial, and the adhesive properties of the germ cells were altered by the treatment. When cells released following EDTA treatment were fractionated on a simple Percoll gradient, several thousand viable PGCs per gonad could be obtained in 2–3 h, with not more than 10–20% somatic cell contamination.     

A germ cell-specific gene, Prmt5, works in somatic cell reprogramming

Germ cells possess the unique ability to acquire totipotency during development in vivo as well as give rise to pluripotent stem cells under the appropriate conditions in vitro. Recent studies in which somatic cells were experimentally converted into pluripotent stem cells revealed that genes expressed in primordial germ cells (PGCs), such as Oct3/4, Sox2, and Lin28, are involved in this reprogramming. These findings suggest that PGCs may be useful for identifying factors that successfully and efficiently reprogram somatic cells into toti- and/or pluripotent stem cells. Here, we show that Blimp-1, Prdm14, and Prmt5, each of which is crucial for PGC development, have the potential to reprogram somatic cells into pluripotent stem cells. Among them, Prmt5 exhibited remarkable reprogramming of mouse embryonic fibroblasts into which Prmt5, Klf4, and Oct3/4 were introduced. The resulting cells exhibited pluripotent gene expression, teratoma formation, and germline transmission in chimeric mice, all of which were indistinguishable from those induced with embryonic stem cells. These data indicate that some of the factors that play essential roles in germ cell development are also active in somatic cell reprogramming.     

Transfer of blood containing primordial germ cells between chicken eggs development of embryonic reproductive tract

The present study was carried out to investigate development of recipient chicken embryonic reproductive tracts which are transferred chicken primordial germ cells (PGCs). It is thought that differentiation of PGCs is affected by the gonadal somatic cells. When female PGCs are transferred to male embryos, it is possible that they differentiate to W-spermatogonia. However, the relationship development between PGCs and gonads has not been investigated. At stage 12–15 of incubation of fertilized eggs, donor PGCs, which were taken from the blood vessels of donor embryos, were injected into the blood vessels of recipient embryos. The gonads were removed from embryos that died after 16 days of incubation and from newly hatched chickens and organs were examined for morphological and histological features. The survival rate of the treated embryos was 13.6% for homo-sexual transfer of PGCs (male PGCs to male embryo or female PGCs to female embryo) and 28.9% for hetero-sexual transfer PGCs (male PGCs to female embryo or female PGCs to male embryo) when determined at 15 days of incubation. The gonads of embryos arising from homo-sexual transfer appeared to develop normally. In contrast, embryos derived from hetero-sexual transfer of PGCs had abnormal gonads as assessed by histological observation. These results suggest that hetero-sexual transfer of PGCs may influence gonadal development early-stage embryos.     

Restriction of proliferation of primordial germ cells by the irradiation of Japanese quail embryos with soft X-rays.

Primordial germ cells (PGCs) are the progenitor cells for the gametes. Avian PGCs are located in the central region of the area pellucida at the blastoderm stage. Shortly after further incubation, they migrate to the extra-embryonic germinal crescent, and then as soon as the blood vessels form, they enter the circulation and finally settle in the gonadal primordium. We have developed a simple method using soft X-ray irradiation (18 kV power, 20 cm distance) to reduce the number of PGCs in Japanese quail embryos, which should be useful in preparing recipient embryos for PGC-transfer studies. When embryos were exposed to the soft X-rays for 40 s before incubation, the concentration of circulating PGCs was less than one-fifth that in controls after 2 days of incubation. Embryos at day 6 of incubation contained approximately half the number of PGCs compared to controls when they were exposed before or at day 2 of incubation. Irradiation for 40 s is recommended taking into consideration the restriction of proliferation of PGCs, and viability and hatchability.     

Expression and knockdown analysis of glucose phosphate isomerase in chicken primordial germ cells

Glucose is an important monosaccharide required to generate energy in all cells. After entry into cells, glucose is phosphorylated to glucose-6-phosphate and then transformed into glycogen or metabolized to produce energy. Glucose phosphate isomerase (GPI) catalyzes the reversible isomerization of glucose-6-phosphate and fructose-6-phosphate. Without GPI activity or fructose-6-phosphate, many steps of glucose metabolism would not occur. The requirement for GPI activity for normal functioning of primordial germ cells (PGCs) needs to be identified. In this study, we first examined the expression of chicken GPI during early embryonic development and germ cell development. GPI expression was strongly and ubiquitously detected in chicken early embryos and embryonic tissues at Embryonic Day 6.5 (E6.5). Continuous GPI expression was detected in PGCs and germ cells of both sexes during gonadal development. Specifically, GPI expression was stronger in male germ cells than in female germ cells during embryonic development and the majority of post-hatching development. Then, we used siRNA-1499 to knock down GPI expression in PGCs. siRNA-1499 caused an 85% knockdown in GPI, and PGC proliferation was also affected 48 h after transfection. We further examined the knockdown effects on 28 genes related to the glycolysis/gluconeogenesis pathway and the endogenous glucose level in chicken PGCs. Among genes related to glycolysis/gluconeogenesis, 20 genes showed approximately 3-fold lower expression, 4 showed approximately 10-fold lower, and 2 showed approximately 100-fold lower expression in knockdown PGCs. The endogenous glucose level was significantly reduced in knockdown PGCs. We conclude that the GPI gene is crucial for maintaining glycolysis and supplying energy to developing PGCs.     

A study on cell lineage,especially the germ cell line,in embryos of the teleost fish,Barbus conchonius

Summary Lucifer Yellow-Dextran labelling of lower layer cells (LLC), sometimes together with upper layer cells (ULC), of the 64-cellBarbus conchonius embryo resulted in labelled primordial germ cells (PGCs) at 12 h after fertilization (a.f.) in about 25% of cases. The presence of labelled PGCs was independent of the location of the injected blastomere with respect to the later orientation of the embryonic axis. After injection of an ULC alone, however, labelled PGCs were never found. Also, the distribution of labelled somatic cells differed between the ULC- and LLC-injected embryos. When we found fluorescent PGCs, only a few of them were labelled, suggesting that either a single predecessor exists earlier than the 64-cell stage or that the formation of germ cells is a polyclonal process. Tracing the fluorescent cells at successive stages of development shows an extensive mixing with unlabelled cells during the epiboly stage, which might well be the cause of partly unpredictable cell lineages. The chance of being committed to a specific fate is different for the ULC and LLC descendants. This might be due to relatively limited cell mixing between these two cell populations.     

Insulin action in isolated fat cells. I. Effects of divalent cations on the stimulation by insulin of glucose uptake.

The effects of divalent cations, in particular Ca2+ and Mg2+, on glucose uptake by rat isolated fat cells in the presence and absence of insulin have been studied. EDTA (disodium salt) was used to deplete the bovine serum albumin present in the incubation medium of endogenous divalent cations prior to incubation with the cells, but was not present in the incubation medium during the incubation of the cells. The removal of Ca2+ and Mg2+ from the incubation medium did not affect the basal glucose uptake, but abolished the ability of insulin to stimulate glucose uptake by the cells. Addition of 25 microM MgCl2 or CaCl2 to the incubation medium restored a significant insulin stimulation, and this stimulation was maximal when 0.1 mM MgCl2 or CaCl2 had been added. SrCl2 and BaCl2 were also effective in restoring the insulin stimulation, but did not substitute fully for Ca2+ and Mg2+ in the incubation medium. Possible explanation for these observations are discussed.     

Analysis of germ line development in the chick embryo using an anti-mouse EC cell antibody

We have found that EMA-1, a monoclonal antibody originally raised against mouse embryonal carcinoma (Nulli SCC1) cells (Hahnel & Eddy, 1982), also labels chick primordial germ cells (PGCs). We have used this antibody in immunohistological studies to follow the development of PGCs in the chick embryo from the time of their initial appearance beneath the epiblast, through their migratory phase and subsequent colonization of the germinal epithelium. During hypoblast formation, individual EMA-1-labelled cells appeared to separate from the basal surface of the epiblast and enter the blastocoel, coincident with the appearance of morphologically identifiable PGCs in this same area. EMA-1 continued to label germ cells until the initiation of gametogenesis in each sex; specifically, labelling was absent by 7-8 days of incubation in females and started to decrease at 11 days of incubation in males. There was a recurrence of the epitope on oogonia at 15 days of incubation, but not on spermatogonia during the remainder of development through hatching. These observations are consistent with an epiblast origin for the avian germ line, and are strikingly similar to those reported for the early mouse embryo using the same antibody (Hahnel & Eddy, 1986).     

Endotoxin increases hepatic susceptibility to lipid peroxidation: a possible role of iron

The purpose of this study was to investigate the possible mechanism by which endotoxin enhances peroxidative damage to membrane lipids. Male B6C3 mice were treated with endotoxin intraperitoneally 0 or 20 mg/kg body weight for 24 h. Freshly prepared liver homogenate was incubated with either 1-5 mM of reduced glutathione (GSH), glucose, H(2)O(2), ascorbic acid (AA), FeSO(4), FeCl(3), EDTA, FeCl(3) plus AA, AA plus EDTA or EDTA plus FeCl(3) in phosphate-buffered saline (PBS), pH 7.0, or PBS, at 37 degrees C for 60 min. The levels of lipid peroxidation products, thiobarbituric acid reactants (TBAR), were significantly higher in the liver of endotoxin-treated mice, and the values were markedly increased following incubation. Compared to PBS, incubation with H(2)O(2), FeCl(3), FeSO(4), and AA, but not glucose, significantly enhanced TBAR formation. The greatest increase of TBAR was found when AA and FeCl(3) were added together. On the other hand, EDTA and GSH inhibited the formation of TBAR during incubation. When added before AA, EDTA completely inhibited the peroxidative effect of AA or FeSO4, and when added subsequent to AA, EDTA partially prevented the adverse effect of AA. The results obtained suggest that ionic iron plays an important role in initiating endotoxin-induced peroxidative damage to membrane lipids, and that AA may be involved in releasing iron from its protein complex and/or maintaining ionic iron in a reduced or catalytic state.     

Primordial germ cell migration in the chick and mouse embryo: the role of the chemokine SDF-1/CXCL12

As in many other animals, the primordial germ cells (PGCs) in avian and reptile embryos are specified in positions distinct from the positions where they differentiate into sperm and egg. Unlike in other organism however, in these embryos, the PGCs use the vascular system as a vehicle to transport them to the region of the gonad where they exit the blood vessels and reach their target. To determine the molecular mechanisms governing PGC migration in these species, we have investigated the role of the chemokine stromal cell-derived factor-1 (SDF-1/CXCL12) in guiding the cells towards their target in the chick embryo. We show that sdf-1 mRNA is expressed in locations where PGCs are found and towards which they migrate at the time they leave the blood vessels. Ectopically expressed chicken SDF-1alpha led to accumulation of PGCs at those positions. This analysis, as well as analysis of gene expression and PGC behavior in the mouse embryo, suggest that in both organisms, SDF-1 functions during the second phase of PGC migration, and not at earlier phases. These findings suggest that SDF-1 is required for the PGCs to execute the final migration steps as they transmigrate through the blood vessel endothelium of the chick or the gut epithelium of the mouse.     

Detection and characterization of primordial germ cells in pheasant (Phasianus colchicus) embryos

The developmental similarity between the chicken and pheasant (Phasianus colchicus) allows the novel biotechnologies developed in the chicken to be applied to the production of transgenic pheasants and interspecies germline chimeras. To detect pheasant primordial germ cells (PGCs) efficiently, which is important for inducing germline transmission, the ultrastructure of PGCs and their reactivity to several antibodies (2C9, QB2, anti-SSEA-1, and QCR1) and periodic acid-Schiff's solution (PAS) were examined. To obtain PGCs, blood was taken from embryos incubated for 62-72 h or from gonads from embryos incubated for 156-216 h. The PGCs collected from both sources had the typical ultrastructure of pluripotent cells: a large nucleus with a distinct nucleolus, a high ratio of nuclear to cytoplasmic volume, and a distinct cytoplasmic membrane. In comparing the morphology of PGCs collected from different sites, more mitochondria and better-developed membrane microvilli were found in gonadal PGCs than in circulating PGCs. The nucleus of gonadal PGCs was flattened and had a large eccentrically positioned nucleolus. Of the antibodies tested, only QCR1 antibody reacted with an epitope in pheasant PGCs, and no specific signal was detected to other antibodies. The temporal change in the PGC populations in the blood and gonads of embryos was examined. In blood, the population was greater (P < 0.0001) in embryos incubated for 64 h than in embryos incubated for 62 or 66-72 h (31.4 versus 5.6-16.2 microL(-1)). In embryonic gonads, the number of PGCs increased continuously from 156 to 216 h of incubation (193-2,718 cells/embryo), although the ratio of PGCs to total gonadal cells did not change significantly (0.50-0.61%). In conclusion, pheasant PGCs have typical germ cell morphology and possess the QCR1 epitope. Circulating blood and the gonads of embryos incubated for 64 and 216 h, respectively, are good sources of PGCs.     

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。     

Primordial germ cell development in cultures of dispersed central disks of stage X chick blastoderms

Central disk fragments cut from stage X chick blastoderms were dispersed and cultured on glass coverslips. After 48 hr of incubation the cultures showed various degrees of organization into three-layered aggregates in which no axis development was observed. Primordial germ cells (PGCs) were detected in ail cultures. The number of PGCs was found to be correlated to the initial cell concentration in the suspension. By regression analysis it was found that in cultures initiated from 10 central disks or more, the mean number of PGCs per fragment was constant and matched the number of PGCs found for intact control central disks incubated for the same length of time. It appears that in cultures of stage X, the morphologic expression of PGCs is related to the level of differentiation and organization of the somatic cells in the culture, which, in turn, is dependent on the initial concentration of cells in the culture.     

Insulin-like growth factor receptor 1b is required for zebrafish primordial germ cell migration and survival

Insulin-like growth factor (IGF) signaling is a critical regulator of somatic growth during fetal and adult development, primarily through its stimulatory effects on cell proliferation and survival. IGF signaling is also required for development of the reproductive system, although its precise role in this regard remains unclear. We have hypothesized that IGF signaling is required for embryonic germline development, which requires the specification and proliferation of primordial germ cells (PGCs) in an extragonadal location, followed by directed migration to the genital ridges. We tested this hypothesis using loss-of-function studies in the zebrafish embryo, which possesses two functional copies of the Type-1 IGF receptor gene (igf1ra, igf1rb). Knockdown of IGF1Rb by morpholino oligonucleotides (MO) results in mismigration and elimination of primordial germ cells (PGCs), resulting in fewer PGCs colonizing the genital ridges. In contrast, knockdown of IGF1Ra has no effect on PGC migration or number despite inducing widespread somatic cell apoptosis. Ablation of both receptors, using combined MO injections or overexpression of a dominant-negative IGF1R, yields embryos with a PGC-deficient phenotype similar to IGF1Rb knockdown. TUNEL analyses revealed that mismigrated PGCs in IGF1Rb-deficient embryos are eliminated by apoptosis; overexpression of an antiapoptotic gene (Bcl2l) rescues ectopic PGCs from apoptosis but fails to rescue migration defects. Lastly, we show that suppression of IGF signaling leads to quantitative changes in the expression of genes encoding CXCL-family chemokine ligands and receptors involved in PGC migration. Collectively, these data suggest a novel role for IGF signaling in early germline development, potentially via cross-talk with chemokine signaling pathways.     

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。     

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。     

Activation of protein kinases A and C promoted proliferation of chicken primordial germ cells

Many growth factors or cytokines regulate cell proliferation via different intracellular signaling pathways. The mechanisms remained quite unclear in avian primordial germ cells (PGCs). In the present study, two major protein kinases, PKA and PKC, were investigated to be involved in signal transduction of PGC proliferation. PGCs were isolated from genital ridge of 3.5-day chicken embryos and primary culture was performed with 5% fetal calf serum (FCS)-supplemented medium 199. After culture for 24 h, PGCs were subcultured on chicken embryonic fibroblast feeder (CEF) and the cells were characterized by histochemical stainings of alkaline phosphatase (ALP) and periodic acid-Schiff (PAS) reagent as well as immunocytochemical stainings of c-kit and stage-specific embryonic antigen-1 (SSEA-I). In addition, cells were challenged with adenylate cyclase activator forskolin (FRSK) and PKC activator phorbol-12-myristate-13-acetate (PMA) alone or in combinations with PKA inhibitor H(89) and PKC inhibitor H(7), respectively. Results showed that subcultured PGCs on CEF displayed positive histochemical and immunocytochemical stainings for ALP, PAS, c-kit and SSEA-I and manifested intensive proliferating activity by colony formation. Downstream activation of PKA by FRSK (10(-7) to 10(-5)M) significantly promoted the proliferation of PGCs by increasing colony number (ALP-stained) in a dose-dependant manner. PMA (10(-8)M) also increased PGC colony number (P<0.05). However, the proliferating effects elicited by FRSK or PMA could be inhibited by the respective protein kinase inhibitor H(89) or H(7). Therefore, the above results suggest that activation of intracellular protein kinases A and C by external factors may promote proliferation of cultured PGCs and PKA represents the most likely mediator of PGC proliferation in embryonic chickens.     

Adhesion to extracellular materials by neural crest cells at the stage of initial migration

Summary Trunk-level neural anlagen bearing neural crest cells at the stage of initiation of migration were isolated from chick embryos and explanted in serum-free medium onto glass substrates which had previously been treated with extracellular materials. After 0.5–2 h incubation, the expiants were dislodged with a stream of culture medium and the substrate examined for adherent crest cells. Crest cells adhered to collagen gels, and adhered to and spread on adsorbed fibronectin; antiserum to fibronectin prevented adhesion to fibronectin but not to collagen gels. Air-dried collagen gels and collagen solutions were less adhesive, the adhesivity declining with longer drying time and lower collagen concentration. Crest cells adhered poorly to dried gelatin and not at all to adsorbed collagen. Fibronectin increased the adhesion to dried collagen and gelatin. Pretreatment of collagen gels with hyaluronate retarded adhesion. Hyaluronate pretreatment also retarded adhesion to adsorbed fibronectin but only when adsorbed collagen was also present. Pretreatment of collagen gels with the proteoglycan monomer from bovine nasal cartilage had no effect of the adhesion of crest cells, but the proteoglycan almost completely inhibited adhesion to adsorbed fibronectin, but only when absorbed collagen was also present. The results are discussed in terms of the control of migration of neural crest cells by extracellular materials.