Perturbation of Notch/Suppressor of Hairless pathway disturbs migration of primordial germ cells in Xenopus embryo

Primordial germ cells (PGCs) in Xenopus embryo are specified in the endodermal cell mass and migrate dorsally toward the future gonads. The role of the signal mediated by Notch and Suppressor of Hairless [Su(H)] was analyzed on the migrating PGCs at the tailbud stage. X‐Notch‐1 and X‐Delta‐1 are expressed in the migrating PGCs and surrounding endodermal cells, whereas X‐Delta‐2 and X‐Serrate‐1 are expressed preferentially in the PGCs. Suppression and constitutive activation of the Notch/Su(H) signaling in the whole endoderm region or selectively in the PGCs resulted in an increase in ectopic PGCs located in lateral or ventral regions. Knocking down of the Notch ligands by morpholino oligonucleotides revealed that X‐Delta‐2 was indispensable for the correct PGC migration. The ectopic PGCs seemed to have lost their motility in the Notch/Su(H) signal‐manipulated embryos. Our results suggest that a cell‐to‐cell interaction via the Notch/Su(H) pathway has a significant role in the PGC migration by regulating cell motility.     

Mitochondrial trafficking through Rhot1 is involved in the aggregation of germinal granule components during primordial germ cell formation in Xenopus embryos

In many animals, the germ plasm is sufficient and necessary for primordial germ cell (PGC) formation. It contains germinal granules and abundant mitochondria (germline‐Mt). However, the role of germline‐Mt in germ cell formation remains poorly understood. In Xenopus, the germ plasm is distributed as many small islands at the vegetal pole, which gradually aggregates to form a single large mass in each of the four vegetal pole cells at the early blastula stage. Polymerized microtubules and the adapter protein kinesin are required for the aggregation of germ plasm. However, it remains unknown whether germline‐Mt trafficking is important for the cytoplasmic transport of germinal granules during germ plasm aggregation. In this study, we focused on the mitochondrial small GTPase protein Rhot1 to inhibit mitochondrial trafficking during the germ plasm aggregation. Expression of Rhot1ΔC, which lacks the C‐terminal mitochondrial transmembrane domain, inhibited the aggregation of germline‐Mt during early development. In Rhot1‐inhibited embryos, germinal granule components did not aggregate during cleavage stages, which reduced the number of PGCs on the genital ridge at tail‐bud stage. These results suggest that mitochondrial trafficking is involved in the aggregation of germinal granule components, which are essential for the formation of PGCs.     

Changes in the morphology of the germinal dense bodies in primordial germ cells of the teleost,Oryzias latipes

Summary In many organisms, the germinal dense bodies (GDBs) are known to be organelles unique to the cells of germ-line. In the present study, GDBs in primordial germ cells (PGCs) of the teleost, Oryzias latipes, were examined by electron microscopy. An obvious change was noticed in the morphology of GDBs. In PGCs situated in the endoderm, GDBs consisted of a loosely woven strand-like structure, whereas, GDBs in PGCs in the gonadal anlage, which were amorphous bodies of various sizes and shapes, were composed of electron-dense fine fibrils. The changes in the morphology of GDBs proceeded gradually according to the progress of the stages in migration of the PGCs. GDBs of intermediate morphology were found. The change in the morphology of the GDBs began at the stage of movement of the PGCs from endoderm to mesoderm. It is suggested that the differentiation of PGCs proceeds during their migratory stages under the influence of surrounding somatic cells.     

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。     

Primordial germ cell‐specific expression of eGFP in transgenic chickens

PR domain zinc finger protein 14 (PRDM14) plays an essential role in the development of primordial germ cells (PGCs) in mice. However, its functions in avian species remain unclear. In the present study, we used CRISPR/Cas9 to edit the PRDM14 locus in chickens in order to demonstrate its importance in development. The eGFP gene was introduced into the PRDM14 locus of cultured chicken PGCs to knockout PRDM14 and label PGCs. Chimeric chickens were established by a direct injection of eGFP knocked‐in (gene‐trapped) PGCs into the blood vessels of Hamburger–Hamilton stages (HH‐stages) 13–16 chicken embryos. Gene‐trapped chickens were established by crossing a chimeric chicken with a wild‐type hen with very high efficiency. Heterozygous gene‐trapped chickens grew normally and SSEA‐1‐positive cells expressed eGFP during HH‐stages 13–30. These results indicated the specific expression of eGFP within circulating PGCs and gonadal PGCs. At the blastodermal stage, the ratio of homozygous gene‐trapped embryos obtained by crossing heterozygous gene‐trapped roosters and hens was almost normal; however, all embryos died soon afterward, suggesting the important roles of PRDM14 in chicken early development.     

Actin‐dependent,Retrograde Motility of Surface‐attached Beads and Aggregating Pigment Granules in Dissociated Teleost Retinal Pigment Epithelial Cells

Teleost retinal pigment epithelial (RPE) cells contain pigment granules within apical projections which undergo actin‐dependent, bi‐directional motility. Dissociated RPE cells in culture attach to the substrate and extend apical projections in a radial array from the central cell body. Pigment granules within projections can be triggered to aggregate or disperse by the presence or absence of 1 mM cAMP. Aminated, fluorescent latex beads attached to the dorsal surface of apical projections and moved in the retrograde direction, towards the cell body. Bead rates on RPE cells with aggregating or fully aggregated pigment granules were 2.2 ± 0.5 and 2.6 ± 0.2 μm/min (mean ± SEM), respectively, similar to rates of aggregating (retrograde) pigment granule movement (2.0 ± 0.4 μm/min). Bead rates were slightly slower on cells with fully dispersed or dispersing pigment granules (1.5 ± 0.1 and 1.5 ± 0.4 μm/min). Movements of surface‐attached beads and aggregating pigment granules were closely correlated in the distal portions of apical projections, but were more independent of each other in proximal regions of the projections. The actin disrupting drug, cytochalasin D (CD), reversibly halted retrograde bead movements, suggesting that motility of surface‐attached particles is actin‐dependent. In contrast, the microtubule depolymerizing drug, nocodazole, had no effect on retrograde bead motility. The similar characteristics and actin‐dependence of retrograde bead movements and aggregating pigment granules suggest a correlation between these two processes.     

A novel function for KIF13B in germ cell migration

Primordial germ cell (PGC) development in Xenopus embryos relies on localised maternal determinants. We report on the identification and functional characterisation of such one novel activity, a germ plasm associated mRNA encoding for the Xenopus version of a kinesin termed KIF13B. Modulations of xKIF13B function result in germ cell mismigration and in reduced numbers of such cells. PGCs explanted from Xenopus embryos form bleb-like protrusions enriched in PIP3. Knockdown of xKIF13B results in inhibition of blebbing and PIP3 accumulation. Interference with PIP3 synthesis leads to PGC mismigration in vivo and in vitro. We propose that xKIF13B function is linked to polarized accumulation of PIP3 and directional migration of the PGCs in Xenopus embryos.     

Cell‐autonomous signal transduction in the Xenopus egg Wnt/β‐catenin pathway

Wnt proteins are thought to bind to their receptors on the cell surfaces of neighboring cells. Wnt8 likely substitutes for the dorsal determinants in Xenopus embryos to dorsalize early embryos via the Wnt/β‐catenin pathway. Here, we show that Wnt8 can dorsalize Xenopus embryos working cell autonomously. Wnt8 mRNA was injected into a cleavage‐stage blastomere, and the subcellular distribution of Wnt8 protein was analyzed. Wnt8 protein was predominantly found in the endoplasmic reticulum (ER) and resided at the periphery of the cells; however, this protein was restricted to the mRNA‐injected cellular region as shown by lineage tracing. A mutant Wnt8 that contained an ER retention signal (Wnt8‐KDEL) could dorsalize Xenopus embryos. Finally, Wnt8‐induced dorsalization occurred only in cells injected with Wnt8 mRNA. These experiments suggest that the Wnt8 protein acts within the cell, likely in the ER or on the cell surface in an autocrine manner for dorsalization.     

Sirtuin inhibitor Ex‐527 causes neural tube defects,ventral edema formations,and gastrointestinal malformations in Xenopus laevis embryos

Chemical reagent Ex‐527 is widely used as a major inhibitor of Sirtuin enzymes, which are a family of highly conserved protein deacetylases and have been linked with caloric restriction and aging by modulating energy metabolism, genomic stability, and stress resistance. However, the extent to which Ex‐527 controls early developmental events of vertebrate embryos remains to be understood. Here, we report an examination of Ex‐527 effects during Xenopus early development, followed by a confirmation of expressions of xSirt1 and xSirt2 in embryonic stages and enhancement of acetylation by Ex‐527. First, we found that reductions in size of neural plate at neurula stages were induced by Ex‐527 treatment. Second, tadpoles with short body length and large edematous swellings in the ventral side were frequently observed. Moreover, Ex‐527‐treated embryos showed severe gastrointestinal malformations in late tadpole stages. Taken together with these results, we conclude that the Sirtuin family start functioning at early embryonic stages and is required for various developmental events.     

Comprehensive Research on Essential Oil and Phenolic Variation in Different Foeniculum vulgare Populations During Transition from Vegetative to Reproductive Stage

Chemical composition and antioxidant activity of four fennel populations (England, Spain, Poland and Iran) were investigated during six developmental stages including two vegetative and four reproductive phases. In reproductive phase, the essential oil content of fruits decreased and the maximum content (5.9%) was obtained in immediate fruits. The essential oils were analyzed using GC/MS. trans‐Anethole was the main component of the leaves and the fruits oil. In leaves, it ranged from 41.28% in England at late vegetative stage to 56.6% in Poland population at early vegetative stage. Other major compounds of leaves were limonene, α‐pinene and (Z)‐β‐ocimene. In reproductive phases the trans‐anethole increased dramatically. It varied from 85.25% in immature fruits from Poland to 90.7% in pre‐mature stage from Spain. The highest phenolic content in the extracts at different growth stages obtained 189 mg TAE/g DW at full mature stage of seed in Iran population. The flavonoid of leaves extract ranged from 3 to 7.5 mg QUE/g DW, while in fruits extract varied from 3 to 10.3 mg QUE/g DW. Antioxidant activity of the extracts was evaluated using 1,1‐diphenyl‐2‐picrylhydrazy (DPPH) and β‐carotene model systems. Immature and full mature growth stages of fennel population from Spain indicated the highest activity in quenching of DPPH radical (74.2% and 74.5, respectively). Antioxidant activities of the extracts had high positive correlation with their phenolic contents in all fruit maturity stages. Finally, it might probably be suggested that in fennel the hot and humid condition can lead to increase trans‐anethole, while the hot and dry one can produce higher amount of phenolics and flavonoids.     

Initiation of DNA replication in Saccharomyces cerevisiae G1‐phase nuclei by Xenopus egg extract

Xenopus egg extracts initiate replication at specific origin sites within mammalian G1‐phase nuclei. Similarly, S‐phase extracts from Saccharomyces cerevisiae initiate DNA replication within yeast nuclei at specific yeast origin sequences. Here we show that Xenopus egg extracts can initiate DNA replication within G1‐phase yeast nuclei but do not recognize yeast origin sequences. When G1‐phase yeast nuclei were introduced into Xenopus egg extract, semiconservative, aphidicolin‐sensitive DNA synthesis was induced after a brief lag period and was restricted to a single round of replication. The specificity of initiation within the yeast 2 μm plasmid as well as in the vicinity of the chromosomal origin ARS1 was evaluated by neutral two‐dimensional gel electrophoresis of replication intermediates. At both locations, replication was found to initiate outside of the ARS element. Manipulation of both cis‐ and trans‐acting elements in the yeast genome before introduction of nuclei into Xenopus egg extract may provide a system with which to elucidate the requirements for vertebrate origin recognition. J. Cell. Biochem. 80:73–84, 2000. © 2000 Wiley‐Liss, Inc.     

Chemical Composition,Antioxidant and Anti‐melanogenic Activities of Essential Oils from Chrysanthemum boreale Makino at Different Harvesting Stages

In the present study, the chemical compositions and skin whitening‐related antioxidant and anti‐melanogenic effect of essential oils (EOs) extracted from Chrysanthemum borealeMakino (CBM) (CBMEOs) at vegetative, pre‐flowering and full‐flowering are investigated and contrasted among the three stages. The yields and components of the CBMEOs were different at each stage. The CBMEOs increased DPPH and ABTs scavenging activities and attenuated the α‐melanocyte stimulating hormone (α‐MSH)‐induced tyrosinase activity and melanin synthesis in B16BL6 cells. Among CBMEO components, eugenol had the highest DPPH and ABTs scavenging activities and cuminaldehyde was the strongest inhibitor of α‐MSH‐induced tyrosinase activity and melanin synthesis. The CBMEOs in each stage showed the different levels of phosphorylation of extracellular signal‐regulated kinase1/2 and p38 MAPK. These findings demonstrate that the CBMEOs have antioxidative and anti‐melanogenic activities in all the CBM harvesting stages, resulting in skin‐whitening biological activities and that the levels of their component contents and bioactivities differ among the CBM harvesting stages. The CBMEOs may have the potential for use in cosmetics and alternative medicine.     

Serotonin and MucXS release by small secretory cells depend on Xpod,a SSC specific marker gene

Mucus secretion and ciliary motility are hallmarks for muco‐ciliary epithelia (MCE). Both, mammalian airways as well as the less complex epidermis of Xenopus embryos show cilia‐driven mucus flow to protect the organism against harmful effects by exogenous pathogens or pollutants. Four cell types set up the epidermal MCE in Xenopus. Multi‐ciliated cells (MCCs) generate an anterior to posterior flow of mucus. Ion secreting cells (ISCs) are characterized by the expression of ion transporters, presumably to maintain a favorable homeostasis. The largest cell type is represented by goblet cells, which cover most of the epidermis and exhibit secretory properties. Additionally, small secretory cells (SSCs) release mucus, antibiotic compounds, and the monoamine serotonin (5‐hydroxytryptamine; 5‐HT). We have recently shown that serotonin regulates flow velocity by acting on ciliary beat frequency. Here, we describe the identification and functional characterization of Xenopus polka‐dots (Xpod). No homologous genes or proteins were found in other vertebrates, including Xenopus tropicalis. We demonstrate that Xpod serves as an SSC‐specific marker, starting to be expressed shortly after SSC specification at neurula stages. Overexpression of a tagged Xpod protein resulted in the localization of secretory granules. Notch signaling induced SSC cell fate, in contrast to its repressing effect on MCC and ISC specification. Xpod loss‐of‐function revealed that mucus and 5‐HT release by SSCs was severely diminished, which impaired the ciliary beating of MCCs. In summary, Xpod specifically marked SSCs and was required for muco‐ciliary secretion in Xenopus laevis.     

Segregation of primordial germ cells: Their numbers and fate during early development of Barbus conchonius (Cyprinidae,Teleostei) as indicated by 3H-thymidine incorporation

³H-Thymidine incorporation experiments in Barbus conchonius showed that presumptive primordial germ cells (PGCs) terminated their mitotic activity between midepibolys, and late epiboly. At the ten-somite stage, shortly after labeling of PGCs by uptake of ³H-thymidine became arrested, they could be recognized by their relatively large size and large nucleus. They were located in two longitudinal rows of cells between mesoderm and periblast, always at the same distance to the left and right of the notochord. Contact with the endoderm was not observed before the 16- to 23-somite stage. The numbers of PGCs were small (mean number, 18–19) and remained small for nearly 3 weeks. Mitotic activity was not observed in PGCs during that period; thereafter, rapid proliferation began. There is no evidence for active migration of PGCs; it is assumed that they are merely translocated passively together with their surrounding tissues. No specific constituents were detected with histochemical methods for glycogen, alkaline phosphatase, and RNA. Electron microscopy revealed the presence of “nuage” around the nucleus of PGCs. This material corresponded with perinuclear dense bodies as seen with light microscopy from the 19-somite stage onward. It is concluded that presumptive PGCs segregate from the somatic cells between midepiboly and late epiboly, before the three germ layers have been formed, and that locations of PGCs in the endodermal or mesodermal layer may be merely transitory stages during their translocation toward the gonadal primordia.     

Influence of cortisol along the pituitary‐ovary axis in the cichlid fish Oreochromis mossambicus

Cortisol is the principal glucocorticoid released due to various forms of environmental as well as aquacultural stressors in fish. The aim of the present investigation was to determine cortisol‐induced alterations along the luteinizing hormone (LH)‐secreting cells–ovary axis in the tilapia Oreochromis mossambicus. Administration of cortisol to stripped O. mossambicus for a period of 22 days during the ovarian cycle caused significantly higher number of follicles with chromatin nucleoli (stage I) compared to those of initial controls and controls. Whereas the number of follicles at perinucleolar (stage II) and vitellogenic (stage IV) stages did not differ significantly between controls and cortisol‐treated fish, the number of follicles at cortical alveolar stage (stage III) was significantly lower in cortisol‐treated fish than in controls. While the stage V follicles (maturation stage) were absent in initial controls, their presence in controls was concomitant with intensely labelled LH‐secreting cells in the proximal pars distalis (PPD) region of the pituitary gland during prespawning phase. However, cortisol‐treatment resulted in complete absence of stage V follicles associated with weakly immunoreactive LH‐content in the PPD region of the pituitary gland during prespawning phase. These results suggest that chronic cortisol‐ treatment causes suppression of LH‐secreting cells activity and blocks progression of vitellogenic follicular development process in O. mossambicus.     

Mg2+-ATPase activity in the rat testis and its correlation with the stages of spermatogenesis: a histochemical study

Summary The activity of Mg²⁺-activated ATPase was studied in the rat testis employing histochemical and microphotometrical methods. The enzymatic activity could be correlated with the stages of spermatogenesis. From stage XII onwards, the elongated spermatids showed a weak to moderate activity, which increased from the acrosomal phase to the, maturation phase. The reaction product was located in the mid-piece and tail piece of elongated spermatids with a maximum intensity at stage VIII. Morphometric analysis revealed six distinct patterns, which could be correlated with the stages of spermatogenesis.