Activin-treated ectoderm has complete organizing center activity in Cynops embryos

The differentiation and organizer activity of newt ectoderm treated with activin A was studied in explantation and transplantation experiments. In the explantation experiments, ectoderm dissected from late morulae–early gastrulae stage embryos treated with a high concentration of activin A (100 ng/mL) formed only yolk-rich endodermal cells. Mesodermal tissues, such as notochord and muscle, were seldom found in these explants. When they were transplanted into the blastocoele of other early gastrulae, they formed part of the endoderm of the host embryo and induced a secondary axis with only posterior characters (including axial mesoderm and neural tissues). In contrast, whole secondary axes were induced when activin-treated ectoderm was transplanted into the ventral marginal zone (VMZ) of early blastulae. The transplanted pieces invaginated by themselves and differentiated into foregut structures including pharynx, stomach, and liver. These phenomena were also observed in experiments in which presumptive foregut was used instead of activin-treated ectoderm. These findings show that activin-treated ectoderm can act as the complete organizing center in Cynops .     

Differential expression of annexin V during spermatogenesis in the newt Cynops pyrrhogaster

 In order to isolate genes whose expression is up-regulated after the initiation of meiosis, we screened a cDNA expression library of newt testes with antiserum against homogenates of testes derived from the spermatogonial and spermatocyte stages. We report the isolation of spermatocyte-specific cDNA clones encoding a newt homologue of the calcium-dependent phospholipid-binding protein, annexin V. Northern blot analysis showed that newt annexin V mRNA was 1.7 kb in length and was expressed strongly in testes, but weakly in other organs. In situ hybridization revealed that the expression of newt annexin mRNA was barely observed in spermatogonia, but increased significantly in leptotene-zygotene primary spermatocytes and reached a maximum level in pachytene spermatocytes and round spermatids. The newt annexin V cDNA predicted a 323-amino acid protein and had a 68% homology to human annexin V. The predicted amino acid sequence contained a conserved 4-fold internal repeat of approximately 70 residues like other annexin proteins. Immunoblot analysis using the monoclonal antibody against newt annexin V showed that the protein was expressed scarcely in spermatogonia but was abundantly expressed in stages from primary spermatocytes to spermatids; this pattern was consistent to that of the mRNA. Immunohistochemical analysis revealed that newt annexin V was localized in the cytoplasm of the spermatogenic cells, but not in somatic cells such as Sertoli cells or pericystic cells. These results indicate that the expression of newt annexin V is up-regulated in the spermatogenic cells after the initiation of meiosis and suggest that newt annexin V plays an important role in spermatogenesis. Received: 8 December 1995 / Accepted: 12 February 1996 Edited by H. Shimada/D. Tautz     

Generation of transgenic newt Cynops pyrrhogaster for regeneration study

To take advantage of the ample potential for tissue regeneration by the newt, a technique to create transgenic newt was developed. The technique was based on a procedure for producing transgenic Xenopus, but modified to adapt to the different sperm morphology and to overcome the refractoriness of newt eggs to activation by normal cleavage. Sperm was collected from mature testes early in winter, permeabilized with digitonin, but without treatment of egg extract. Efficient egg activation was achieved by coinjection of inositol 1,4,5-trisphosphate (IP3) with DNA-sperm nucleus complex. Transgenic Cynops for EGFP/DsRed2 genes under the control of cytomegalovirus (CMV) enhancer/promoter showed nonmosaic widespread expression of reporter genes in embryos, swimming larvae, and adults after metamorphosis. Transgenic newt carrying EGFP gene under regulation of betaB1-crystallin promoter expressed the transgene uniquely in the lens. During lens regeneration after lens removal, EGFP expression occurred, reflecting the lens regeneration process. The newt transgenesis technique described here is likely to be of wide use in monitoring and manipulating gene expression in the study of molecular mechanisms underlying tissue regeneration.     

Studies on the formation and state of determination of the trunk organizer in the newt,Cynops pyrrhogaster

Summary The exact localization of the presumptive trunk organizer was determined by means of vital staining at the initiation of gastrulation (0 h embryo) and subsequently in 6, 9, 12 and 24 h embryos.The progressive changes in the self-differentiation and inductive capacity of the trunk organizer were studied in isolation cultures (sitting drop) and in sandwich cultures with competent gastrula ectoderm. In the 0 and 6 h embryo cultures the excised trunk organizer predominantly formed atypical ectoderm. A dramatic change in differentiation and inductive capacity occurred in the 9 h embryo. The positive cases — 83% of the isolation and 50% of the sandwich cultures — mainly formed notochord and somites, accompanied by spinal cord and hindbrain in the sandwich cultures. Although no further change in self-differentiation occurred from that time onwards, a gradual increase in inductive capacity was recognized.     

A morphological study on regulation of hyaline bleb formation in early embryonic cells of Cynops pyrrhogaster

Summary Presumptive ectodermal cells isolated from the animal pole region of Cynops pyrrhogaster embryos showed active formation of hyaline blebs after the eleventh cleavage. The role of the submembranous cortical layer (SCL) in hyaline bleb formation was investigated in relation to the number of cleavages. Rhodamine-phalloidin staining and transmission electron-microscopy showed structural changes in the SCL after the eleventh cleavage. Partial breakdown of the SCL by electric pulses and deformation of the SCL by treatment with cycloheximide and nocodazole induced hyaline bleb formation before the eleventh cleavage. These results suggest that the SCL plays an important role in hyaline bleb formation after the eleventh cleavage.     

The effect of aging on the neural competence of the presumptive ectoderm and the effect of aged ectoderm on the differentiation of the trunk organizer inCynops pyrrhogaster

Summary The effect of aging on the neural competence of the presumptive ectoderm of the early gastrula, and the effect of aged ectoderm on the differentiation of the still uninvaginated dorsal blastoporal lip at the small yolk-plug stage — representing the trunk organizer — were examined by the sandwich method inCynops pyrrhogaster.The presumptive ectoderm to be used as reaction system was taken from 0 to 36 h exogastrulae obtained by operation at the early gastrula stage and combined with trunk organizer. In the 0 to 12 h explants typical trunktail structures were formed. With further aging of the presumptive ectoderm a decrease in frequency of spinal cord, notochord, and muscle and a simultaneous increase in frequency of mesenchyme and mesothelium were observed. In the 30 and 36 h explants neural competence had largely disappeared, the frequency of notochord and muscle become very low and their differentiation very poor, whereas the frequency of mesenchyme and mesothelium reached very high levels.We infer a reciprocal relationship between the induced spinal cord and the differentiation of notochord and muscle, as well as a transformation of notochordal material into mesenchyme and mesothelium under the influence of the aged ectoderm. The mode of action of the trunk organizer in normal development is discussed.     

Head and trunk-tail organizing effects of the gastrula ectoderm of Cynops pyrrhogaster after treatment with activin A

Differentiation tendency and the inducing ability of the presumptive ectoderm of newt early gastrulae were examined after treatment with activin A at a high concentration (100 ng/ml). The activin-treated ectoderm differentiated preferentially into yolk-rich endodermal cells. Combination explants consisting of three pieces of activin-treated ectoderm formed neural tissues and axial mesoderm along with endodermal cells. However, the neural tissue was poorly organized and never showed any central nervous system characteristics. When the activin-treated ectoderm was sandwiched between two sheets of untreated ectoderm, the sandwich explants differentiated into trunk-tail or head structures depending on the duration of preculture of activin-treated ectoderm in Holtfreter's solution. Short-term (0–5 h) precultured ectoderm induced trunk-tail structures accompanied by axial organs, alimentary canal and beating heart. The arrangement of the explant tissues and organs was similar to that of normal embryos. However, archencephalic structures, such as forebrain and eye, were lacking or deficient. On the other hand, long-term (10–25 h) precultured ectoderm induced archencephalic structures in addition to axial organs. Lineage analysis of the sandwich explants using fluorescent dyes revealed that the activin-treated ectoderm mainly differentiated into endodermal cells and induced axial mesoderm and central nervous system in the untreated ectoderm. These results suggest that activin A is one of the substances involved in triggering endodermal differentiation and that the presumptive ectoderm induced to form endoderm displays trunk-tail organizer or head organizer effects, depending on the duration of preculture.     

Regional specification of the head and trunk-tail organizers of a urodele (Cynops pyrrhogaster) embryo is patterned during gastrulation

The dorsal marginal zone (DMZ) of an amphibian early gastrula is thought to consist of at least two distinct domains: the future head and trunk-tail organizers. We studied the mechanism by which the organizing activities of the lower half of the DMZ (LDMZ) of the urodelean (Cynops pyrrhogaster) embryo are changed. The uninvoluted LDMZ induces the notochord and then organizes the trunk-tail structures, whereas after cultivation in vitro or suramin treatment, the same LDMZ loses the notochord-inducing ability and organizes the head structures. A cell-lineage experiment indicated that the change in the organizing activity of the LDMZ was reflected in the transformation of the inductive ability: from notochord-inducing to neural-inducing activity. Using RT-PCR, we showed that the LDMZ expressed gsc, lim-1, chordin, and noggin, but not the mesoderm marker bra. In the sandwich assay, the LDMZ induced bra expression in the animal cap ectoderm, but the inductive activity was inhibited by cultivation or suramin treatment. The present study indicates that the change in the organizing activity of the LDMZ from trunk-tail to head is coupled with the loss of notochord-inducing activity. Based on these results, we suggest that this change is essential for the specification of the head and trunk-tail organizers during gastrulation.     

Cloning of cDNA for newt WT1 and the differential expression during spermatogenesis of the Japanese newt, Cynops pyrrhogaster

To investigate the function of Wilms' tumor 1 (WT1) during spermatogenesis, cDNA for newt WT1 homolog was cloned and the expression of WT1 in newt testes was examined. The cDNA is 2089 bp in length and encodes 426 amino acid (aa) residues. The deduced aa sequence shares 76 and 79% homology with human and Xenopus WT1, respectively. Northern blot analysis shows that WT1 mRNA, 3.2 and 4.5kb in length, are expressed in the testis and kidney. Both WT1 mRNA species are detected in various stages of spermatogenesis, but the 3.2kb mRNA is highly expressed in spermatogonia and mature sperm stages, while the amount of 4.5kb mRNA is almost constant throughout spermatogenesis. In situ hybridization reveals that WT1 mRNA is localized in Sertoli cells. Moreover, immunohistochemical analysis shows that WT1 protein is highly expressed in the nuclei of Sertoli cells in early spermatogonia and mature sperm stages, but not in pericystic cells or germ cells. These results suggest that WT1 is involved in the regulation of gene expression in Sertoli cells, depending on the spermatogenic stage.     

Development of cell surface activity and cell surface adhesiveness in early embryos of the newt,Cynops pyrrhogaster

The development of cell surface activity and adhesiveness was examined in relation to cleavage number in early embryos of the newt, Cynops pyrrhogaster. Both large hyaline bleb formation and surface adhesiveness to substratum were manifested in presumptive ectodermal cells isolated from embryos after the eleventh cleavage (mid-blastula stage). Scanning electron microscopy of the inner surface of the blastocoelic wall (presumptive ectodermal cell layer) revealed the formation of large blebs after the eleventh cleavage. Treatment with alcian blue and lanthanum nitrate demonstrated the accumulation of an extracellular matrix (ECM) on the surface of large blebs.     

东方蝾螈肝脏形态学与组织学观察

对东方蝾螈Synops orientalis的肝脏进行了组织学观察.结果 如下:东方蝾螈肝脏分为5叶,每叶由许多肝小叶组成.中央静脉位于小叶中央,肝细胞排列成肝细胞索(肝板),以中央静脉为中心向周围呈放射状排列.肝细胞索或肝细胞团之间的间隙为形状不规则、大小不等的肝血窦,窦壁由一层内皮细胞构成,间有枯否氏细胞,其核为细长状,有数目不等突起.肝细胞间有狄氏间隙,肝细胞呈多边形,胞核为圆形或卵圆形.肝实质内有大量色素沉着.并将东方蝾螈肝脏和其他动物肝脏进行了比较.     

The origin of the luteinizing hormone-releasing hormone (LHRH) neurons in newts (Cynops pyrrhogaster): the effect of olfactory placode ablation

Summary Neurons containing luteinizing hormone-releasing hormone (LHRH) are first detected in newt embryos (Cynops pyrrhogaster) in the olfactory epithelium and ventromedial portion of the olfactory nerve, after which they sequentially appear in the intracerebral course of the terminal nerve at prometamorphosis, and in the septo-preoptic area at postmetamorphosis. In adults, however, LHRH-immunoreactive cells are rarely seen in the nasal region, and their distribution shifts into the brain, suggesting their migration. In order to ascertain the origin and possible migration route of these neurons in newt larvae, the effect of unilateral or bilateral olfactory placodectomy on the LHRH neuronal system has been studied. Removal of the olfactory placode results in the absence of LHRH-immunoreactive cells in the nasal and brain regions of the operated side, whereas the subsequent growth and the LHRH-immunoreactive cellular distribution in the contralateral side are identical to those of normal larvae. Following bilateral placodectomy, no LHRH immunoreactivity is detected on either side of the olfactory-brain axis. These results suggest that LHRH neurons of the newt, Cynops pyrrhogaster, originate in the olfactory placode and then migrate into the brain during embryonic development.     

Comparative microarray data analysis for the expression of genes in the pathway of glioma

Our present work focuses on the set of genes, which are involved in primary brain tumors - the glioma pathway. These gliomas are mostly malignant (cancerous) in nature and are difficult to be cured and that's why they attract the attention of all the workers. To understand the relative functionality of these genes, we analyzed the expression pattern of all genes, using gene expression data, at genomic level, and then to check their universality in all other cancers, we compared their expression levels and patterns in all other types of cancers by using gene expression graphs, and observed their expression levels in all these cancers, whether they are over or under expressed. We found that every gene has its own unique expression pattern and level and on that basis it can be classified. We also found that oncogenes and tumor suppressor genes that were involved in the glioma pathway were showing similar expression patterns in other cancers too but their expression level is low.     

Expression and distribution of regeneration-responsive molecule during normal development of the newt, Cynops pyrrhogaster.

We have investigated the expression and distribution of the regeneration-responsive molecule, 2NI-36, the loss of which is responsible for initiation of dedifferentiation of dorsal marginal iris pigmented epithelial cells to regenerate a lens. In the process of the normal development of the newt, the expression of 2NI-36 could not be detected in embryos at the early developmental stages, i.e., cleavages, gastrulation and neurulation, nor through later developmental stages to tail-bud, even though organogenesis was occurring. 2NI-36 was not detectable in any tissues until embryos reached developmental stage 40 (before hatching). In hatched larvae around developmental stage 46, strong expression of 2NI-36 was observed in several tissues including the vascular endothelium, the pigmented epithelium and the inner layer of skin epidermis. Moreover, 2NI-36 was present on the cell surface of these tissue cells. In conclusion, when the embryos hatch out to become swimming larvae that can feed by themselves, 2NI-36 begins to be expressed in some kinds of differentiated tissues. These results suggest that the function of 2NI-36 might be related to the completion of morphogenesis in development and also to the stabilization of the differentiated state of newly formed tissue cells.     

Rohon-Beard细胞在东方蝾螈神经胚中的定位

自从我们观察到两栖类胚胎的表皮在一定的发育阶段能够传导兴奋性,很自然地想到表皮细胞与中枢神经系统的联系的问题,想到Rohon-Beard细胞(以下简称R.-B.细胞)。R.-B.细胞自从1860年在七鳃鳗被发现以来,在无尾两栖类的青蛙、蟾蜍、铃蛙都被找到。在有尾类的钝口螈胚胎,Coghill在1914年进行了经典的,比较系统的研究,相当精细地叙述了这种细胞的发育,联系到胚胎的早期行为,他认为这些细胞是躯干部最早的感觉细胞,在背部的感觉神经节建立之前,执行感觉的功能,尽管那时关于兴奋是怎样传入到这种细胞的,还没有定论。