Development of transgenic Xenopus laevis with a high C-src gene expression

Xenopus laevis larvae with an elevated expression of c-src were generated by mating a transgenic X. laevis male frog carrying proviral Rous sarcoma virus (RSV) long terminal repeat (LTR) and most of the pol gene sequences in its sperm DNA and a normal X. laevis female frog. Offspring (15–20%) with a higher dosage of c-Src, detected in disorganized myotomal musculature and in cerebral and spinal neuronal cells by immunohistochemical analysis, developed abnormally, with edemas (in most cases), head deformities, and eye and axial system defects. In the remaining embryos, a small increase in c-src expression seemed to be compatible with normal embryogenesis. The dosage of c-Src correlated with the dosage of RSV LTR integrated in frog DNA as revealed by Southern and polymerase chain reaction (PCR) analyses. Authenticity of the integrated RSV LTR including enhancer sequence was proved by sequencing. Probing of total RNA from aberrant larvae demonstrated several times higher dosage of c-src mRNA in their tissues than in control tadpoles. We hypothesize that the integrated RSV regulatory sequences can stimulate the expression of c-src proto-oncogene of X. laevis above a treshold that interferes with the early developmental program of frog embryos. Mol. Reprod. Dev. 50:410–419, 1998. © 1998 Wiley-Liss, Inc.     

Spermatogenic cell differentiation in vitro

Culture conditions that support the in vitro development of many spermatogenic stages from the frog Xenopus laevis are described. Spermatogenic cells were dissociated with collagenase and preelongation stages aseptically isolated by density gradient centrifugation in Metrizamide. The cells were then cultured in modified forms of defined nutrient oocyte medium (DNOM). The development of spermatogenic cells was affected significantly by changes in fetal calf serum concentration, cell density, energy sources, and NaCl concentration. Optimum in vitro spermatid development was obtained when spermatogenic cells were cultured at relatively high densities (3–7 × l0⁷ cells/25 cm²) in DNOM modified to contain 10% heat-inactivated, dialyzed fetal calf serum, 2 mM 1-glutamine, 0.1 % glucose, 15 mM HEPES buffer (pH 7.4), and 38.3–48.3 mM NaCl. These culture conditions also supported the differentiation of preelongation spermatids and spermatocytes isolated by density-gradient centrifugation in Metrizamide and subsequent unit gravity sedimentation in gradients of bovine serum albumin. Approximately 95 % of such isolated spermatids and spermatocytes continued differentiating in vitro for 14 days at in vivo rates. Phase-contrast and electron microscopy of the cultured cells demonstrated that in vitro differentiation was morphologically normal between the leptotene and elongate spermatid stages. Autoradiographic studies of preleptotene development demonstrated that spermatogonia proliferated and preleptotene spermatocytes developed to zygotene in 12-day cultures. The results suggest that many spermatogenic stages in Xenopus can develop independent of Sertoli cells, and demonstrate that spermatogenic cell cultures can now be used for in vitro studies of spermatogenesis.     

Loss of reactivity to pan-cadherin antibody in epidermal cells as a marker for metamorphic alteration of Xenopus skin

Pan-cadherin antibodies recognize the conserved C-terminal region of the family of cell-cell adhesion molecules, cadherins, and have a broad spectrum of reactivity to the molecules. In the present study, by immunohistochemistry using an anti-pan cadherin monoclonal antibody (mAb), expression dynamics of cadherins in epidermal tissues were analyzed during metamorphosis of Xenopus laevis. At early stages of development, the anti-pan cadherin mAb detected signals at cell-cell boundaries and in the cytoplasm of both trunk and tail epidermal cells. During metamorphosis, the immunoreactivity decreased in the trunk skin tissue but remained in the tail. At the climax stage, immunoreactivity was observed only in the regressing tail epidermis. The signals disappeared completely from the trunk epidermis, which had already transformed into adult-type tissue. This observation was confirmed by western blot analysis. A specific band was detected in the larval skin, but not in the adult lysate, at approximately 135 kDa in molecular size, corresponding to the molecular mass of cadherins. This different immunoreactivity in larvae and adults was observed in the epidermis of the skin, but not in any other tissues examined, that is, brain, kidney and liver. The immunoreactivity seen in larval epidermal cells was drastically downregulated by thyroid hormone treatment in vitro. These changes of immunoreactivity were specific for the C-terminal region of cadherins, suggesting intracellular alteration of the molecules during metamorphosis, and the anti-pan cadherin mAb can be a marker for larval-type epidermal cells that is applicable to analysis of Xenopus metamorphosis.     

Structure and expression of the nerve growth factor gene in Xenopus oocytes and embryos

A large part of the coding portion of the Xenopus nerve growth factor (NGF) gene has been identified and cloned by the use of a chicken cDNA probe and its sequence has been determined. Comparison of the derived amino acid sequence of mature Xenopus NGF with that of other species showed a high conservation, whereas comparison of the prepropeptide showed large divergent regions alternated with short conserved regions. Expression of the NGF gene was examined during development of oocytes and embryos. Surprisingly, NGF mRNA was found in the oocyte; it is present in small previtellogenic as well as in fully grown oocytes. NGF mRNA, passed to the embryo at fertilization, is degraded before the gastrula stage and starts accumulating again around the stage of the neurula. The association of NGF mRNA with polysomes is indicative of NGF synthesis during oogenesis. In fact, by using antibodies against mouse NGF it was possible to reveal NGF molecules present as precursors. These molecules accumulate during oogenesis and are maintained in the embryos up to the blastula stage; a very faint band corresponding to a smaller size peptide is sometimes detected. A maternal role for the NGF can be proposed, although a possible activity of NGF in the oocyte cannot be ruled out.     

Contribution of Cadherins to Directional Cell Migration and Histogenesis in Xenopus Embryos

Perturbation of adhesion mediated by cadherins was achieved by over-expressing truncated forms of E- and EP-cadherins (in which the extracellular domain was deleted) in different blastomeres of stage 6 Xenopus laevis embryos. Injections of mRNA encoding truncated E- and EP-cadherins into A1A2 blastomeres resulted in inhibition of cell adhesion and, at later stages, in morphogenetic defects in the anterior neural tissues to which they mainly contribute. In addition, truncated EP-cadherin mRNA produced a duplication of the dorso-posterior axis in a significant number of cases. The expression of truncated E- and EP-cadherins in blastomeres involved in gastrulation and neural induction (B1B2 and C1), led to the duplication of the dorso-posterior axis as well as to defects in anterior structures. Morphogenetic defects obtained with truncated EP-cadherin were more severe than those induced with truncated E-cadherin. Cells derived from blastomeres injected with truncated EP-cadherin mRNA, dispersed more readily at the blastula and gastrula stages than the cells derived from the blastomeres expressing truncated E-cadherin. Presumptive mesodermal cells expressing truncated cadherins did not engage in coherent directional migration. The alteration of cadherin-mediated cell adhesion led directly to the perturbation of the convergent-extension movements during gastrulation as shown in the animal cap assays and indirectly to perturbation of neural induction. Although the cytoplasmic domains of type I cadherins share a high degree of sequence identity, the over-expression of their cytoplasmic domains induces a distinct pattern of perturbations, strongly suggesting that in vivo, each cadherin may transduce a specific adhesive signal. These graded perturbations may in part result from the relative ability of each cadherin cytoplasmic domain to titer the P-catenin.     

Association of Rous sarcoma virus DNA with Xenopus laevis spermatozoa and its transfer to ova through fertilization

Mature Xenopus laevis spermatozoa are capable of binding plasmid pAPrC carrying the complete Rous sarcoma virus (RSV) DNA. Each sperm cell associates, on an average, with 70–160 molecules of the plasmid DNA in a DNase resistant form, if the spermatozoa were exposed to the DNA at a concentration of 1.0–1.4 μg/10⁷ sperm cells. Fertilization with pAPrC-treated spermatozoa induced developmental malformations in 25–30% of embryos. Immunohistochemical analysis of tissue sections from defective animals revealed aberrations in myotomal structures, and increased expression of pp60^src protein in myoblasts, neuronal tube, and epidermis. The presence of characteristic v-src and RSV-long terminal repeat (LTR) sequences in X. laevis DNA was detected by PCR analysis. Embryonic RNA hybridized with a src-specific and an RSV-LTR specific probes indicating expression of the viral DNA. Plasmid DNAs without the v-src gene (pATV9) or completely free of any RSV sequences (pBR322) did not induce any changes in embryonic development. Our results provide evidence that the pBR322-cloned DNA form of the RSV genome associates with frog sperm cells in a DNase-resistant manner suggesting internalization and may be subsequently carried into eggs during the process of artificial fertilization. Correlation between the defective morphogenesis of X. laevis and increased expression of the src gene as well as an interference of RSV DNA with the developmental programs of frog embryos are discussed. © 1996 Wiley-Liss, Inc.     

Xenopus cyclin D2: Cloning and expression in oocytes and during early development

Summary— We have isolated and characterized a cDNA which contains the entire coding sequence of Xenopus laevis cyclin D2 protein. Cyclin D2 mRNA is identified as a member of the class of maternal RNAs. It is rare and stable during embryonic development at least until tadepole. In addition, a second cDNA coding for a truneated version of cyclin D2 was also isolated. Mieroinjection of cyclin D2 into oocytes undergoing meiotic maturation and parthenogenetic activation reveals that the protein is stable for several hours, independently of the ubiquitin-mediated degradation of cyclin B2 that takes place periodically during this process. Microinjected cyclin D2 localizes both in the cytoplasm and in the nucleus of oocyte. In somatic cells, it is well established that cyclin D2 is almost exclusively nuclear and very labile. The unusual behaviour of cyclin D2 upon injection into oocytes may provide indications about a possible role for this protein during meiosis and early development.     

非洲爪蟾GATA-1b中与GATA-1a的差异位点突变后的功能

非洲爪蟾GATA 1因子分为GATA 1a和GATA 1b两种亚型。与其他种类的GATA 1因子相类似 ,GATA 1是红细胞分化成熟所必需的因子之一。二种亚型在造血方面具有同样的作用 ,但只有xGATA 1b具有抑制神经发生的功能。比较二者的结构 ,发现二者的核酸和蛋白质结构虽然都非常相似 ,但并不完全一致。为探讨这些差异结构与功能之间的关系 ,我们对xGATA 1b中与xGATA 1a差异的Ser1 6 8和His1 6 9位点进行缺失突变 ,并定点突变Thr30 4和Thr359位点。之后将体外制备好的野生型或突变型xGATA 1bmRNA单独或与DN BRmRNA共同导入非洲爪蟾 2细胞胚胎内 ,利用动物帽系统分析突变体在神经发生和造血方面的功能。结果发现 ,Ser1 6 8和His1 6 9以及Thr359位点突变后 ,xGATA 1b再不能抑制DN BR诱导的神经发生 ;但所有突变都未影响xGATA 1b在造血方面的功能。由此 ,我们首次证实了Ser1 6 8和His1 6 9以及Thr359位点可能是导致xGATA 1b和xGATA 1a之间功能分离的结构基础之一。