Members of the ErbB receptor tyrosine kinases are involved in germ cell development in fetal mouse gonads.

To isolate the genes involved in mouse primordial germ cell (PGC) development, we carried out subtraction cDNA cloning between PGC-derived embryonic germ (EG) cells and inner cell mass-derived embryonic stem cells. Among the genes preferentially expressed in EG cells, we found a gene encoding a receptor tyrosine kinase ErbB3. By in situ hybridization and immunohistochemical staining, the expression of ErbB3 as well as that of ErbB2, a coreceptor for ErbB3, was detected in PGCs in genital ridges at 12.5 dpc (days postcoitum). The expression was, however, downregulated at 14.5 dpc when the PGCs underwent growth cessation. Neuregulin-beta, a ligand for ErbB2 and ErbB3, was also expressed in genital ridges. In addition, a recombinant Neuregulin-beta enhanced the number of PGCs in 12.5-dpc embryos in culture. Taken together, these observations suggest that ErbB signaling controls the growth or survival of PGCs in genital ridges.     

Expression of DNA methyltransferase (Dnmt1) in testicular germ cells during development of mouse embryo

The DNA methylation pattern is reprogrammed in embryonic germ cells. In female germ cells, the short-form DNA methyltransferase Dnmt1, which is an alternative isoform specifically expressed in growing oocytes, plays a crucial role in maintaining imprinted genes. To evaluate the contribution of Dnmt1 to the DNA methylation in male germ cells, the expression profiles of Dnmt1 in embryonic gonocytes were investigated. We detected a significant expression of Dnmt1 in primordial germ cells in 12.5-14.5 day postcoitum (dpc) embryos. The expression of Dnmt1 was downregulated after 14.5 dpc after which almost no Dnmt1 was detected in gonocytes prepared from 18.5 dpc embryos. The short-form Dnmt1 also was not detected in the 16.5-18.5 dpc gonocytes. On the other hand, Dnmt1 was constantly detected in Sertoli cells at 12.5-18.5 dpc. The expression profiles of Dnmt1 were similar to that of proliferating cell nuclear antigen (PCNA), a marker for proliferating cells, suggesting that Dnmt1 was specifically expressed in the proliferating male germ cells. Inversely, genome-wide DNA methylation occurred after germ cell proliferation was arrested, when the Dnmt1 expression was downregulated. The present results indicate that not Dnmt1 but some other type of DNA methyltransferase contributes to the creation of DNA methylation patterns in male germ cells.     

Aortic carboxypeptidase-like protein is expressed in collagen-rich tissues during mouse embryonic development

Aortic carboxypeptidase-like protein (ACLP) was originally identified in vascular smooth muscle cells and contains discoidin and catalytically inactive metallocarboxypeptidase domains. ACLP is a secreted protein that associates with the extracellular matrix and is essential for abdominal wall development and contributes to dermal wound healing. Because of these developmental and adult phenotypes, we examined the expression of ACLP by immunohistochemistry throughout mouse embryonic development. ACLP was not detected in 7.5 days post-coitum (dpc) embryos, however at 9.5 dpc low levels of expression were detected in the somites and dorsal aorta. Expression was detected in both the yolk sac and embryonic vasculature at 10.5d pc. ACLP expression increased in both large and small blood vessels at 11.5 and 13.5 dpc and intense expression was detected within the vascular smooth muscle layer in 16.5 dpc embryos. At later developmental time points, discrete areas of ACLP expression were detected in the mesenchymal cells in the dermal layer, developing skeletal structures, connective tissue, and in the umbilical ring and vessels. The predominance of ACLP immunoreactivity localized with collagen-rich regions including tendons and basement membranes. Overall, the developmental expression pattern is consistent with a regulatory or structural role in the abdominal wall, vasculature, and dermis.     

Cloning of Fatso (Fto), a novel gene deleted by the Fused toes (Ft) mouse mutation

The Fused toes (Ft) mouse mutation was created by insertional mutagenesis, resulting in the deletion of several hundred kb of genomic sequences of mouse Chromosome (Chr) 8. Mice heterozygous for the Ft mutation are characterized by partial syndactyly of forelimbs and massive thymic hyperplasia indicating that programmed cell death is affected. Homozygous Ft/Ft embryos die at midgestation and show severe malformations of craniofacial structures. Furthermore, establishment of left-right asymmetry is random. Here we report on the positional cloning of a novel gene by exon trap analysis of a genomic clone encoding wild-type sequences corresponding to parts of the deletion in Ft mutants. RT-PCR experiments demonstrated that the newly identified gene, Fatso (Fto), is expressed throughout embryonic development. Wide expression was also found in tissues of adult mice. We show that expression of Fto is completely absent in mouse embryonic fibroblasts homozygous for the Ft mutation. In addition, we isolated the full-length cDNA which encodes a putative 58-kDa protein showing no similarities to known proteins or protein motifs. The expression data of Fto define it as a candidate gene involved in processes such as programmed cell death, craniofacial development, and establishment of left-right asymmetry. Received: 5 May 1999 / Accepted: 9 June 1999     

Preferential expression of Mdm2 oncogene during the development of neural crest and its derivatives in mouse early embryogenesis

The Mdm2 oncoprotein acts as the principal negative regulator of p53 activities and is essential for its control during mouse early development, at least before implantation. We analyzed Mdm2 expression between 7.5 and 9 days post-coitum (dpc) by whole-mount in situ hybridization and report here a novel expression pattern during neural crest development. At 7.5 dpc Mdm2 becomes preferentially expressed at the top of the neural folds. Between 8 and 9 dpc, this preferential expression is also observed in neural crest cells migrating from the closing brain towards craniofacial regions and the first three branchial arches. It persists in the craniofacial mesenchyme and the first branchial arch in 9 dpc embryos. Migrating neural crest cells in the tail region are also preferentially labeled at this stage. At day 9.5 Mdm2 becomes more ubiquitously expressed throughout the embryo as reported before.     

Imaging analysis of mineralocorticoid receptor and importins in single living cells by using GFP color variants

Signaling from the endothelin-A (Ednra) receptor is responsible for initiating multiple signaling pathways within neural crest cells (NCCs). Loss of this initiation is presumably the basis for the craniofacial defects observed in Ednra^–/– embryos. However, it is not known whether continued Ednra signaling in NCC derivatives is required for subsequent development of the lower jaw. To address this question, mice containing loxP recombination sequences flanking a portion of the Ednra gene were bred with transgenic mice that express Cre recombinase under control of a Dlx5/6 enhancer element. We find that while Ednra gene inactivation within the mandibular arch of these Ednra conditional knockout embryos is detectable by embryonic day (E) 10.5, mandibular arch-specific gene expression is normal, as is overall mandible development. These results suggest that while Ednra receptor signaling is crucial for early NCC patterning, subsequent Ednra signaling is not essential for mandible bone development.This work was supported in part by grants from the National Institutes of Health and the American Heart Association to D.E.C.     

Conserved expression of the PRELI domain containing 2 gene (<Emphasis Type="Italic">Prelid2</Emphasis>) during mid-later-gestation mouse embryogenesis

Prelid2, which belongs to the PRELI domain containing family, is identified as a conserved evolution gene. The expression and regulation during embryonic development of the prelid2 gene is unknown. In this study, we investigated the prelid2 gene expression and regulation using mouse embryos model, by in situ hybridization analysis, RT-PCR and bisulfite sequencing. In situ hybridization analysis showed that prelid2 gene expression were found in midbrain, spinal cord, optic eminence, otic vesicle and tail at E9.5 and E10.5 embryos, in forebrain, hindbrain, heart, lung, liver and kidney at E13.5 and E15.5 embryos. Real-time quantitative RT-PCR results verified the expression pattern in the four major mouse organs, brain, heart, lung, and liver during organs differentiation and formation. Bisulfite sequencing illustrated the consistent result of expression and its unmethylation status in the genomic promoter region at E12.5, E18.5, and new born. Thus, the prelid2 gene is a widely-spread, persistently expressed and unmethylated gene in mouse embryonic development. Our results suggest that the PRELI domain containing 2 gene is involved in mouse embryonic development.     

Hepatocyte growth factor (HGF) receptor expression and role of HGF during embryonic mouse testis development

The hepatocyte growth factor (HGF) receptor, c-met, transduces the HGF multiple biological activities. During embryonic development the system HGF/c-met regulates the morphogenesis of different organs and tissues. In this study we examined c-met gene expression during mouse testis development and, by means of Northern blot and in situ hybridization, we report the receptor expression pattern. C-met expression is not detectable in male genital ridges isolated from embryos at 11.5 days postcoitum (dpc). In testes isolated from 12.5 and 13.5 dpc, c-met expression is detectable and essentially localized in the developing cords. Male genital ducts do not express c-met at the reported ages, whereas female ducts appear c-met positive. Moreover, we report that HGF is able to induce testicular morphogenesis in vitro. Male genital ridges isolated from embryos at 11.5 dpc are morphologically nonorganized. Culturing 11.5 dpc urogenital ridges in the presence of HGF we obtained testis organization and testicular cord formation. Our data demonstrate that c-met is expressed during the beginning period of testis differentiation and that HGF is able to support testicular differentiation in vitro. All these data indicate that this growth factor, besides its role as mitogenic factor, plays a fundamental role during testicular cord formation probably inducing cell migration and/or cell differentiation.     

Expression of the tudor-related gene Tdrd5 during development of the male germline in mice

Homologues of Drosophila germ cell determinant genes such as vasa, nanos and tudor have recently been implicated in development of the male germline in mice. In the present study, the mouse gene encoding Tudor domain containing protein 5 (TDRD5) was isolated from a 12.5-13.5 days post coitum (dpc) male-enriched subtracted cDNA library. Whole-mount in situ hybridization analysis of Tdrd5 expression in the mouse embryonic gonad indicated that this gene is upregulated in the developing testis from 12.5 dpc, with expression levels remaining higher in testis than ovary throughout embryogenesis. Expression of Tdrd5 was absent in testes isolated from We/We embryos, which lack germ cells. In situ hybridization (ISH) on cryosectioned 13.5 dpc testes suggests that expression of Tdrd5, like that of Oct4, is restricted to germ cells. Northern hybridization analysis of expression in adult tissues indicated that Tdrd5 is expressed in the testis only, implying that expression of this gene is restricted to the male germline throughout development to adulthood.     

The ter mutation first causes primordial germ cell deficiency in ter/ter mouse embryos at 8 days of gestation

The ter (teratoma) mutation causes primordial germ cell (PGC) deficiency in ter/ter embryos at 9.5–12.5 days of post-coitum (dpc) in mouse strains 129/Sv- ter and LTXBJ- ter . To study the effects of the ter mutation on the PGC development more precisely, we examined the PGC number and distribution in 7.5–12.5 dpc embryo of ter congenic C57BL/6J- ter strain using their complete serial sections. The ter genotypes of embryos were identified by the polymerase chain reaction (PCR) polymorphisms of the microsatellite DNA of the Grl -1 locus mapped near the ter locus. Results showed that: (i) the PGC number in ter/ter embryos was similar to those of + / ter and + / + embryos at 7.5 dpc, and did not increase at 8.0–12.5 dpc, although those of normal littermates did usually; (ii) the PGC migration to genital ridges was never affected in all embryos; and (iii) the ter genotype difference in the PGC numbers was not recognized between + / ter and + / + embryos. We concluded that the ter mutation does not affect the PGC appearance around 7.5 dpc, but first causes PGC deficiency around 8.0 dpc at the beginning of their migration and proliferation, suggesting that the normal function of the ter gene may be essential for the proliferation or survival mechanisms of PGC.