Granulocyte-macrophage colony-stimulating factor (GM-CSF) acts independently of the beta common subunit of the GM-CSF receptor to prevent inner cell mass apoptosis in human embryos.
(9/172)
Granulocyte-macrophage colony-stimulating factor (GM-CSF) is expressed in the female reproductive tract during early pregnancy and can promote the growth and development of preimplantation embryos in several species. We have demonstrated with in vitro experiments that the incidence of blastulation in human embryos is increased approximately twofold when GM-CSF is present in the culture medium. In the present study, we investigated the mechanisms underlying the embryotrophic actions of GM-CSF. Using reverse transcription-polymerase chain reaction and immunocytochemistry, expression of mRNA and protein of the GM-CSF-receptor alpha subunit (GM-Ralpha) was detected in embryos from the first-cleavage through blastocyst stages of development, but the GM-CSF-receptor beta common subunit (betac) could not be detected at any stage. When neutralizing antibodies reactive with GM-Ralpha were added to embryo culture experiments, the development-promoting effect of GM-CSF was ablated. In contrast, GM-CSF activity in embryos was not inhibited either by antibodies to betac or by E21R, a synthetic GM-CSF analogue that acts to antagonize betac-mediated GM-CSF signaling. Unexpectedly, E21R was found to mimic native GM-CSF in promoting blastulation. When embryos were assessed for apoptosis and cell number by confocal microscopy after TUNEL and propidium iodine staining, it was found that blastocysts cultured in GM-CSF contained 50% fewer apoptotic nuclei and 30% more viable inner cell mass cells. Together, these data indicate that GM-CSF regulates cell viability in human embryos and that this potentially occurs through a novel receptor mechanism that is independent of betac. (+info)
Multiple connexins contribute to intercellular communication in the Xenopus embryo.
(10/172)
To explore the role of gap junctional intercellular communication (GJIC) during Xenopus embryogenesis, we utilized the host-transfer and antisense techniques to specifically deplete Cx38, the only known maternally expressed connexin. Cx38-depleted embryos developed normally but displayed robust GJIC between blastomeres at 32-128 cell stages, suggesting the existence of other maternal connexins. Analysis of embryonic cDNA revealed maternal expression of two novel connexins, Cx31 and Cx43.4, and a third, Cx43, that had been previously identified as a product of zygotic transcription. Thus, the early Xenopus embryo contains at least four maternal connexins. Unlike Cx38, expression of Cx31, Cx43 and Cx43.4 continue zygotically. Of these, Cx43.4 is the most abundant, accumulating significantly in neural structures including the brain, the eyes and the spinal cord. (+info)
Application of a sea urchin micronucleus assay to monitoring aquatic pollution: influence of sample osmolality.
(11/172)
We have improved our sea urchin micronucleus assay for aquatic samples and used it to evaluate marine pollution. We found that the water samples we had collected for 2 years from the Tokyo bay coast near Tokyo, an industrial megalopolis, were positive due to the water samples being hypo-osmotic rather than to chemical pollutants. The evidence was as follows: (i) the osmolality and salinity of the samples were about half that of sea water; (ii) the micronucleus frequency induced in the water sample decreased to the control level when the osmolality was increased to that of sea water; (iii) artificial sea water diluted with distilled water induced micronuclei dilution-dependently. Since micronucleus induction in the sea urchin assay is influenced by sample osmolality, the osmolality must be adjusted to that of sea water for the assay and osmotic pressure must be considered when evaluating water pollution. (+info)
Lefty proteins are long-range inhibitors of squint-mediated nodal signaling.
(12/172)
The regulation of signaling pathways by feedback inhibitors has become an emerging theme in the control of pattern formation during development. Nodal and Lefty proteins belong to divergent subfamilies of the TGF-beta family. Nodal signals promote mesendoderm induction in vertebrates, and Lefty proteins antagonize it. In zebrafish, Squint functions as a long-range Nodal signal during mesoderm induction. We report that the range over which Squint induces mesoderm is reduced by Lefty proteins. In contrast, the activity range of the short-range Nodal signal Cyclops is not regulated by Lefty activity. We present three lines of evidence that Lefty proteins diminish the range of Squint signaling by acting not only as antagonists of Squint autoregulation but also as long-range inhibitors of Squint activity. First, Lefty can block Nodal signaling at a distance. Second, Lefty regulates the range of Squint signaling before regulating squint expression. Third, Lefty restricts the range of Squint activity in squint mutant embryos, in which the endogenous gene is not subject to autoregulation. We also find that Lefty restricts the response to both high and low levels of Nodal signaling. These results indicate that Lefty proteins restrict the activity range of Nodal signals by dampening Nodal signaling in surrounding cells. (+info)
Uncommitted Xenopus blastula cells can be directed to uniform muscle gene expression by gradient interpretation and a community effect.
(13/172)
The animal cap cells of Xenopus blastulae behave as multi-potent stem cells in so far as they can differentiate along many unrelated pathways according to the kind and amount of signal factor that they experience. At first, animal cap cells activate early zygotic genes across a broad range of TGFbeta concentrations; soon after this, they activate later genes more intensely and over a narrow concentration range. Here we show that uncommitted blastula cells can be directed, by the sequential influence of a particular concentration of a TGFbeta morphogen and an FGF-mediated community effect, to form a homogeneous single cell type. As a result of these two signalling processes, an entire population of animal cap cells can be converted, in the absence of other signals, to a uniform population of one tissue type. Mesoderm cells that experience a particular concentration of activin increase their XMyoD expression by 10-fold and become distinct from neighbouring cells that received lower or higher concentrations of activin. The signalling processes that we employ here may be important in normal development and useful in guiding stem cell differentiation. (+info)
First preimplantation genetic diagnosis of hereditary retinoblastoma using informative microsatellite markers.
(14/172)
Retinoblastoma is a malignant intra-ocular tumour of developing retina initiated by inactivation of both alleles of the retinoblastoma susceptibility (RB1) gene. This paper reports the first clinical experience of preimplantation genetic diagnosis (PGD) for hereditary retinoblastoma using two highly polymorphic microsatellite markers RB1.20 and D13S284, located within and close to the RB1 gene respectively. Duplex PCRs were tested on more than 300 single lymphocytes from heterozygous individuals at both loci, in order to test the accuracy and reliability of the single-cell protocol. This procedure requires a nested PCR and the analysis of fluorescently labelled PCR products on an automatic DNA sequencer. Amplification efficiency and allele drop-out rates ranged from 96.7 to 98.4%, and 3.7 to 5.4% respectively. This test was found to be accurate and reliable enough to be applied to the study of human blastomeres. Subsequently, this approach was used in a PGD treatment cycle for a couple who already had a child affected with hereditary retinoblastoma and found to be informative for both microsatellite markers. (+info)
Loss of XChk1 function triggers apoptosis after the midblastula transition in Xenopus laevis embryos.
(15/172)
Prior to the midblastula transition (MBT), Xenopus laevis embryos do not engage cell cycle checkpoints, although overexpression of the kinase XChk1 arrests cell divisions. At the MBT, XChk1 transiently activates and promotes cell cycle lengthening. In this study, endogenous XChk1 was inhibited by the expression of dominant-negative XChk1 (DN-XChk1). Development appeared normal until the early gastrula stage, when cells lost attachments and chromatin condensed. TUNEL and caspase assays indicated these embryos died by apoptosis during gastrulation. Embryos with unreplicated DNA likewise died by apoptosis. Embryos expressing DN-XChk1 proceeded through additional rapid rounds of DNA replication but initiated zygotic transcription on schedule. Therefore, XChk1 is essential in the early Xenopus embryo for cell cycle remodeling and for survival after the MBT. (+info)
An inducible system for the study of FGF signalling in early amphibian development.
(16/172)
The use of a novel inducible FGF signalling system in the frog Xenopus laevis is reported. We show that the lipophilic, synthetic, dimerizing agent AP20187 is able to rapidly activate signalling through an ectopically expressed mutant form of FGFR1 (iFGFR1) in Xenopus embryos. iFGFR1 lacks an extracellular ligand binding domain and contains an AP20187 binding domain fused to the intracellular domain of mouse FGFR1. Induction of signalling by AP20187 is possible until at least early neurula stages, and we demonstrate that ectopically expressed iFGFR1 protein persists until late neurula stages. We show that activation of signalling through iFGFR1 can mimic a number of previously reported FGF activities, including mesoderm induction, repression of anterior development, and neural posteriorization. We show that competence to morphological posteriorization of the anteroposterior axis by FGF signalling only extends until about stage 10.5. We demonstrate that the competence of neural tissue to express the posterior markers Hoxa7 and Xcad3, in response to FGF signalling, is lost by the end of gastrula stages. We also show that activation of FGF signalling stimulates morphogenetic movements in neural tissue until at least the end of the gastrula stage. (+info)