Laure Saint-Etienne scite author profile

Cell migration plays an essential role in many morphogenetic processes, and its deregulation has many dramatic consequences. Yet how migration is controlled during normal development is still a largely unresolved question. We examined this process in the case of the posterior lateral line (PLL), a mechanosensory system present in fish and amphibians. In zebrafish, the embryonic PLL comprises seven to eight sense organs (neuromasts) aligned from head to tail along the flank of the animal and is formed by a primordium that originates from a cephalic placode. This primordium migrates along a stereotyped pathway toward the tip of the tail and deposits in its wake discrete groups of cells, each of which will become a neuromast. We show that a trail of SDF1-like chemokine is present along the pathway of the primordium and that a CXCR4-like chemokine receptor is expressed by the migrating cells. The inactivation of either the ligand or its receptor blocks migration, whereas in mutants in which the normal SDF1 trail is absent, the primordium path is redirected to the next, more ventral sdf1 expression domain. In all cases, the sensory axons remain associated to the primordium, indicating that the extension of the neurites to form the PLL nerve depends on the movement of the primordium. We conclude that both the formation and the innervation of this system depend on the SDF1-CXCR4 system, which has also been implicated in several migration events in humans, including metastasis formation and lymphocyte homing.

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A crucial component of the endoderm formation pathway, CASANOVA, is encoded by a novel sox-related gene

Dickmeis¹,

Mourrain²,

et al. 2001

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casanova (cas) mutant zebrafish embryos lack endoderm and develop cardia bifida. In a substractive screen for Nodal-responsive genes, we isolated an HMG box-containing gene, 10J3, which is expressed in the endoderm. The cas phenotype is rescued by overexpression of 10J3 and can be mimicked by 10J3-directed morpholinos. Furthermore, we identified a mutation within 10J3 coding sequence that cosegregates with the cas phenotype, clearly demonstrating that cas is encoded by 10J3. Epistasis experiments are consistent with an instructive role for cas in endoderm formation downstream of Nodal signals and upstream of sox17. In the absence of cas activity, endoderm progenitors differentiate into mesodermal derivatives. Thus, cas is an HMG box-containing gene involved in the fate decision between endoderm and mesoderm that acts downstream of Nodal signals. The endoderm germ layer generates the structures of the digestive and respiratory tracts. In addition, endoderm is crucial in the organization and/or induction of neighboring tissues, such as the head and the heart (Grapin-Botton and Melton 2000). In the zebrafish, endoderm derives from cells positioned at the blastoderm margin of the late blastula (Warga and Nusslein-Volhard 1999). Although endoderm and mesoderm progenitors partially overlap, most mesoderm progenitors come from positions relatively far away from the very margin at this stage.The molecular pathway leading to endoderm formation is only partially understood. Specification of endoderm requires Nodal signaling (Kimelman and Griffin 2000). Zebrafish mutants lacking the Nodal-related factors Squint (Sqt) and Cyclops (Cyc) fail to form endoderm (Feldman et al. 1998;Sampath et al. 1998). Similarly, endoderm does not form in embryos defective in both maternal and zygotic components of one-eyed pinhead (MZoep), which encodes an EGF-CFC protein required for cells to respond to Nodal signals (Schier et al. 1997;Strähle et al. 1997;Zhang et al. 1998;Gritsman et al. 1999). In zebrafish, Nodals induce endoderm presumably via activation of the type I TGF␤ receptor TARAM-A (Tar; Renucci et al. 1996;Peyrieras et al. 1998), the mix-like homeobox transcription factor MIXER (bonnie and clyde, bon; Kikuchi et al. 2000), and the zinc-finger transcription factor GATA5 (faust; Reiter et al. 1999Reiter et al. , 2001). Both transcription factors require a third gene, casanova (cas), to efficiently induce the endoderm-specific sox17 gene (Alexander and Stainier 1999) and to allow marginal cells to achieve the proper endodermal program. At gastrula stages, cas mutant embryos express sox17 neither in endoderm precursors nor in the forerunner cells, a small group of noninvoluting mesendodermal cells at the dorsal margin (Melby et al. 1996). At later stages, cas mutants lack a gut tube and develop a heart condition known as cardia bifida. cas activity is required cell-autonomously for endoderm development and endodermal expression of foxA2 . Thus, cas acts within endoderm precursors, downstream of the Nodal signals Cyc and Sqt and the ...

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Regulation of Nodal Signalling and Mesendoderm Formation by TARAM-A, a TGFβ-Related Type I Receptor

Aoki

Mathieu²,

Saint-Etienne³

et al. 2002

Developmental Biology

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Nodal signalling is essential for many developmental events during vertebrate development, including the establishment of left-right asymmetry, of dorsoventral axis of the central nervous system, and endoderm and mesoderm formation. The zebrafish TGFbeta-related type I receptor, TARAM-A (Tar), is expressed in the prospective mesendodermal territory and, when activated, can transfate early blastomeres into endoderm, suggesting that Nodal and Tar may represent similar signalling pathways. We have analysed the functional relationships between those two pathways in zebrafish. We first demonstrate that tar and the zebrafish nodal genes cyc and sqt functionally interact. We also show that a dominant-negative isoform of Tar, TarMR, interferes specifically with the function of Cyc and Sqt in vitro, but does not interfere with the function of BMP2, another TGFbeta-related molecule. TarMR interferes also with Nodal signalling in vivo since it enhances the phenotype of embryos with weakened Nodal signalling. Overexpression of tarMR in wild-type embryos interfered with the formation of endoderm-derived structures. Conversely, overexpression of tar enlarged the presumptive mesendodermal region at the onset of gastrulation. Together, our results point to Tar as an essential factor for endoderm formation and an important modulator of Nodal signalling, potentially representing one of the Nodal receptors. (c)2001 Elsevier Science.

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Induction of Metaphase and Anaphase/Telophase Abnormalities by Asbestos Fibers in Rat Pleural Mesothelial Cells In Vitro

Yegles

Saint-Etienne

Renier

et al. 1993

Am J Respir Cell Mol Biol

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The cytogenetic effects of asbestos fibers on rat pleural mesothelial cells were studied in vitro. Crocidolite UICC significantly enhanced aneuploidy and produced few structural chromosome aberrations, whereas anatase, an isomorphic particle, induced no numerical or structural changes. Mitomycin C (300 nM) produced a tenfold increase in abnormal anaphases compared with controls. Asbestos produced anaphase/telophase abnormalities in a concentration-dependent manner. The majority of the abnormalities involved lagging chromosomes. Crocidolite UICC induced abnormalities at a dose of 7.0 micrograms/cm2, whereas Canadian chrysotile did so at 1.0 to 2.0 micrograms/cm2. When the response was assessed by the number of long and thin fibers per cm2 (length > 8 microns; diameter < or = 0.25 microns), crocidolite UICC produced more abnormalities than Canadian chrysotile at all concentrations. On a per-weight basis, these findings differ from those obtained after intrapleural inoculation, as crocidolite induced more mesotheliomas than chrysotile; however, on a per-fiber basis, the in vitro and in vivo effects were similar. These results show that anaphase/telophase analysis is sensitive and complementary to metaphase analysis, and suggest that asbestos might produce cell transformation by inducing chromosome missegregation and aneuploidy.

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