Regulation of Zebrafish Gastrulation Movements by slb/wnt11 / Regulation der Zebrafisch-Gastrulation durch slb/wnt11

Ulrich, Florian

02 August 2005

During zebrafish gastrulation, highly coordinated cellular rearrangements lead to the formation of the three germ layers, ectoderm, mesoderm and endoderm. Recent studies have identified silberblick (slb/wnt11) as a key molecule that regulates gastrulation movement through a conserved pathway, which shares significant similarity with a signalling pathway that establishes epithelial planar cell polarity (PCP) in Drosophila (Heisenberg et al., 2000; Veeman et al., 2003), suggesting a role for cell polarity in regulating gastrulation movements. However, the cellular and molecular mechanisms by which slb/wnt11 functions during zebrafish gastrulation are still not fully understood. In the first part of the thesis, the three-dimensional movement and morphology of individual cells in living embryos during the course of gastrulation were recorded and analysed using high resolution confocal microscopy. It was shown that in slb/wnt11 mutant embryos, hypoblast cells within the forming germ ring display slower, less directed migratory movements at the onset of gastrulation, which are accompanied by defects in the orientation of cellular processes along the individual movement directions of these cells. The net movement direction of the cells is not changed, suggesting that slb/wnt11-mediated orientation of cellular processes serves to facilitate and stabilize cell movements during gastrulation. By using an in vitro reaggregation assay on mesendodermal cells, combined with an analysis of the endogenous expression levels and distribution of E-cadherin in zebrafish embryos at the onset of gastrulation, E-cadherin mediated adhesion was found to be a downstream mechanism regulating slb/wnt11 function during gastrulation. Interestingly, the effects of slb/wnt11 on cell adhesion appear to be dependent on Rab5-mediated endocytosis, suggesting endocytic turnover of cell-cell contacts as one possible mechanism through which slb/wnt11 mediates its effects on gastrulation movements. - Die Druckexemplare enthalten jeweils eine CD-ROM als Anlagenteil: QuickTimeMovies (ca. 23 MB)- Übersicht über Inhalte siehe Dissertation S. 92 - 93"

Endocytose

Entwicklung

Gastrulation

Vertebraten

Zebrafisch

Zellbewegung

silberblick

wnt11

cell movement

development

endocytosis

gastrulation

silberblick

vertebrate

wnt11

zebrafish

ddc:570

rvk:WX 6400

Embryonalentwicklung

Endocytose

Gastrulation

Zebrabärbling

Zellmigration

wnt-Proteine

Regulation of Zebrafish Gastrulation Movements by slb/wnt11

Ulrich, Florian

31 August 2005

During zebrafish gastrulation, highly coordinated cellular rearrangements lead to the formation of the three germ layers, ectoderm, mesoderm and endoderm. Recent studies have identified silberblick (slb/wnt11) as a key molecule that regulates gastrulation movement through a conserved pathway, which shares significant similarity with a signalling pathway that establishes epithelial planar cell polarity (PCP) in Drosophila (Heisenberg et al., 2000; Veeman et al., 2003), suggesting a role for cell polarity in regulating gastrulation movements. However, the cellular and molecular mechanisms by which slb/wnt11 functions during zebrafish gastrulation are still not fully understood. In the first part of the thesis, the three-dimensional movement and morphology of individual cells in living embryos during the course of gastrulation were recorded and analysed using high resolution confocal microscopy. It was shown that in slb/wnt11 mutant embryos, hypoblast cells within the forming germ ring display slower, less directed migratory movements at the onset of gastrulation, which are accompanied by defects in the orientation of cellular processes along the individual movement directions of these cells. The net movement direction of the cells is not changed, suggesting that slb/wnt11-mediated orientation of cellular processes serves to facilitate and stabilize cell movements during gastrulation. By using an in vitro reaggregation assay on mesendodermal cells, combined with an analysis of the endogenous expression levels and distribution of E-cadherin in zebrafish embryos at the onset of gastrulation, E-cadherin mediated adhesion was found to be a downstream mechanism regulating slb/wnt11 function during gastrulation. Interestingly, the effects of slb/wnt11 on cell adhesion appear to be dependent on Rab5-mediated endocytosis, suggesting endocytic turnover of cell-cell contacts as one possible mechanism through which slb/wnt11 mediates its effects on gastrulation movements. - Die Druckexemplare enthalten jeweils eine CD-ROM als Anlagenteil: QuickTimeMovies (ca. 23 MB)- Übersicht über Inhalte siehe Dissertation S. 92 - 93"

info:eu-repo/classification/ddc/570

ddc:570