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The role of yolk syncytial layer and blastoderm movements during gastrulation in zebrafish
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Resumo(s)
During gastrulation, a set of highly coordinated morphogenetic movements creates the
shape and internal organization of the embryo. In teleostean fishes, these morphogenetic
movements involve not only the embryonic progenitor cells (deep cells) but also two
extra-embryonic tissues: an outer sheet of epithelial cells (EVL) and a yolk syncytial
layer (YSL). Epiboly is characterized by the spreading of the blastoderm (deep cells and
EVL) to cover the large yolk cell, whereas convergence and extension leads,
respectively, to mediolateral narrowing and anteroposterior elongation of the embryo.
Recent studies have shown that the nuclei of the YSL undergo epiboly and
convergence and extension movements similarly to the overlying deep cells, suggesting
that these tissues interact during gastrulation. However, it is so far not clear whether and
how the movements of YSL nuclei and deep cells influence each other.
In the first part of this thesis, the convergence and extension movement of YSL
nuclei was quantitatively compared to the movement of the overlying mesendodermal
progenitor (or “hypoblast)” cells. This revealed that, besides the similarity in the overall
direction of movement, YSL nuclei and hypoblast cell movements display differences
in speed and directionality.
Next, the interaction between YSL and hypoblast was addressed. The movement
of the blastoderm was analyzed when YSL nuclei movement was impaired by interfering
with the YSL microtubule cytoskeleton. We found that YSL and blastoderm epiboly
were strongly reduced, while convergence and extension were only mildly affected,
suggesting that YSL microtubules and YSL nuclei movement are required for epiboly,
but not essential for convergence and extension of the blastoderm. We also addressed
whether blastodermal cells can influence YSL nuclei movement. In maternal-zygotic
one-eyed pinhead (MZoep) mutant embryos, which lack hypoblast cells, YSL nuclei do
not undergo proper convergence movement. Moreover, transplantation of wild type
hypoblast cells into these mutants locally rescued the YSL nuclei convergence
phenotype, indicating that hypoblast cells can control the movement of YSL nuclei.
Finally, we propose that the hypoblast influences YSL nuclei movement as a
result of shape changes caused by the collective movement of cells, and that this process
requires the adhesion molecule E-cadherin.
Descrição
Tese arquivada ao abrigo da Portaria nº 227/2017 de 25 julho.