Summary
During animal development, boundaries need to be reliably established between cell types to guarantee the physical and functional integrity of tissues. This process requires delicate orchestration of cell proliferation, differentiation and migration, and defects in tissue boundary formation are often linked with abnormal cell behaviours in diseases. Genetic programs involved in cell signalling and cell sorting across tissue boundaries have been previously identified, yet we still lack a systematic understanding of the mechanisms underlying boundary formation, because it has been challenging to analyse the coordination of gene expression, cell lineages and cell movement in space and time.
In this study, I will probe the in vivo mechanisms of tissue boundary formation using the zebrafish embryonic shield as a model system. The embryonic shield in zebrafish embryos is an evolutionarily conserved “organizer” structure that is critical for setting up the overall body plan of the embryos. The shield region contains overlapping progenitor cells that give rise to various tissue structures whose boundaries form and sharpen during gastrulation. However, the formation of shield progenitor cells into compartmentalized tissues has been a process that is poorly characterized, and the molecular and biophysical mechanisms that coordinate cell differentiation and morphogenesis to establish tissue boundaries remain elusive. I will utilize multi-disciplinary approaches that combine live imaging, spatial transcriptomics and genetic manipulation to determine how shield cells differentiate and generate tissue boundaries. I anticipate identifying cellular and genetic mechanisms controlling boundary formation, and provide a comprehensive and dynamic atlas detailing cell lineages, cell movement and gene expression of early embryogenesis in vertebrates.
In this study, I will probe the in vivo mechanisms of tissue boundary formation using the zebrafish embryonic shield as a model system. The embryonic shield in zebrafish embryos is an evolutionarily conserved “organizer” structure that is critical for setting up the overall body plan of the embryos. The shield region contains overlapping progenitor cells that give rise to various tissue structures whose boundaries form and sharpen during gastrulation. However, the formation of shield progenitor cells into compartmentalized tissues has been a process that is poorly characterized, and the molecular and biophysical mechanisms that coordinate cell differentiation and morphogenesis to establish tissue boundaries remain elusive. I will utilize multi-disciplinary approaches that combine live imaging, spatial transcriptomics and genetic manipulation to determine how shield cells differentiate and generate tissue boundaries. I anticipate identifying cellular and genetic mechanisms controlling boundary formation, and provide a comprehensive and dynamic atlas detailing cell lineages, cell movement and gene expression of early embryogenesis in vertebrates.
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| Web resources: | https://cordis.europa.eu/project/id/101031809 |
| Start date: | 01-09-2022 |
| End date: | 31-08-2024 |
| Total budget - Public funding: | 191 149,44 Euro - 191 149,00 Euro |
Cordis data
Original description
During animal development, boundaries need to be reliably established between cell types to guarantee the physical and functional integrity of tissues. This process requires delicate orchestration of cell proliferation, differentiation and migration, and defects in tissue boundary formation are often linked with abnormal cell behaviours in diseases. Genetic programs involved in cell signalling and cell sorting across tissue boundaries have been previously identified, yet we still lack a systematic understanding of the mechanisms underlying boundary formation, because it has been challenging to analyse the coordination of gene expression, cell lineages and cell movement in space and time.In this study, I will probe the in vivo mechanisms of tissue boundary formation using the zebrafish embryonic shield as a model system. The embryonic shield in zebrafish embryos is an evolutionarily conserved “organizer” structure that is critical for setting up the overall body plan of the embryos. The shield region contains overlapping progenitor cells that give rise to various tissue structures whose boundaries form and sharpen during gastrulation. However, the formation of shield progenitor cells into compartmentalized tissues has been a process that is poorly characterized, and the molecular and biophysical mechanisms that coordinate cell differentiation and morphogenesis to establish tissue boundaries remain elusive. I will utilize multi-disciplinary approaches that combine live imaging, spatial transcriptomics and genetic manipulation to determine how shield cells differentiate and generate tissue boundaries. I anticipate identifying cellular and genetic mechanisms controlling boundary formation, and provide a comprehensive and dynamic atlas detailing cell lineages, cell movement and gene expression of early embryogenesis in vertebrates.
Status
SIGNEDCall topic
MSCA-IF-2020Update Date
28-04-2024
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