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Echinobase
ECB-ART-49154
Development 2021 May 15;14810:. doi: 10.1242/dev.180760.
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FGF signalling plays similar roles in development and regeneration of the skeleton in the brittle star Amphiura filiformis.

Czarkwiani A , Dylus DV , Carballo L , Oliveri P .


Abstract
Regeneration as an adult developmental process is in many aspects similar to embryonic development. Although many studies point out similarities and differences, no large-scale, direct and functional comparative analyses between development and regeneration of a specific cell type or structure in one animal exist. Here, we use the brittle star Amphiura filiformis to characterise the role of the FGF signalling pathway during skeletal development in embryos and arm regeneration. In both processes, we find ligands expressed in ectodermal cells that flank underlying skeletal mesenchymal cells, which express the receptors. Perturbation of FGF signalling showed inhibited skeleton formation in both embryogenesis and regeneration, without affecting other key developmental processes. Differential transcriptome analysis finds mostly differentiation genes rather than transcription factors to be downregulated in both contexts. Moreover, comparative gene analysis allowed us to discover brittle star-specific differentiation genes. In conclusion, our results show that the FGF pathway is crucial for skeletogenesis in the brittle star, as in other deuterostomes, and provide evidence for the re-deployment of a developmental gene regulatory module during regeneration.

PubMed ID: 34042967
PMC ID: PMC8180256
Article link: Development
Grant support: [+]



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References [+] :
Adomako-Ankomah, Growth factor-mediated mesodermal cell guidance and skeletogenesis during sea urchin gastrulation. 2013, Pubmed, Echinobase