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Molecular mechanisms of tubulogenesis revealed in the sea star hydro-vascular organ

Margherita Perillo (), S. Zachary Swartz, Cosmo Pieplow and Gary M. Wessel ()
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Margherita Perillo: Cellular Biology and Biochemistry, BioMed Division, Brown University
S. Zachary Swartz: Whitehead Institute for Biomedical Research
Cosmo Pieplow: Cellular Biology and Biochemistry, BioMed Division, Brown University
Gary M. Wessel: Cellular Biology and Biochemistry, BioMed Division, Brown University

Nature Communications, 2023, vol. 14, issue 1, 1-17

Abstract: Abstract A fundamental goal in the organogenesis field is to understand how cells organize into tubular shapes. Toward this aim, we have established the hydro-vascular organ in the sea star Patiria miniata as a model for tubulogenesis. In this animal, bilateral tubes grow out from the tip of the developing gut, and precisely extend to specific sites in the larva. This growth involves cell migration coupled with mitosis in distinct zones. Cell proliferation requires FGF signaling, whereas the three-dimensional orientation of the organ depends on Wnt signaling. Specification and maintenance of tube cell fate requires Delta/Notch signaling. Moreover, we identify target genes of the FGF pathway that contribute to tube morphology, revealing molecular mechanisms for tube outgrowth. Finally, we report that FGF activates the Six1/2 transcription factor, which serves as an evolutionarily ancient regulator of branching morphogenesis. This study uncovers distinct mechanisms of tubulogenesis in vivo and we propose that cellular dynamics in the sea star hydro-vascular organ represents a key comparison for understanding the evolution of vertebrate organs.

Date: 2023
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DOI: 10.1038/s41467-023-37947-2

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