Mixer/Bon and FoxH1/Sur have overlapping and divergent roles in Nodal signaling and mesendoderm induction

doi:10.1242/dev.00803

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First published online 1 October 2003
doi: 10.1242/dev.00803

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Development 130, 5589-5599 (2003)
Copyright © 2003 The Company of Biologists Limited

Mixer/Bon and FoxH1/Sur have overlapping and divergent roles in Nodal signaling and mesendoderm induction

Prabhat S. Kunwar¹^,*, Steven Zimmerman¹^,*, James T. Bennett¹, Yu Chen¹, Malcolm Whitman² and Alexander F. Schier¹^,

¹ Developmental Genetics Program, Skirball Institute of Biomolecular Medicine, Department of Cell Biology, New York University School of Medicine, New York, NY 10016, USA
² Department of Cell Biology, Harvard Medical School, Boston, MA 02115, USA

Author for correspondence (e-mail: schier{at}saturn.med.nyu.edu)

Accepted 12 August 2003

Transcription factors belonging to the FoxH1 and Mixer familiesare required for facets of Nodal signaling during vertebratemesendoderm induction. Here, we analyze whether zebrafish proteinsrelated to FoxH1 [Schmalspur (Sur)] and Mixer [Bonnie and clyde(Bon)] act within or downstream of the Nodal signaling pathway,test whether these two factors have additive or overlappingactivities, and determine whether FoxH1/Sur and Mixer/Bon can accountfor all Nodal signaling during embryogenesis. We find that surexpression is independent of Nodal signaling and that bon isexpressed in the absence of Nodal signaling but requires Nodal signalingand Sur for enhanced, maintained expression. These results andthe association of FoxH1 and Mixer/Bon with phosphorylated Smad2support a role for these factors as components of the Nodalsignaling pathway. In contrast to the relatively mild defectsobserved in single mutants, loss of both bon and sur resultsin a severe phenotype characterized by absence of prechordalplate, cardiac mesoderm, endoderm and ventral neuroectoderm.Analysis of Nodal-regulated proteins reveals that Bon and Sur haveboth distinct and overlapping regulatory roles. Some genes areregulated by both Bon and Sur, and others by either Bon or Sur.Complete loss of Nodal signaling results in a more severe phenotypethan loss of both Bon and Sur, indicating that additional Smad-associatedtranscription factors remain to be identified that act as componentsof the Nodal signaling pathway.

Key words: Nodal, Smad, Mesoderm, Endoderm, FoxH1, Mix, Zebrafish

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