Hedgehog–FGF signaling axis patterns anterior mesoderm during gastrulation
Alexander Guzzetta, Mervenaz Koska, Megan Rowton, Kaelan R. Sullivan, Jessica Jacobs-Li, Junghun Kweon, Hunter A. Hidalgo, Heather Eckart, Andrew D. Hoffmann, Rebecca Back, Stephanie Lozano, Anne Moon, Anindita Basu, Michael Bressan, Sebastian Pott, Ivan P. Moskowitz
Abstract
Significance Anterior–posterior axis patterning is a fascinating but poorly understood developmental process. Single-cell sequencing was utilized to interrogate patterning abnormalities in a mesoderm-specific Hedgehog (Hh) pathway mutant, which revealed selective anterior mesoderm defects. We found that Hh signaling was required for fibroblast growth factor (FGF) pathway activity in nascent mesoderm during gastrulation. Mouse genetics, cell biology, and genomic experiments indicate that FGF signaling acts downstream of Hh signaling in nascent mesoderm for anterior mesoderm morphogenesis. This work demonstrates the utility of applying single-cell technologies to resolve complex developmental phenotypes. Here, it revealed a role for Hh signaling from the node in organizing anterior mesoderm morphogenesis, independent of its role in left–right determination, by promoting FGF signaling in gastrulating mesoderm.