TY - JOUR T1 - Myogenic regulatory factors MyoD and Myf5 are required for dorsal aorta formation and angiogenic sprouting JF - bioRxiv DO - 10.1101/2022.01.20.477095 SP - 2022.01.20.477095 AU - Eric Paulissen AU - Benjamin L. Martin Y1 - 2022/01/01 UR - http://biorxiv.org/content/early/2022/01/21/2022.01.20.477095.abstract N2 - The vertebrate embryonic midline vasculature forms in close proximity to the developing skeletal muscle, which originates in the somites. Angioblasts migrate from bilateral positions along the ventral edge of the somites until they meet at the midline, where they sort and differentiate into the dorsal aorta and the cardinal vein. This migration occurs at that the same time that myoblasts in the somites are beginning to differentiate into skeletal muscle, a process which requires the activity of the basic helix loop helix (bHLH) transcription factors Myod and Myf5. Here we examined vasculature formation in myod and myf5 mutant zebrafish. In the absence of skeletal myogenesis, angioblasts migrate normally to the midline but form only the cardinal vein and not the dorsal aorta. The phenotype is due to the failure to activate vascular endothelial growth factor ligand vegfaa expression in the somites, which in turn is required in the adjacent angioblasts for dorsal aorta specification. Myod and Myf5 cooperate with Hedgehog signaling to activate and later maintain vegfaa expression in the medial somites, which is required for angiogenic sprouting from the dorsal aorta. Our work reveals that the early embryonic skeletal musculature in teleosts evolved to organize the midline vasculature during development.Summary statement The myogenic transcription factors MyoD and Myf5 have a novel function in inducing the artery through regulation of Vegf.Competing Interest StatementThe authors have declared no competing interest. ER -