Admp regulates tail bending by controlling the intercalation of the ventral epidermis through myosin phosphorylation

Chordate tailbud embryos have similar morphological features, including a bending tail. A recent study revealed that the actomyosin of the notochord changes the contractility and drive tail bending of the early Ciona tailbud embryo. Yet, the upstream regulator of tail bending remains unknown. In this study, we find that Admp regulates tail bending of Ciona mid-tailbud embryos. Anti-pSmad antibody signal was detected at the ventral midline tail epidermis. Admp knock-down embryo completely inhibited the ventral tail bending and reduced the number of the triangular-shaped cells, which has the apical accumulation of the myosin phosphorylation and inhibited specifically the cell-cell intercalation of the ventral epidermis. The degree of myosin phosphorylation of the ventral cells and tail bending were correlated. Finally, the laser cutter experiments demonstrated the myosin-phosphorylation-dependent tension of the ventral midline epidermis during tail bending. We conclude that Admp is an upstream regulator of the tail bending by controlling myosin phosphorylation and its localization of ventral epidermal cells. These data reveal a new aspect of the function of the Admp that might be evolutionarily conserved in bilaterian animals.