Admp regulates tail bending by controlling ventral epidermal cell polarity via phosphorylated myosin localization in Ciona
Kogure YS, Muraoka H, Koizumi WC, Gelin-alessi R, Godard BG, Oka K, Heisenberg C-PJ, Hotta K. 2022. Admp regulates tail bending by controlling ventral epidermal cell polarity via phosphorylated myosin localization in Ciona. Development. 149(21), dev200215.
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Author
Kogure, Yuki S.;
Muraoka, Hiromochi;
Koizumi, Wataru C.;
Gelin-alessi, Raphaël;
Godard, Benoit GISTA;
Oka, Kotaro;
Heisenberg, Carl-Philipp ISTA ;
Hotta, Kohji
Department
Abstract
Ventral tail bending, which is transient but pronounced, is found in many chordate embryos and constitutes an interesting model of how tissue interactions control embryo shape. Here, we identify one key upstream regulator of ventral tail bending in embryos of the ascidian Ciona. We show that during the early tailbud stages, ventral epidermal cells exhibit a boat-shaped morphology (boat cell) with a narrow apical surface where phosphorylated myosin light chain (pMLC) accumulates. We further show that interfering with the function of the BMP ligand Admp led to pMLC localizing to the basal instead of the apical side of ventral epidermal cells and a reduced number of boat cells. Finally, we show that cutting ventral epidermal midline cells at their apex using an ultraviolet laser relaxed ventral tail bending. Based on these results, we propose a previously unreported function for Admp in localizing pMLC to the apical side of ventral epidermal cells, which causes the tail to bend ventrally by resisting antero-posterior notochord extension at the ventral side of the tail.
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Publishing Year
Date Published
2022-11-01
Journal Title
Development
Publisher
The Company of Biologists
Acknowledgement
iona intestinalis adults were provided by Dr Yutaka Satou (Kyoto University) and Dr Manabu Yoshida (the University of Tokyo) with support from the National Bio-Resource Project of AMED, Japan. We thank Dr Hidehiko Hashimoto and Dr Yuji Mizotani for technical information about 1P-myosin antibody staining. We thank Dr Kaoru Imai and Dr Yutaka Satou for valuable discussion about Admp and for the DNA construct of Bmp2/4 under the Dlx.b upstream sequence. We thank Ms Maki Kogure for constructing the FUSION360 of the intercalating epidermal cell.
This work was supported by funding from the Japan Society for the Promotion of Science (JP16H01451, JP21H00440). Open Access funding provided by Keio University: Keio Gijuku Daigaku.
Volume
149
Issue
21
Article Number
dev200215
ISSN
eISSN
IST-REx-ID
Cite this
Kogure YS, Muraoka H, Koizumi WC, et al. Admp regulates tail bending by controlling ventral epidermal cell polarity via phosphorylated myosin localization in Ciona. Development. 2022;149(21). doi:10.1242/dev.200215
Kogure, Y. S., Muraoka, H., Koizumi, W. C., Gelin-alessi, R., Godard, B. G., Oka, K., … Hotta, K. (2022). Admp regulates tail bending by controlling ventral epidermal cell polarity via phosphorylated myosin localization in Ciona. Development. The Company of Biologists. https://doi.org/10.1242/dev.200215
Kogure, Yuki S., Hiromochi Muraoka, Wataru C. Koizumi, Raphaël Gelin-alessi, Benoit G Godard, Kotaro Oka, Carl-Philipp J Heisenberg, and Kohji Hotta. “Admp Regulates Tail Bending by Controlling Ventral Epidermal Cell Polarity via Phosphorylated Myosin Localization in Ciona.” Development. The Company of Biologists, 2022. https://doi.org/10.1242/dev.200215.
Y. S. Kogure et al., “Admp regulates tail bending by controlling ventral epidermal cell polarity via phosphorylated myosin localization in Ciona,” Development, vol. 149, no. 21. The Company of Biologists, 2022.
Kogure YS, Muraoka H, Koizumi WC, Gelin-alessi R, Godard BG, Oka K, Heisenberg C-PJ, Hotta K. 2022. Admp regulates tail bending by controlling ventral epidermal cell polarity via phosphorylated myosin localization in Ciona. Development. 149(21), dev200215.
Kogure, Yuki S., et al. “Admp Regulates Tail Bending by Controlling Ventral Epidermal Cell Polarity via Phosphorylated Myosin Localization in Ciona.” Development, vol. 149, no. 21, dev200215, The Company of Biologists, 2022, doi:10.1242/dev.200215.
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