Author
Listed:
- Tetsuya Takano
(Nagoya University Graduate School of Medicine)
- Mengya Wu
(Nagoya University Graduate School of Medicine)
- Shinichi Nakamuta
(Nagoya University Graduate School of Medicine)
- Honda Naoki
(Kyoto University)
- Naruki Ishizawa
(Nagoya University Graduate School of Medicine)
- Takashi Namba
(Nagoya University Graduate School of Medicine)
- Takashi Watanabe
(University of North Carolina)
- Chundi Xu
(Nagoya University Graduate School of Medicine)
- Tomonari Hamaguchi
(Nagoya University Graduate School of Medicine)
- Yoshimitsu Yura
(Nagoya University Graduate School of Medicine)
- Mutsuki Amano
(Nagoya University Graduate School of Medicine)
- Klaus M. Hahn
(University of North Carolina)
- Kozo Kaibuchi
(Nagoya University Graduate School of Medicine)
Abstract
A long-standing question in neurodevelopment is how neurons develop a single axon and multiple dendrites from common immature neurites. Long-range inhibitory signaling from the growing axon is hypothesized to prevent outgrowth of other immature neurites and to differentiate them into dendrites, but the existence and nature of this inhibitory signaling remains unknown. Here, we demonstrate that axonal growth triggered by neurotrophin-3 remotely inhibits neurite outgrowth through long-range Ca2+ waves, which are delivered from the growing axon to the cell body. These Ca2+ waves increase RhoA activity in the cell body through calcium/calmodulin-dependent protein kinase I. Optogenetic control of Rho-kinase combined with computational modeling reveals that active Rho-kinase diffuses to growing other immature neurites and inhibits their outgrowth. Mechanistically, calmodulin-dependent protein kinase I phosphorylates a RhoA-specific GEF, GEF-H1, whose phosphorylation enhances its GEF activity. Thus, our results reveal that long-range inhibitory signaling mediated by Ca2+ wave is responsible for neuronal polarization.
Suggested Citation
Tetsuya Takano & Mengya Wu & Shinichi Nakamuta & Honda Naoki & Naruki Ishizawa & Takashi Namba & Takashi Watanabe & Chundi Xu & Tomonari Hamaguchi & Yoshimitsu Yura & Mutsuki Amano & Klaus M. Hahn & K, 2017.
"Discovery of long-range inhibitory signaling to ensure single axon formation,"
Nature Communications, Nature, vol. 8(1), pages 1-18, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00044-2
DOI: 10.1038/s41467-017-00044-2
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