TY - JOUR
T1 - Reelin-Nrp1 interaction regulates neocortical dendrite development in a context-specific manner
AU - Kohno, Takao
AU - Ishii, Keisuke
AU - Hirota, Yuki
AU - Honda, Takao
AU - Makino, Makoto
AU - Kawasaki, Takahiko
AU - Nakajima, Kazunori
AU - Hattori, Mitsuharu
N1 - Funding Information:
This work was supported by Grants-in-Aid for Scientific Research JP17K08281 and JP20K07051 to T. Kohno, JP20K06670 to Y.H., JP18K06508 to T.H., JP16H06482 and JP20H05688 to K.N., JP17H03985 and JP20H03384 to M.H., Grant-in-aid for Research in Nagoya City University 1922006 to T. Kohno, Japan Spina Bifida & Hydrocephalus Research Foundation to Y.H., Takeda Science Foundation, Keio Gijuku Academic Development Funds, and Keio Gijuku Fukuzawa Memorial Fund for the Advancement of Education and Research to K.N. We thank Drs. J. Takagi (Osaka University), K. Mikoshiba (ShanghaiTech University), D. Feldheim (University of California at Santa Cruz), and Y. Hatanaka (Osaka University) for valuable comments; and Drs. C. Cepko (Harvard Medical School), T. Curran (Children's Mercy Hospital Kansas City), J.G. Flanagan (Harvard Medical School), C. Hanashima (Waseda University), T. Iwasato (National Institute of Genetics, Japan), J. Miyazaki (Osaka University), K. Nakayama (Kyoto University), and K. Shirotani (Nagasaki University) for providing plasmids.
Funding Information:
This work was supported by Grants-in-Aid for Scientific Research JP17K08281 and JP20K07051 to T. Kohno, JP20K06670 to Y.H., JP18K06508 to T.H., JP16H06482 and JP20H05688 to K.N., JP17H03985 and JP20H03384 to M.H., Grant-in-aid for Research in Nagoya City University 1922006 to T. Kohno, Japan Spina Bifida & Hydrocephalus Research Foundation to Y.H., Takeda Science Foundation, Keio Gijuku Academic Development Funds, and Keio Gijuku Fukuzawa Memorial Fund for the Advancement of Education and Research to K.N. We thank Drs. J. Takagi (Osaka University), K. Mikoshiba (ShanghaiTech University), D. Feldheim (University of California at Santa Cruz), and Y. Hatanaka (Osaka University) for valuable comments; and Drs. C. Cepko (Harvard Medical School), T. Curran (Children’s Mercy Hospital Kansas City), J.G. Flanagan (Harvard Medical School), C. Hanashima (Waseda University), T. Iwasato (National Institute of Genetics, Japan), J. Miyazaki (Osaka University), K. Nakayama (Kyoto University), and K. Shirotani (Nagasaki University) for providing plasmids. The authors declare no competing financial interests.
Publisher Copyright:
© 2020 the authors
PY - 2020/10/21
Y1 - 2020/10/21
N2 - Reelin plays versatile roles in neocortical development. The C-terminal region (CTR) of Reelin is required for the correct formation of the superficial structure of the neocortex; however, the mechanisms by which this position-specific effect occurs remain largely unknown. In this study, we demonstrate that Reelin with an intact CTR binds to neuropilin-1 (Nrp1), a transmembrane protein. Both male and female mice were used. Nrp1 is localized with very-low-density lipoprotein receptor (VLDLR), a canonical Reelin receptor, in the superficial layers of the developing neocortex. It forms a complex with VLDLR, and this interaction is modulated by the alternative splicing of VLDLR. Reelin with an intact CTR binds more strongly to the VLDLR/Nrp1 complex than to VLDLR alone. Knockdown of Nrp1 in neurons leads to the accumulation of Dab1 protein. Since the degradation of Dab1 is induced by Reelin signaling, it is suggested that Nrp1 augments Reelin signaling. The interaction between Reelin and Nrp1 is required for normal dendritic development in superficial-layer neurons. All of these characteristics of Reelin are abrogated by proteolytic processing of the six C-terminal amino acid residues of Reelin (0.17% of the whole protein). Therefore, Nrp1 is a coreceptor molecule for Reelin and, together with the proteolytic processing of Reelin, can account for context-specific Reelin function in brain development.
AB - Reelin plays versatile roles in neocortical development. The C-terminal region (CTR) of Reelin is required for the correct formation of the superficial structure of the neocortex; however, the mechanisms by which this position-specific effect occurs remain largely unknown. In this study, we demonstrate that Reelin with an intact CTR binds to neuropilin-1 (Nrp1), a transmembrane protein. Both male and female mice were used. Nrp1 is localized with very-low-density lipoprotein receptor (VLDLR), a canonical Reelin receptor, in the superficial layers of the developing neocortex. It forms a complex with VLDLR, and this interaction is modulated by the alternative splicing of VLDLR. Reelin with an intact CTR binds more strongly to the VLDLR/Nrp1 complex than to VLDLR alone. Knockdown of Nrp1 in neurons leads to the accumulation of Dab1 protein. Since the degradation of Dab1 is induced by Reelin signaling, it is suggested that Nrp1 augments Reelin signaling. The interaction between Reelin and Nrp1 is required for normal dendritic development in superficial-layer neurons. All of these characteristics of Reelin are abrogated by proteolytic processing of the six C-terminal amino acid residues of Reelin (0.17% of the whole protein). Therefore, Nrp1 is a coreceptor molecule for Reelin and, together with the proteolytic processing of Reelin, can account for context-specific Reelin function in brain development.
KW - Dendrite
KW - Neocortex
KW - Neuropilin
KW - Proteolysis
KW - Radial migration
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UR - http://www.scopus.com/inward/citedby.url?scp=85094221651&partnerID=8YFLogxK
U2 - 10.1523/JNEUROSCI.1907-20.2020
DO - 10.1523/JNEUROSCI.1907-20.2020
M3 - Article
C2 - 33009002
AN - SCOPUS:85094221651
SN - 0270-6474
VL - 40
SP - 8248
EP - 8261
JO - Journal of Neuroscience
JF - Journal of Neuroscience
IS - 43
ER -