Structural Principles in Robo Activation and Auto-inhibition.

Animals Axons / metabolism COS Cells Caenorhabditis elegans / metabolism Carrier Proteins Chlorocebus aethiops HEK293 Cells Humans Mice Mice, Inbred ICR Nerve Tissue Proteins / metabolism Neurons / metabolism Primary Cell Culture Receptors, Immunologic / metabolism Signal Transduction Roundabout Proteins

Journal

Cell
ISSN: 1097-4172
Titre abrégé: Cell
Pays: United States
ID NLM: 0413066

Informations de publication

Date de publication:
04 04 2019
Historique:
received: 02 09 2018
revised: 06 12 2018
accepted: 06 02 2019
pubmed: 12 3 2019
medline: 25 1 2020
entrez: 12 3 2019
Statut: ppublish

Résumé

Proper brain function requires high-precision neuronal expansion and wiring, processes controlled by the transmembrane Roundabout (Robo) receptor family and their Slit ligands. Despite their great importance, the molecular mechanism by which Robos' switch from "off" to "on" states remains unclear. Here, we report a 3.6 Å crystal structure of the intact human Robo2 ectodomain (domains D1-8). We demonstrate that Robo cis dimerization via D4 is conserved through hRobo1, 2, and 3 and the C. elegans homolog SAX-3 and is essential for SAX-3 function in vivo. The structure reveals two levels of auto-inhibition that prevent premature activation: (1) cis blocking of the D4 dimerization interface and (2) trans interactions between opposing Robo receptors that fasten the D4-blocked conformation. Complementary experiments in mouse primary neurons and C. elegans support the auto-inhibition model. These results suggest that Slit stimulation primarily drives the release of Robo auto-inhibition required for dimerization and activation.

Identifiants

DOI: 10.1016/j.cell.2019.02.004 PMID: 30853216
pubmed: 30853216
pii: S0092-8674(19)30153-9
doi: 10.1016/j.cell.2019.02.004
pii:
doi:

Substances chimiques

Carrier Proteins 0
Nerve Tissue Proteins 0
ROBO2 protein, human 0
Receptors, Immunologic 0

Types de publication

Journal Article Research Support, Non-U.S. Gov't

Langues

eng

Sous-ensembles de citation

IM

Pagination

272-285.e16

Informations de copyright

Copyright © 2019 Elsevier Inc. All rights reserved.

Auteurs

Reut Barak (R)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel.

Galit Yom-Tov (G)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel.

Julia Guez-Haddad (J)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel.

Lital Gasri-Plotnitsky (L)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel.

Roy Maimon (R)

Department of Physiology and Pharmacology, Sackler Faculty of Medicine, Tel Aviv University, Israel.

Moran Cohen-Berkman (M)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel.

Andrew A McCarthy (AA)

European Molecular Biology Laboratory, Grenoble, France.

Eran Perlson (E)

Department of Physiology and Pharmacology, Sackler Faculty of Medicine, Tel Aviv University, Israel.

Sivan Henis-Korenblit (S)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel.

Michail N Isupov (MN)

Biosciences, University of Exeter, Exeter, UK.

Yarden Opatowsky (Y)

The Mina & Everard Goodman Faculty of Life Sciences, Bar-Ilan University, Israel. Electronic address: yarden.opatowsky@biu.ac.il.

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Classifications MeSH

questionsmedicales.fr Eucaryotes Animaux Structural Principles in Robo Activation and...
questionsmedicales.fr Cellules Neurones Neurofibres Axones Structural Principles in Robo Activation and...
questionsmedicales.fr Cellules Cellules du tissu conjonctif Fibroblastes Cellules COS Structural Principles in Robo Activation and...
questionsmedicales.fr Eucaryotes Animaux Invertébrés Helminthes Nematoda Chromadorea Rhabditida Rhabditoidea Caenorhabditis Caenorhabditis elegans Structural Principles in Robo Activation and...
questionsmedicales.fr Acides aminés, peptides et protéines Protéines Protéines de transport Structural Principles in Robo Activation and...
questionsmedicales.fr Eucaryotes Animaux Chordés Vertébrés Mammifères Eutheria Primates Haplorhini Catarrhini Cercopithecidae Cercopithecinae Cercopithecus Cercopithecus aethiops Structural Principles in Robo Activation and...
questionsmedicales.fr Cellules Cellules épithéliales Cellules HEK293 Structural Principles in Robo Activation and...
questionsmedicales.fr Eucaryotes Animaux Chordés Vertébrés Mammifères Eutheria Primates Haplorhini Catarrhini Hominidae Humains Structural Principles in Robo Activation and...
questionsmedicales.fr Eucaryotes Animaux Chordés Vertébrés Mammifères Eutheria Rodentia Muridae Murinae Souris Structural Principles in Robo Activation and...
questionsmedicales.fr Eucaryotes Animaux Chordés Vertébrés Mammifères Eutheria Rodentia Muridae Murinae Souris Lignées consanguines de souris Souris de lignée ICR Structural Principles in Robo Activation and...
questionsmedicales.fr Acides aminés, peptides et protéines Protéines Protéines de tissu nerveux Structural Principles in Robo Activation and...
questionsmedicales.fr Cellules Neurones Structural Principles in Robo Activation and...
questionsmedicales.fr Techniques d'investigation Techniques in vitro Techniques de culture Techniques de culture cellulaire Culture de cellules primaires Structural Principles in Robo Activation and...
questionsmedicales.fr Acides aminés, peptides et protéines Protéines Protéines membranaires Récepteurs de surface cellulaire Récepteurs immunologiques Structural Principles in Robo Activation and...
questionsmedicales.fr Phénomènes physiologiques cellulaires Transduction du signal Structural Principles in Robo Activation and...