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Vertebrate homologues of C. elegans UNC-5 are candidate netrin receptors

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  • E. David Leonardo

    (Programs in Cell and Developmental Biology and Neuroscience, University of California
    The Jackson Laboratory)

  • Lindsay Hinck

    (Programs in Cell and Developmental Biology and Neuroscience, University of California
    The Jackson Laboratory)

  • Masayuki Masu

    (Programs in Cell and Developmental Biology and Neuroscience, University of California
    The Jackson Laboratory)

  • Kazuko Keino-Masu

    (Programs in Cell and Developmental Biology and Neuroscience, University of California
    National Defense Medical College)

  • Susan L. Ackerman

    (The Jackson Laboratory)

  • Marc Tessier-Lavigne

    (Programs in Cell and Developmental Biology and Neuroscience, University of California)

Abstract

In the developing nervous system, migrating cells and axons are guided to their targets by cues in the extracellular environment. The netrins are a family of phylogenetically conserved guidance cues that can function as diffusible attractants and repellents for different classes of cells and axons1–10. In vertebrates, insects and nematodes, members of the DCC subfamily of the immunoglobulin superfamily have been implicated as receptors that are involved in migration towards netrin sources6,11–13,15. The mechanisms that direct migration away from netrin sources (presumed repulsions) are less well understood. In Caenorhabditis elegans, the transmembrane protein UNC-5 (ref. 14) has been implicated in these responses, as loss of unc-5 function causes migration defects16,17 and ectopic expression of unc-5 in some neurons can redirect their axons away from a netrin source18. Whether UNC-5 is a netrin receptor or simply an accessory to such a receptor has not, however, been defined. We now report the identification of two vertebrate homologues of UNC-5 which, with UNC-5 and the product of the mouse rostral cerebellar malformation gene (rcm)19, define a new subfamily of the immunoglobulin superfamily, and whose messenger RNAs show prominent expression in various classes of differentiating neurons. We provide evidence that these two UNC-5 homologues, as well as the rcm gene product, are netrin-binding proteins, supporting the hypothesis that UNC-5 and its relatives are netrin receptors.

Suggested Citation

  • E. David Leonardo & Lindsay Hinck & Masayuki Masu & Kazuko Keino-Masu & Susan L. Ackerman & Marc Tessier-Lavigne, 1997. "Vertebrate homologues of C. elegans UNC-5 are candidate netrin receptors," Nature, Nature, vol. 386(6627), pages 833-838, April.
  • Handle: RePEc:nat:nature:v:386:y:1997:i:6627:d:10.1038_386833a0
    DOI: 10.1038/386833a0
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    Cited by:

    1. Kevin Boyé & Luiz Henrique Geraldo & Jessica Furtado & Laurence Pibouin-Fragner & Mathilde Poulet & Doyeun Kim & Bryce Nelson & Yunling Xu & Laurent Jacob & Nawal Maissa & Dritan Agalliu & Lena Claess, 2022. "Endothelial Unc5B controls blood-brain barrier integrity," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    2. Markus Meier & Monika Gupta & Serife Akgül & Matthew McDougall & Thomas Imhof & Denise Nikodemus & Raphael Reuten & Aniel Moya-Torres & Vu To & Fraser Ferens & Fabian Heide & Gay Pauline Padilla-Meier, 2023. "The dynamic nature of netrin-1 and the structural basis for glycosaminoglycan fragment-induced filament formation," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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