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Proteolytically released Lasso/teneurin-2 induces axonal attraction by interacting with latrophilin-1 on axonal growth cones

  1. Author:
    Vysokov, Nickolai V.
    Silva, John-Paul
    Lelianova, Vera G.
    Suckling, Jason
    Cassidy, John
    Blackburn, Jennifer K.
    Yankova, Natalia
    Djamgoz, Mustafa B. A.
    Kozlov,Serguei
    Tonevitsky, Alexander G.
    Ushkaryov, Yuri A.

  2. Author Address

    Univ Kent, Sch Pharm, Chatham, Kent, England.Imperial Coll London, Dept Life Sci, London, England.Kings Coll London, Wolfson Ctr Age Related Dis, London, England.BrainPatch Ltd, London, England.UCB Pharma, Dept Bioanalyt Sci, Nonclin Dev, Slough, Berks, England.Thomsons Online Benefits, London, England.Arix Biosci, London, England.Yale Univ, Sch Med, Div Mol Psychiat, New Haven, CT USA.Kings Coll London, Inst Psychiat Psychol & Neurosci, Dept Basic & Clin Neurosci, Maurice Wohl Clin Neurosci Inst, London, England.NCI, Ctr Adv Preclin Res, Frederick, MD 21701 USA.Higher Sch Econ, Moscow, Russia.Sci Res Ctr Bioclin, Moscow, Russia.
    1. Year: 2018
    2. Date: NOV 20
    3. Epub Date: 2018 11 20
  2. Journal: ELIFE
  3. ELIFE SCIENCES PUBLICATIONS LTD,
    1. 7
    2. Pages: pii: e37935.
  5. Type of Article: Article
  6. Article Number: e37935
  7. ISSN: 2050-084X
  1. Abstract:

    A presynaptic adhesion G-protein-coupled receptor, latrophilin-1, and a postsynaptic transmembrane protein, Lasso/teneurin-2, are implicated in trans-synaptic interaction that contributes to synapse formation. Surprisingly, during neuronal development, a substantial proportion of Lasso is released into the intercellular space by regulated proteolysis, potentially precluding its function in synaptogenesis. We found that released Lasso binds to cell-surface latrophilin-1 on axonal growth cones. Using microfluidic devices to create stable gradients of soluble Lasso, we show that it induces axonal attraction, without increasing neurite outgrowth. Using latrophilin-1 knockout in mice, we demonstrate that latrophilin-1 is required for this effect. After binding latrophilin-1, Lasso causes downstream signaling, which leads to an increase in cytosolic calcium and enhanced exocytosis, processes that are known to mediate growth cone steering. These findings reveal a novel mechanism of axonal pathfinding, whereby latrophilin-1 and Lasso mediate both short-range interaction that supports synaptogenesis, and long-range signaling that induces axonal attraction.

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External Sources

  1. View Full Text
  2. DOI: 10.7554/eLife.37935
  3. PMID: 30457553
  4. PMCID: PMC6245728
  5. View record in Web of ScienceĀ®
  6. WOS: 000450549500001

Library Notes

  1. Fiscal Year: FY2018-2019
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