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Neuronal sFlt1 and Vegfaa determine venous sprouting and spinal cord vascularization

Author

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  • Raphael Wild

    (Institute of Zoology (ZOO) Karlsruhe Institute of Technology (KIT)
    Institute for Toxicology and Genetics (ITG), Karlsruhe Institute of Technology (KIT))

  • Alina Klems

    (Institute of Zoology (ZOO) Karlsruhe Institute of Technology (KIT)
    Institute for Toxicology and Genetics (ITG), Karlsruhe Institute of Technology (KIT))

  • Masanari Takamiya

    (Institute for Toxicology and Genetics (ITG), Karlsruhe Institute of Technology (KIT))

  • Yuya Hayashi

    (Institute for Toxicology and Genetics (ITG), Karlsruhe Institute of Technology (KIT)
    Aarhus University)

  • Uwe Strähle

    (Institute for Toxicology and Genetics (ITG), Karlsruhe Institute of Technology (KIT))

  • Koji Ando

    (National Cerebral and Cardiovascular Research Institute)

  • Naoki Mochizuki

    (National Cerebral and Cardiovascular Research Institute)

  • Andreas van Impel

    (Institute for Cardiovascular Organogenesis and Regeneration, Faculty of Medicine, University of Münster
    Cells-in-Motion Cluster of Excellence, (EXC 1003-CiM), University of Münster)

  • Stefan Schulte-Merker

    (Institute for Cardiovascular Organogenesis and Regeneration, Faculty of Medicine, University of Münster
    Cells-in-Motion Cluster of Excellence, (EXC 1003-CiM), University of Münster)

  • Janna Krueger

    (Biological Sciences Platform, Sunnybrook Research Institute)

  • Laetitia Preau

    (Institute of Zoology (ZOO) Karlsruhe Institute of Technology (KIT))

  • Ferdinand le Noble

    (Institute of Zoology (ZOO) Karlsruhe Institute of Technology (KIT)
    Institute for Toxicology and Genetics (ITG), Karlsruhe Institute of Technology (KIT))

Abstract

Formation of organ-specific vasculatures requires cross-talk between developing tissue and specialized endothelial cells. Here we show how developing zebrafish spinal cord neurons coordinate vessel growth through balancing of neuron-derived Vegfaa, with neuronal sFlt1 restricting Vegfaa-Kdrl mediated angiogenesis at the neurovascular interface. Neuron-specific loss of flt1 or increased neuronal vegfaa expression promotes angiogenesis and peri-neural tube vascular network formation. Combining loss of neuronal flt1 with gain of vegfaa promotes sprout invasion into the neural tube. On loss of neuronal flt1, ectopic sprouts emanate from veins involving special angiogenic cell behaviours including nuclear positioning and a molecular signature distinct from primary arterial or secondary venous sprouting. Manipulation of arteriovenous identity or Notch signalling established that ectopic sprouting in flt1 mutants requires venous endothelium. Conceptually, our data suggest that spinal cord vascularization proceeds from veins involving two-tiered regulation of neuronal sFlt1 and Vegfaa via a novel sprouting mode.

Suggested Citation

  • Raphael Wild & Alina Klems & Masanari Takamiya & Yuya Hayashi & Uwe Strähle & Koji Ando & Naoki Mochizuki & Andreas van Impel & Stefan Schulte-Merker & Janna Krueger & Laetitia Preau & Ferdinand le No, 2017. "Neuronal sFlt1 and Vegfaa determine venous sprouting and spinal cord vascularization," Nature Communications, Nature, vol. 8(1), pages 1-17, April.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms13991
    DOI: 10.1038/ncomms13991
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    Cited by:

    1. Laetitia Préau & Anna Lischke & Melanie Merkel & Neslihan Oegel & Maria Weissenbruch & Andria Michael & Hongryeol Park & Dietmar Gradl & Christian Kupatt & Ferdinand Noble, 2024. "Parenchymal cues define Vegfa-driven venous angiogenesis by activating a sprouting competent venous endothelial subtype," Nature Communications, Nature, vol. 15(1), pages 1-22, December.

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