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  • Motor neurons use push-pull signals to direct vascular remodeling critical for their connectivity.

Motor neurons use push-pull signals to direct vascular remodeling critical for their connectivity.

Neuron (2022-10-15)
Luis F Martins, Ilaria Brambilla, Alessia Motta, Stefano de Pretis, Ganesh Parameshwar Bhat, Aurora Badaloni, Chiara Malpighi, Neal D Amin, Fumiyasu Imai, Ramiro D Almeida, Yutaka Yoshida, Samuel L Pfaff, Dario Bonanomi
ABSTRACT

The nervous system requires metabolites and oxygen supplied by the neurovascular network, but this necessitates close apposition of neurons and endothelial cells. We find motor neurons attract vessels with long-range VEGF signaling, but endothelial cells in the axonal pathway are an obstacle for establishing connections with muscles. It is unclear how this paradoxical interference from heterotypic neurovascular contacts is averted. Through a mouse mutagenesis screen, we show that Plexin-D1 receptor is required in endothelial cells for development of neuromuscular connectivity. Motor neurons release Sema3C to elicit short-range repulsion via Plexin-D1, thus displacing endothelial cells that obstruct axon growth. When this signaling pathway is disrupted, epaxial motor neurons are blocked from reaching their muscle targets and concomitantly vascular patterning in the spinal cord is altered. Thus, an integrative system of opposing push-pull cues ensures detrimental axon-endothelial encounters are avoided while enabling vascularization within the nervous system and along peripheral nerves.

MATERIALS
Product Number
Brand
Product Description

Supelco
Vials, screw top with polypropylene open-top cap, pre-assembled, pkg of 100, volume 15 mL, clear glass vial, tan PTFE/silicone septum
Sigma-Aldrich
Monoclonal ANTI-FLAG® M2 antibody produced in mouse, 1 mg/mL, clone M2, affinity isolated antibody, buffered aqueous solution (50% glycerol, 10 mM sodium phosphate, and 150 mM NaCl, pH 7.4)