Semaphorin 3A repulsion directs the caudal projection of pioneer longitudinal axons in the developing chicken brain

Kerry-Lyn Riley, Susanne Dietrich, Frank Schubert*

*Corresponding author for this work

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Abstract

The medial longitudinal fasciculus (MLF) is the first axon tract to develop in the ventral vertebrate brain. It originates in the diencephalon and projects caudally into the spinal cord, pioneering the path for later developing axons. Previous anatomical and expression analyses in the chicken suggested Semaphorin 3A (Sema3A) as the candidate to repel the amniote MLF from the forebrain. However, studies in the zebrafish implicated a distantly related semaphorin with a role in axon fasciculation, not guidance. Thus, the mechanism accounting for the caudal projection of the MLF remains unclear.
Here we show that misexpression of Sema3A or grafting of Sema3A-expressing cells into the path of the MLF diverts the axons or blocks their outgrowth in chicken embryos. In vitro, Sema3A exposure resulted in the collapse of MLF growth cones. A dominant-negative approach or siRNA to interfere with the function of the Sema3A receptor Neuropilin1 allowed MLF axons to project rostrally. Together, this suggests that Sema3a repulsion directs the caudal extension of the MLF to pioneer the ventral longitudinal tract.
Original languageEnglish
Pages (from-to)77-84
JournalDevelopmental Biology
Volume518
Early online date28 Nov 2024
DOIs
Publication statusEarly online - 28 Nov 2024

Keywords

  • Early axon scaffold
  • Medial longitudinal fasciculus
  • Semaphorin
  • Neuropilin
  • Plexin
  • Axon guidance

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  • LSM 510 Confocal microscope

    Rice, J. (Operator)

    Facility/equipment: Equipment

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