EphB1 controls long-range cortical axon guidance through a cell non-autonomous role in GABAergic cells.
Ahlem AssaliGeorge ChenauxJennifer Y ChoStefano BertoNathan A EhrlichChristopher W CowanPublished in: Development (Cambridge, England) (2024)
EphB1 is required for proper guidance of cortical axon projections during brain development, but how EphB1 regulates this process remains unclear. We show here that EphB1 conditional knockout (cKO) in GABAergic cells (Vgat-Cre), but not in cortical excitatory neurons (Emx1-Cre), reproduced the cortical axon guidance defects observed in global EphB1 KO mice. Interestingly, in EphB1 cKOVgat mice, the misguided axon bundles contained co-mingled striatal GABAergic and somatosensory cortical glutamatergic axons. In wild-type mice, somatosensory axons also co-fasciculated with striatal axons, notably in the globus pallidus, suggesting that a subset of glutamatergic cortical axons normally follows long-range GABAergic axons to reach their targets. Surprisingly, the ectopic axons in EphB1 KO mice were juxtaposed to major blood vessels. However, conditional loss of EphB1 in endothelial cells (Tie2-Cre) did not produce the axon guidance defects, suggesting that EphB1 in GABAergic neurons normally promotes avoidance of these ectopic axons from the developing brain vasculature. Together, our data reveal a new role for EphB1 in GABAergic neurons to influence proper cortical glutamatergic axon guidance during brain development.
Keyphrases
- wild type
- endothelial cells
- induced apoptosis
- resting state
- high fat diet induced
- spinal cord
- functional connectivity
- optic nerve
- white matter
- single cell
- cell cycle arrest
- type diabetes
- stem cells
- parkinson disease
- deep brain stimulation
- signaling pathway
- dna methylation
- adipose tissue
- machine learning
- genome wide
- endoplasmic reticulum stress
- big data
- skeletal muscle
- optical coherence tomography
- brain injury
- pi k akt
- data analysis