Add to ORKGIn the mammalian CNS, glial cells repel axons during development and inhibit axon regeneration after injury. It is unknown whether the same repulsive axon guidance molecules expressed by glia and their precursors during development also play a role in inhibiting regeneration in the injured CNS. Here we investigate whether optic nerve glial cells express semaphorin family members and, if so, whether these semaphorins inhibit axon growth by retinal ganglion cells (RGCs). We show that each optic nerve glial cell type, astrocytes, oligodendrocytes, and their precursor cells, expressed a distinct complement of semaphorins. One of these, sema5A, was expressed only by purified oligodendrocytes and their precursors, but not by astrocytes, and was p...
The centrally projecting sensory axons of the dorsal root ganglia follow a well established pattern ...
<div><p>The peripheral sensory nerves that innervate the cornea can be easily damaged by trauma, sur...
The regenerative capacity of CNS tracts has ever been a great hurdle to regenerative medicine. Altho...
Semaphorins are developmental axon guidance cues that continue to be expressed during adulthood and ...
The neural scar that forms after injury to the mammalian central nervous system is a barrier to spro...
During embryonic development, axons grow from the retina of the eye to the tectum of the brain which...
Regenerating axons stop growing when they reach the border of the glial-fibrotic scar, presumably be...
During the development of the visual system, retinal ganglion cells (RGCs) must project their axons ...
Semaphorins are a family of secreted and membrane-bound proteins, known to regulate axonal pathfindi...
In the developing nervous system, extending axons are directed towards their appropriate targets by ...
In the developing nervous system, extending axons are directed towards their appropriate targets by ...
Semaphorin 3A (Sema3A) is a crucial axon guidance cue in the nervous system during embryonic develop...
Abstract In the developing nervous system, extending axons are directed towards their appropriate ta...
The mammalian nervous system develops through five recognized stages: induction, differentiation, mi...
The development of the avian retinotectal projection is a well established model for the study of ax...
The centrally projecting sensory axons of the dorsal root ganglia follow a well established pattern ...
<div><p>The peripheral sensory nerves that innervate the cornea can be easily damaged by trauma, sur...
The regenerative capacity of CNS tracts has ever been a great hurdle to regenerative medicine. Altho...
Semaphorins are developmental axon guidance cues that continue to be expressed during adulthood and ...
The neural scar that forms after injury to the mammalian central nervous system is a barrier to spro...
During embryonic development, axons grow from the retina of the eye to the tectum of the brain which...
Regenerating axons stop growing when they reach the border of the glial-fibrotic scar, presumably be...
During the development of the visual system, retinal ganglion cells (RGCs) must project their axons ...
Semaphorins are a family of secreted and membrane-bound proteins, known to regulate axonal pathfindi...
In the developing nervous system, extending axons are directed towards their appropriate targets by ...
In the developing nervous system, extending axons are directed towards their appropriate targets by ...
Semaphorin 3A (Sema3A) is a crucial axon guidance cue in the nervous system during embryonic develop...
Abstract In the developing nervous system, extending axons are directed towards their appropriate ta...
The mammalian nervous system develops through five recognized stages: induction, differentiation, mi...
The development of the avian retinotectal projection is a well established model for the study of ax...
The centrally projecting sensory axons of the dorsal root ganglia follow a well established pattern ...
<div><p>The peripheral sensory nerves that innervate the cornea can be easily damaged by trauma, sur...
The regenerative capacity of CNS tracts has ever been a great hurdle to regenerative medicine. Altho...