Convincing the Central Nervous System to Repair Itself
Researchers are working on the application of an interesting discovery: "Repair of the central nervous system and restoration of voluntary motor activity through axonal re-growth has long been considered impossible in mammals. [Researchers have] recently shown that an essential component interfering with regeneration was due to the activity of astrocytes, feeder cells that surround neurons. ... astrocytes synthesize two particular proteins (glial fibrillary acidic protein (GFAP) and vimentin), which isolate the damaged neuron to prevent interference with the operation of the central nervous system. While the protection is initially useful, in the long run it induces formation of impermeable cicatricial tissue around the neuron, thus constituting impenetrable scarring hostile to axonal regeneration and hence to propagation of nervous impulses. In the event of severe injury, the scarring engenders motor paralysis. ... the researchers pursued a strategy aimed at developing a therapeutic instrument to block formation of cicatricial tissue ... the researchers succeeded in controlling the reaction of astrocytes and when the latter were cultured with neurons, they promoted neuronal survival and triggered axonal growth."
Link: http://www.sciencedaily.com/releases/2009/07/090724113546.htm