REDUCED RETINAL ACTIVITY INCREASES GFAP IMMUNOREACTIVITY IN RAT LATERAL GENICULATE-NUCLEUS

Dynamic regulation of astrocytic processes by the electrical activity of local neurons has been previously described in chick cochlear nucleus. The present study extends this observation by showing that astrocytes in the rat lateral geniculate nucleus (LGN) also increase their immunoreactivity for glial fibrillary acidic protein (GFAP) soon after deprivation of afferent visual neuronal activity. Within 6 h of enucleation, which eliminates a major source of afferent input to the contralateral LGN, GFAP immunoreactivity increases relative to the ipsilateral LGN. A similar increase in GFAP immunoreactivity can be induced by intraocular injections of tetrodotoxin, demonstrating that a reversible manipulation of optic nerve electrical activity is sufficient to regulate LGN astrocytes. This rapid response to activity deprivation is less dramatic than the gliotic reaction observed 3 weeks following deafferentation, by which time afferent terminals have degenerated. These results support the notion that regulation of astrocytic processes by neural activity may play an important role in activity-dependent synaptic regulations in the various sensory systems of vertebrates.