Signaling between glia and neurons: focus on synaptic plasticity
NJ Allen, BA Barres - Current opinion in neurobiology, 2005 - Elsevier
NJ Allen, BA Barres
Current opinion in neurobiology, 2005•ElsevierGlial cells are now emerging from the shadows cast by their more excitable CNS
counterparts. Within the developing nervous system, astrocytes and Schwann cells actively
help to promote synapse formation and function, and have even been implicated in synapse
elimination. In the adult brain, astrocytes respond to synaptic activity by releasing
transmitters that modulate synaptic activity. Thus, glia are active participants in brain
function. Many questions remain about the identity of glial–neuronal signals and their …
counterparts. Within the developing nervous system, astrocytes and Schwann cells actively
help to promote synapse formation and function, and have even been implicated in synapse
elimination. In the adult brain, astrocytes respond to synaptic activity by releasing
transmitters that modulate synaptic activity. Thus, glia are active participants in brain
function. Many questions remain about the identity of glial–neuronal signals and their …
Glial cells are now emerging from the shadows cast by their more excitable CNS counterparts. Within the developing nervous system, astrocytes and Schwann cells actively help to promote synapse formation and function, and have even been implicated in synapse elimination. In the adult brain, astrocytes respond to synaptic activity by releasing transmitters that modulate synaptic activity. Thus, glia are active participants in brain function. Many questions remain about the identity of glial–neuronal signals and their significance.
Elsevier