This article reviews the effects of extracellular purine bases, nucleosides
, and nucleotides as intracellular signaling molecules with trophic effects
on cells after insults to the brain and spinal cord. Astrocytes are the pr
incipal source of extracellular purines in brain after injury, ischemia, or
trauma. In vitro and in vivo extracellular purines have both immediate and
long-term trophic effects, including stimulation of astrocyte and neuronal
differentiation, mitosis, morphogenesis, apoptosis, and stimulation of gro
wth and trophic factor synthesis. The effects of the nucleoside adenosine a
nd the nucleotide adenosine triphosphate (ATP) are mediated principally via
specific receptors on the cell surface coupled to a series of signaling ca
scades. Unlike adenosine and ATP, guanosine and guanosine triphosphate (GTP
) do not act at classical purine receptors. However, they exert similar eff
ects on astrocytes, apparently by causing the astrocytes to release large a
mounts of adenosine and ATP over prolonged periods. The release of adenosin
e and ATP may be related to the effects of guanosine on the purine nucleosi
de transporters in the cell membrane, whereas the release of ATP may be due
to the effects of GTP on the ATP-binding cassette (ABC) proteins. Physiolo
gically, the effects of guanosine are important because this nucleoside, un
like adenosine, remains elevated for prolonged periods after brain injury.