Protein Information

ID 376
Name glutamate receptor
Synonyms GRINL1A; GUP1; GUP2; GRINL1A combined protein; GRINL1A combined protein Gcom10; GRINL1A combined protein Gcom10 precursor; GRINL1A combined protein Gcom11; GRINL1A combined protein Gcom11 precursor…

Compound Information

ID 332
Name 4-aminopyridine
CAS 4-pyridinamine

Reference

PubMed Abstract RScore(About this table)
17822807 Oleskovicz SP, Martins WC, Leal RB, Tasca CI: Mechanism of guanosine-induced neuroprotection in rat hippocampal slices submitted to oxygen-glucose deprivation. Neurochem Int. 2008 Feb;52(3):411-8. Epub 2007 Aug 1.
Guanine derivates have been implicated in many relevant extracellular roles, such as modulation of glutamate transmission, protecting neurons against excitotoxic damage. Guanine derivatives are spontaneously released to the extracellular space from cultured astrocytes during oxygen-glucose deprivation (OGD) and may act as trophic factors, glutamate receptors blockers or glutamate transport modulators, thus promoting neuroprotection. The aim of this study was to evaluate the mechanisms involved in the neuroprotective role of the nucleoside guanosine in rat hippocampal slices submitted to OGD, identifying a putative extracellular binding site and the intracellular signaling pathways related to guanosine-induced neuroprotection. Cell damage to hippocampal slices submitted to 15 min of OGD followed by 2 h of reperfusion was decreased by the addition of guanosine (100 microM) or guanosine-5'-monophosphate (GMP, 100 microM). The neuroprotective effect of guanosine was not altered by the addition of adenosine receptor antagonists, nucleosides transport inhibitor, glutamate receptor antagonists, glutamate transport inhibitors, and a non-selective Na (+) and Ca (2+) channel blocker. However, in a Ca (2+)-free medium (by adding EGTA), guanosine was ineffective. Nifedipine (a Ca (2+) channel blocker) increased the neuroprotective effect of guanosine and 4-aminopyridine, a K (+) channel blocker, reversed the neuroprotective effect of guanosine. Evaluation of the intracellular signaling pathways associated with guanosine-induced neuroprotection showed the involvement of PKA, PKC, MEK and PI-3 K pathways, but not CaMKII. Therefore, this study shows guanosine is acting via K (+) channels activation, depending on extracellular Ca (2+) levels and via modulation of the PKA, PKC, MEK and/or PI-3 K pathways.
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