Journal of molecular neuroscience : MN
-
Dopamine D2 receptor (D2R) signalling has been shown to modulate seizure-induced hippocampal cell death. D2R knockout (D2R-/-) mice are more susceptible to kainic acid (KA)-induced excitotoxicity, displaying cell death in the CA3 subfield of the hippocampus at KA doses not damaging in wild-type (WT) animals. Absence of D2R signalling in the hippocampus leads to activation (dephosphorylation) of glycogen synthase kinase 3β (GSK-3β) after KA (20 mg/kg), which is not associated with a change in the phosphorylation of the GSK-3β regulator Akt at the canonical threonine 308 residue. ⋯ Additionally, the vulnerability in the CA3 is not associated with changes to p38MAPK and Dishevelled activation, and β-catenin does not appear to be a downstream target of the GSK-3β. Thus, we propose that GSK-3β phosphorylation-mediated hippocampal cell survival may depend on Akt (Ser473) phosphorylation; loss of D2R-mediated signalling in the CA3 region of D2R-/- mice leads to reduced Akt (Ser473) phosphorylation rendering neurons more vulnerable to apoptosis. Further investigation is required to fully elucidate the GSK-3β targets involved in D2R-dependent response to excitotoxicity.
-
Caffeine has been reported to enhance cognition in animal and humans. Additionally, caffeine alleviates cognitive impairment associated with a number of disorders including Alzheimer's disease. The lipophilic nature of caffeine allows for rapid absorption into the bloodstream where it freely crosses the blood-brain barrier. ⋯ It appears that the neuroprotective effect of caffeine involves preservation of the levels of essential kinases and phosphatases in stressed rats. This may include preservation of basal levels of BDNF by chronic caffeine treatment in stressed animals. These findings highlight the critical role of P-CaMKII and BDNF in caffeine-induced prevention of stress-induced LTP impairment.