GABA(B) receptors are heterodimeric G protein-coupled receptors composed of R1 and R2 subunits that mediate slow synaptic inhibition in the brain by activating inwardly rectifying K(+) channels (GIRKs) and inhibiting Ca(2+) channels. We demonstrate here that GABA(B) receptors are intimately associated with 5'AMP-dependent protein kinase (AMPK). AMPK acts as a metabolic sensor that is potently activated by increases in 5'AMP concentration that are caused by enhanced metabolic activity, anoxia, or ischemia. AMPK binds the R1 subunit and directly phosphorylates S783 in the R2 subunit to enhance GABA(B) receptor activation of GIRKs. Phosphorylation of S783 is evident in many brain regions, and is increased dramatically after ischemic injury. Finally, we also reveal that S783 plays a critical role in enhancing neuronal survival after ischemia. Together our results provide evidence of a neuroprotective mechanism, which, under conditions of metabolic stress or after ischemia, increases GABA(B) receptor function to reduce excitotoxicity and thereby promotes neuronal survival.
In vitro culture of neural progenitor cells isolated from adult murine hippocampus according to the Percoll density gradient method resulted in formation of round spheres not immunoreactive to microtubule-associated protein-2 (MAP-2) or glial fibrillary acidic protein in the presence of basic fibroblast growth factor within 12 days in vitro (DIV). Reverse-transcription PCR analysis revealed constitutive expression in these neurospheres of different subunits required for assembly of functional heteromeric N-methyl-D-aspartate (NMDA) receptor channels. Immunocytochemical analysis confirmed expression of NR1, NR2A, and NR2B subunits in neurospheres cultured for 4-12 DIV. Brief (5 min) exposure to NMDA induced marked expression of c-Fos, Fos-B, Fra-2, and c-Jun proteins in neurospheres cultured for 12 DIV 2 hr later. The NMDA receptor antagonist dizocilpine markedly inhibited expression of both c-Jun and c-Fos proteins in NMDA-exposed neurospheres. Sustained exposure to NMDA not only markedly inhibited neurosphere formation by 12 DIV when exposed from 4-12 DIV, but also resulted in facilitation of subsequent differentiation of neurospheres exposed to all-trans retinoic acid to cells immunoreactive to both neuron-specific enolase and neuronal nuclei, in addition to MAP-2, as revealed by Western blot and immunocytochemistry analyses. These results suggest that functional heteromeric NMDA receptors may be expressed constitutively in neural progenitor cells before differentiation to play a crucial role in commitment and differentiation to neurons in adult murine hippocampus.
In cortical neurons cultured for 3 or 9 days in vitro (DIV), exposure to hydrogen peroxide (H 2 O 2 ) led to a marked decrease in cell viability in a concentration-dependent manner at a concentration range of 10 lM to 1 mM irrespective of the duration between 6 and 24 h. However, H 2 O 2 was more potent in decreasing cellular viability in cortical neurons cultured for 9 DIV than in those for 3 DIV. Pyruvate was effective in preventing the neuronal cell death at 1 mM even when added 1-3 h after the addition of H 2 O 2 . Semi-quantitative RT-PCR and western blotting analyses revealed significantly higher expression of both mRNA and protein for a particular monocarboxylate transporter (MCT) in neurons cultured for 9 DIV than in those for 3 DIV. A specific inhibitor of MCT significantly attenuated the neuroprotection by pyruvate in neurons cultured for 9 DIV, without markedly affecting that in neurons cultured for 3 DIV. These results suggest that vulnerability to H 2 O 2 may at least in part involve expression of particular MCT isoforms responsible for the bi-directional transport of pyruvate across cell surfaces in cultured rat cortical neurons.
Post‐traumatic stress disorder is a long‐lasting psychiatric disease after the traumatic experience of severe fatal stress with the consequence of hippocampal atrophy. Freezing behaviors were more than quintupled on the fear‐conditioning test in mice previously subjected to water immersion restrain stress (WIRS) with metronome tones when determined 1–28 days after WIRS, while these mice exhibited the increased immobility time on the forced swimming test with the increased spontaneous locomotion. Prior experience of WIRS led to a transient decrease in subsequent 5‐bromo‐2′‐deoxyuridine (BrdU) incorporation into proliferating cells in the hippocampal dentate gyrus. These behavioral and neurochemical alterations were significantly prevented by the daily injection of the tricyclic antidepressant imipramine and the selective serotonin reuptake inhibitor fluvoxamine, respectively. Moreover, WIRS significantly decreased the number of cells holding BrdU without affecting the differentiation ratio to astroglial and neuronal lineages 28 days later. Prior administration of an NMDA receptor antagonist significantly prevented the aforementioned changes by WIRS. These results suggest that NMDA receptors may play a role in mechanisms underlying the crisis of a variety of psychiatric symptoms relevant to post‐traumatic stress disorder through transient suppression of neural progenitor cell proliferation in the murine hippocampal dentate gyrus.
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