Neuropeptides
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In the present study, electrophysiological recordings were made from hippocampal slices obtained from mice overexpressing galanin under the promoter for the platelet-derived growth factor-B (GalOE mice). In these mice, a particularly strong galanin expression is seen in the granule cell layer/mossy fibers. Paired-pulse facilitation (PPF) of excitatory postsynaptic field potentials (fEPSPs) at the lateral perforant path (LPP)-dentate gyrus synapses was elicited in the dentate gyrus after stimulation with different interpulse intervals. ⋯ Application of the putative galanin antagonist M35 increased PPF in slices from aged WT mice as well as from adult and aged GalOE mice, but had no effect in slices taken from young adult WT mice. These data indicate that galanin is involved in hippocampal synaptic plasticity, in particular in age-related reduction of synaptic plasticity in the LPP input to the dentate gyrus. Galaninergic mechanisms may therefore represent therapeutic targets for treatment of age-related memory deficits and Alzheimer's disease.
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Evidence suggests that galanin and its receptors including GalR1 are involved in the modulation of nociception. To understand the contributions of this galanin receptor subtype to the analgesic effect of galanin, we systematically examined the nociception phenotype of the GalR1 knockout (KO) mice. (1) Baseline thresholds: Thermal escape latencies and tactile thresholds of the hind paws were not different between the GalR1 KO and wild type (WT) mice. (2) Thermal injury evoked hyperalgesia: Thermal injury (52 degrees C, 45 s) to one hind paw resulted in a reduction in the thermal escape latency as compared to the uninjured paw. The right/left difference score was significantly greater in the KO (5.9 +/- 0.8 s) than for the WT (2.8 +/- 0.7 s) indicating a greater hyperalgesia. (3) Formalin-induced flinching: Formalin paw injection (2.5%/20 microl) produced a two-phase flinching in both GalR1 KO and WT groups, that was detected by an automated flinching sensor device. ⋯ On days 14-21, GalR1 KO animals showed a significant recovery as compared to WT. In summary, GalR1 KO mice showed no difference from WT with respect to acute nociception, but showed a modest tendency towards increased hyperalgesia after tissue injury and inflammation. These results are consistent with a regulatory effect of galanin at GalR1 receptors on nociceptive processing.
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The action of galanin in the central nervous system is mediated by at least three galanin receptor subtypes (GalR1, GalR2 and GalR3) which belong to the family of G protein-coupled receptors. GalR1 and GalR2 are coupled to G(i/o) proteins, although the latter may also be coupled to G(q/11) proteins. The aim of the present study was to identify the anatomical distribution and quantify the density of GalRs coupled to G proteins. ⋯ The results show an anatomical distribution similar to that described for GalR1. However, in diverse brain areas, in which a high density of these receptors has previously been reported, only a moderate coupling to G proteins was found. These findings would suggest that the efficacy of galanin to induce an effective coupling of its receptors to G proteins could be different depending on the brain area.
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The neuropeptide galanin is expressed in the mammalian central nervous system and has been implicated in neurotrophic actions. Central galanin administration induces cognitive deficits in rodents and inhibits the release of acetylcholine in the hippocampus. In addition, a galanin hyperinnervation of the basal forebrain cholinergic cells in Alzheimer's disease patients has been reported. ⋯ This effect was reverted by galanin treatment and indicates that the surgery increased receptor functional coupling to G proteins, which is restored by a possible neurotrophic action mediated by galanin. In addition, in galanin administered animals, galanin-stimulated binding was increased in the amygdala but decreased in the diagonal band, whilst binding stimulation mediated by carbachol was found to be increased in the amygdala, thalamic nuclei and diagonal band. These findings indicate that galanin treatment modulates the coupling of galanin and muscarinic cholinergic receptors to G proteins in specific regions of the rat central nervous system.