Neuroscience
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Ghrelin is an orexigenic stomach peptide previously found to be important for the full display of anticipatory locomotor activity and hypothalamic neuronal activation that precedes a daily scheduled meal in mice. Ghrelin is also important for food-related motivation and seems to have direct effects in the mesocorticolimbic dopamine reward system. Here we hypothesized that neuronal activation in reward-related areas in anticipation of a scheduled meal could be mediated by elevated ghrelin induced by scheduled feeding, and therefore this would be attenuated in ghrelin receptor knock-out (GHSR KO) animals. ⋯ In addition, our results show a reduction in the proportion of activated orexin-immunoreactive (IR) neurons in GHSR KO animals in anticipation of the scheduled meal in comparison to the proportion of activated orexin neurons in wild type (WT) mice. Interestingly we observed that both GHSR and ghrelin KO mice had fewer orexin-IR cells than their WT littermates suggesting that lack of ghrelin or sensitivity to ghrelin may play a role in the development of the orexin system. Our data also suggest that ghrelin may mediate food anticipation, in part, by stimulating both the orexin system and the mesolimbic reward system.
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The parabrachial nucleus (PB) is a brainstem cell group that receives a strong input from the nucleus tractus solitarius regarding the physiological status of the internal organs and sends efferent projections throughout the forebrain. Since the neuroanatomical organization of the PB remains unclear, our first step was to use specific antibodies against two neural lineage transcription factors: Forkhead box protein2 (FoxP2) and LIM homeodomain transcription factor 1 beta (Lmx1b) to define the PB in adult rats. This allowed us to construct a cytoarchitectonic PB map based on the distribution of neurons that constitutively express these two transcription factors. ⋯ The Kölliker-Fuse nucleus as well as the lateral crescent PB and rostral-most part of the PBcl contain neurons that co-express FoxP2+ and Lmx1b+, but none of these were activated after blood pressure changes. Salt-sensitive FoxP2 neurons in the pre-locus coeruleus and PBel-inner were not c-Fos activated following blood pressure changes. In summary, the present study shows that the PBel-outer and PBcl subnuclei originate from two different neural progenitors, contain glutamatergic neurons, and are affected by blood pressure changes, with the PBel-outer reacting to both hypo- and hypertension, and the PBcl signaling only hypotensive changes.
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This study was carried out on decerebrate, paralyzed and artificially ventilated cats to investigate the central regulatory mechanism for cough reflex. Fictive cough was induced by repetitive stimulation of the superior laryngeal nerve (SLN) or the nucleus tractus solitarius (NTS), and characterized by an increased inspiratory discharge in the phrenic nerve (stage 1 of cough; S1C) and large burst discharge in the iliohypogastric nerve (stage 2 of cough; S2C). Membrane potential was recorded from the neurons located in the cough-inducible sites of the NTS. ⋯ Group II neurons with the DD-type response may integrate the tussigenic afferent information and send a gate signal to the cough pattern generator. Group III neurons with either DH-type or HH-type response may constitute the network of cough pattern generation or modulatory circuits recruited during the cough reflex. The present study suggests that Group II neurons may play a gating role in generating the cough reflex.
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About 860 G-protein-coupled receptors (GPCRs) mediate their actions via heterotrimeric G-proteins. Their activation releases Gα from Gβλ subunits. The type of Gα subunit dictates the major signalling proteins involved: adenylyl cyclase, PLC and rhoGEF. ⋯ When the 10 Gα mRNAs of the RVLM in spontaneously hypertensive rats (SHR) were compared quantitatively to Wistar-Kyoto (WKY), only Gαs and Gα12 were significantly elevated. However when the expression in normotensive SD and WKY was compared with SHR no significant differences were evident. These findings demonstrate a range of GPCR signalling capabilities in brainstem neurons important for homeostasis and suggest a prominent role for signalling via adenylyl cyclase.
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Studies have shown a few cerebral metabolites modified by cocaine in brain regions; however, endogenous metabolic profiling has been lacking. Ex vivo (1)H NMR (hydrogen-1 nuclear magnetic resonance) spectroscopy-based metabonomic approach coupled with partial least squares was applied to investigate the changes of cerebral metabolites in nucleus accumbens (NAc) and striatum of rats subjected to cocaine treatment. Our results showed that both single and repeated cocaine treatment can induce significant changes in a couple of cerebral metabolites. ⋯ Moreover, groups of rats with and without conditioned place preference (CPP) apparatus are presenting difference in metabolites. Collectively, our results provide the first evidence of metabonomic profiling of NAc and striatum in response to cocaine, exhibiting a regionally-specific alteration patterns. We find that repeated cocaine administration leads to significant metabolite alterations, which are involved in neurotransmitter disturbance, oxidative stress, mitochondria dysregulation and membrane disruption in brain.