Neuroscience
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We identified ventrolateral medullary nuclei in which thyrotropin-releasing hormone (TRH) regulates glucose metabolism by modulating autonomic activity. Immunolabeling revealed dense prepro-TRH-containing fibers innervating the rostroventrolateral medulla (RVLM) and nucleus ambiguus (Amb), which contain, respectively, pre-sympathetic motor neurons and vagal motor neurons. In anesthetized Wistar rats, microinjection of the stable TRH analog RX77368 (38-150 pmol) into the RVLM dose-dependently and site-specifically induced hyperglycemia and hyperinsulinemia. ⋯ These results indicate that the RVLM is a site at which TRH induces sympathetically-mediated hyperglycemia and vagally-mediated hyperinsulinemia, whereas the Amb is mainly a vagal activating site for TRH. Hyperinsulinemia induced by TRH in the RVLM is not secondary to the hyperglycemic response. The potentiated hyperglycemic and suppressed hyperinsulinemic responses in diabetic GK rats indicate that an unbalanced "sympathetic-over-vagal" activation by TRH in brainstem RVLM contributes to the pathophysiology of impaired glucose homeostasis in type 2 diabetes.
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Acid-sensing ion channel 3 (ASIC3) is a proton-gated, voltage-insensitive Na(+) channel that is expressed primarily in peripheral sensory neurons and plays an important role in pain perception, particularly as a pH sensor following cardiac ischemia. We previously reported that ASIC3 currents are not affected by zinc at nanomolar concentrations. In this study, we examined the potential role of micromolar zinc in the regulation of ASIC3. ⋯ Further, increasing extracellular Ca(2+) concentrations from 2 to 10 mM failed to affect inhibition of ASIC3 currents by zinc. Experimentally elevating intracellular zinc levels did not affect the inhibition of ASIC3 currents by equal concentrations of extracellular zinc, and modification of cysteine or histidine residues had no effect on the inhibition of ASIC3 currents by zinc. These collective results suggest that zinc is an important regulator of ASIC3 at physiological concentrations, that zinc inhibits ASIC3 in a pH- and Ca(2+)-independent manner, and that inhibition of ASIC3 currents is dependent upon the interaction of zinc with extracellular domain(s) of ASIC3.
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Alternative splicing is an important mechanism for expanding proteome diversity from a limited number of genes, especially in higher vertebrates. Brain-specific splicing factors play an important role in establishing specific patterns of alternative splicing in the brain and thereby contribute to its complex architecture and function. Nova proteins are splicing factors that are expressed specifically in the central nervous system, where they regulate a large number of pre-mRNAs encoding synaptic proteins that are important for the balance of neuronal excitation and inhibition. ⋯ Treatment with the muscarinic antagonist, scopolamine, at the onset of pilocarpine-induced seizures inhibited the seizures and the changes in Nova mRNA levels. Therefore it seems likely that pilocarpine stimulation of muscarinic acetylcholine receptors was a prerequisite for the observed changes, while the contribution of other striatal neurotransmitter systems activated by seizures could not be excluded. We propose that the LiCl/pilocarpine seizure model could serve as a valuable tool for studying mechanisms of Nova-regulated alternative splicing in rat striatum.
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Persistent postoperative pain is a very common phenomenon which severely affects the lives of patients who develop it following common surgical procedures. Opioid analgesics are of limited efficacy in the treatment of persistent pain states because of side effects including antinociceptive tolerance. We have previously shown that surgical incision injury and morphine tolerance share similar mechanisms, including a CNS role of spinal cord glia. ⋯ However, no changes in Iba1 or GFAP expression were observed in the spinal cord dorsal horn between groups. Assessment of MAPK protein phosphorylation revealed that chronic morphine administration enhanced both p38 and extracellular receptor kinase (pERK) phosphorylation compared to saline on day 20. p-p38 and pERK immunofluorescence were only observed to colocalize with a marker of microglial cells and not with markers of astrocytes or neurons. Together, these data demonstrate that chronic morphine administration attenuates the resolution of postoperative allodynia in association with microglial p38 and extracellular receptor kinase (ERK) phosphorylation, independent of changes in Iba1 and GFAP expression.
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The role of voltage-gated sodium channels in the transmission of neuropathic pain is well recognized. For instance, genetic evidence recently indicate that the human Nav1.7 sodium channel subtype plays a crucial role in the ability to perceive pain sensation and may represent an important target for analgesic/anti-hyperalgesic drugs. In this study a newly synthesized tocainide congener, named NeP1, was tested in vitro on recombinant hNav1.4 and hNav1.7 channels using patch-clamp technique and, in vivo, in two rat models of persistent neuropathic pain obtained either by chronic constriction injury of the sciatic nerve or by oxaliplatin treatment. ⋯ In oxaliplatin-treated rats, NeP1 even produced greater and more durable anti-hyperalgesia than the reference drug tramadol. In addition, in vivo and in vitro studies suggest a better toxicological and pharmacokinetic profile for NeP1 compared to tocainide. Overall, these results indicate NeP1 as a new promising lead compound for further development in the treatment of chronic pain of neuropathic origin.