Neuroscience
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Within the first two postnatal weeks, corticostriatal axons from the primary somatosensory cortex (S1) form topographic projections that organize into characteristic bands of axon terminals in the dorsolateral striatum. Molecules regulating the development of these topographically organized projections are currently unknown. Thus, the present study investigated whether EphA receptor tyrosine kinases, which regulate axonal guidance in the visual system via axon repulsion, could participate in the formation of corticostriatal connections during development. ⋯ Our data demonstrate that projections from both the forelimb/anterior whisker field and the posterior whisker field avoid EphA7-expressing neurons and terminate in a banded pattern in regions with very low EphA7-expression. We also determined that corticothalamic projections from medial S1 also exhibit a restricted distribution in the thalamus and avoid neurons expressing EphA7. Thus, our results support the hypothesis that the anatomical organization of striatal and thalamic neurons expressing EphA7 receptors restricts the topographic distribution of cortical afferents from medial regions of S1 which express high levels of ephrin-A5.
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Attention-deficit hyperactivity disorder (ADHD) is a prevalent neurodevelopmental disorder characterized by overactivity, impulsiveness and attentional problems, including an increase in distractibility. A structure that is intimately linked with distractibility is the superior colliculus (SC), a midbrain sensory structure which plays a particular role in the production of eye and head movements. Although others have proposed the involvement of such diverse elements as the frontal cortex and forebrain noradrenaline in ADHD, given the role of the colliculus in distractibility and the increased distractibility in ADHD, we have proposed that distractibility in ADHD arises due to collicular sensory hyper-responsiveness. ⋯ It also reduced the peak amplitude and summed activity of the multi-unit response in GH animals, at higher doses bringing it down to levels that were equivalent to those of Wistar animals at baseline. The present results provide convergent evidence that a collicular dysfunction (sensory hyper-responsiveness) is present in ADHD, and that it may underlie the enhanced distractibility. In addition, D-amphetamine - a widely used treatment in ADHD - may have one of its loci of therapeutic action at the level of the colliculus.
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Physical exercise could play a neuroprotective role in both human and animals. However, the involved signal pathways underlying the neuroprotective effect are still not well established. This study was to investigate the possible signal pathways involved in the neuroprotection of pre-ischemic treadmill training after ischemic stroke. ⋯ The results demonstrated that pre-ischemic treadmill training exercise reduced brain infarct volume, cerebral edema and neurological deficits, also decreased the over expression of PKC-α and increased the expression level of GLT-1, Akt and PI3K after ischemic stroke (p<0.05). The over-expression of mGluR5 and NR2B mRNA was also inhibited by pre-ischemic exercise (p<0.05). In summary, exercise preconditioning ameliorated brain damage after ischemic stroke, which might be involved in two signal pathways: PKC-α-GLT-1-Glutamate and PI3K/Akt-GLT-1-Glutamate.
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Interleukin (IL)-17A plays an important role in the cerebral ischemia/reperfusion (I/R) injury. However, the mechanisms are still largely unknown. Calpain-transient receptor potential canonical (subtype) 6 (TRPC6) signaling pathway has been recently found to be implicated in brain I/R injury. ⋯ Recombinant IL-17A treatment markedly increased I/R injury. In conclusion, IL-17A may promote brain I/R injury through the increase of calpain-mediated TRPC6 proteolysis. These results further outline a novel neuroprotective strategy with increased effectiveness for the inhibition of excess brain IL-17A in cerebral I/R injury.
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The endocannabinoid system plays a major role in modulating memory. In the present study, we examined whether cannabinoid agonists influence the consolidation of stimulus-response/habit memory, a form of memory dependent upon the dorsolateral striatum (DLS). In Experiment 1, rats were trained in a cued platform water maze task in which animals were released from different start points and in order to escape had to find a cued platform which was moved to various spatial locations across trials. ⋯ In Experiments 1-3, the higher doses of WIN 55,212-2 were associated with significant memory impairments, relative to vehicle-treated controls. The results indicate that peripheral or intra-DLS administration of a cannabinoid receptor agonist impairs consolidation of DLS-dependent memory. The findings are discussed within the context of previous research encompassing cannabinoids and DLS-dependent learning and memory processes, and the possibility that cannabinoids may be used to treat some habit-like human psychopathologies (e.g. posttraumatic stress disorder) is considered.