Neuroscience
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Reorganization of seizure networks during epileptogenesis involves cortico-subcortical and interhemispheric interactions. In the audiogenic kindling (AK) model of generalized tonic-clonic seizures, upstream seizure propagation along ascending brainstem-to-forebrain pathways determines progressive intensification of repeated sound-induced convulsions. Full-blown audiogenic seizures are bilaterally symmetric and their repetition results in bisynchronous recruiting the cortex in secondary epileptogenesis. ⋯ Among Wistar rats, cortical seizures developed more rarely in right-runners than in left-runners, suggesting enhanced resistance of the right hemisphere to epileptogenesis in rats of this strain. WAG/Rij rats with mixed (absence and audiogenic) epilepsy showed weak lateralization of early cortical seizures and no left-right difference in their incidence during AK. Present findings suggest (1) lateralized brainstem-to-forebrain seizure propagation and hemispheric difference in its facility in Wistar rats, (2) alterations of intra- and interhemispheric seizure propagation in WAG/Rij rats with genetic absence epilepsy.
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Preclinical as well as limited clinical studies indicate that ketamine, a non-competitive glutamate N-methyl-D-aspartate (NMDA) receptor antagonist, may exert a quick and prolonged antidepressant effect. It has been postulated that ketamine action is due to inhibition of NMDA and stimulation of alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) receptors. Here, we sought to determine whether ketamine would exert antidepressant effects in Wistar-Kyoto (WKY) rats, a putative animal model of depression and whether this effect would be associated with changes in AMPA/NMDA receptor densities in the hippocampus. ⋯ These results indicate a rapid and lasting antidepressant-like effect of a low ketamine dose in WKY rat model of depression. Moreover, the increase in AMPA/NMDA receptor density in the hippocampus could be a contributory factor to behavioral effects of ketamine. These findings suggest potential therapeutic benefit in simultaneous reduction of central NMDA and elevation of AMPA receptor function in treatment of depression.
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X-linked adrenoleukodystrophy (X-ALD) and pseudo neonatal adrenoleukodystrophy (P-NALD) are neurodegenerative demyelinating diseases resulting from the functional loss of the peroxisomal ATP-binding cassette transporter D (ABCD1) and from single peroxisomal enzyme deficiency (Acyl-CoA oxidase1: ACOX1), respectively. As these proteins are involved in the catabolism of very long chain fatty acids (VLCFA: C24:0, C26:0), X-ALD and P-NALD patients are characterized by the accumulation of VLCFA in plasma and tissues. Since peroxisomes are involved in the metabolism of reactive oxygen species (ROS) and nitrogen species (RNS), we examined the impact of VLCFA on the oxidative status of 158N murine oligodendrocytes expressing or not Abcd1 or Acox1. ⋯ SiRNA knockdown of Abcd1 or Acox1 increased ROS and RNS production even in the absence of VLCFA, and especially potentialized VLCFA-induced ROS overproduction. Moreover, mainly in cells with reduced Acox1 level, the levels of VLCFA and neutral lipids were strongly enhanced both in untreated and VLCFA - treated cells. Our data obtained on 158N murine oligodendrocytes highlight that VLCFA induce an oxidative stress, and demonstrate that Abcd1 or Acox1 knockdown contributes to disrupt RedOx equilibrium supporting a link between oxidative stress and the deficiency of Abcd1 or Acox1 peroxisomal proteins.
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Autophagy, the bulk intracellular degradation of cytoplasmic constituents, can be a pro-survival or a pro-death mechanism depending on the context. A recent study showed that autophagy was activated in the phase of early brain injury following subarachnoid hemorrhage (SAH). However, whether autophagy activation after SAH is protective or harmful is still elusive. ⋯ The results showed that RAP administration decreased Bax translocation to the mitochondria and downstream cytochrome c release from the mitochondria to the cytosol. Taken together, our study indicates that activation of autophagic pathways reduces early brain injury after SAH. This neuroprotective effect is likely exerted by anti-apoptotic mechanisms.
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It is well known that after cerebral ischemia, brain suffers blood flow changes over time that have been correlated with inflammation, angiogenesis and functional recovery processes. Nevertheless, post-ischemic spatiotemporal changes of brain perfusion have not been fully investigated to date. Here we tested whether PET with [¹³N]ammonia would evidence the perfusion changes presented by different brain regions in an experimental model of brain ischemia. ⋯ [¹³N]ammonia shows hemodynamic changes after stroke involving hyperperfusion that might be related to angiogenesis and functional recovery. Long-term blood hyperperfusion is found both in ischemic and remote areas to infarction. These results may contribute to a better understanding of the evolution of cerebral ischemic lesion in animal models.