Neuroscience
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Vascular endothelial growth factor (VEGF) is neuroprotective and induces neurogenesis and angiogenesis when given early after traumatic brain injury (TBI). However, the effects of VEGF administration in the subacute phase after TBI remain unknown. Mice were subjected to TBI and treated with vehicle or VEGF beginning 7 days later for an additional 7 days. ⋯ VEGF treatment led to significant increments in cell proliferation (1.9 fold increase vs. vehicle, P<0.0001) and angiogenesis in the lesioned cortex (1.7 fold increase vs. vehicle, P=0.0001) but most of the proliferating cells differentiated into glia and no mature newly-generated neurons were detected. In conclusion, VEGF induces gliogenesis and angiogenesis when given 7 days post TBI. However, treated mice had only insignificant motor improvements in this paradigm, suggesting that the bulk of the beneficial effects observed when VEGF is given early after TBI results from the neuroprotective effects.
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Calumenin is a Ca(2+)-binding protein that belongs to the CREC superfamily. It contains six EF-hand domains that exhibit a low affinity for Ca(2+) as well as an endoplasmic reticulum retention signal. Calumenin exhibits a broad and relatively high expression in various brain regions during development as demonstrated by in situ hybridization. ⋯ At the subcellular level, calumenin is identified in punctuate and diffuse distribution mostly in somatic regions where it co-localizes with endoplasmic reticulum (ER) and partially Golgi apparatus. Upon subcellular fractionation, calumenin is enriched in fractions containing membranes and is only weakly present in soluble fractions. This study points to a possible important role of calumenin in migration and differentiation of neurons, and/or in Ca(2+) signaling between glial cells and neurons.
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Chronic caffeine consumption has been inversely associated with the risk of developing dementia and Alzheimer's disease. Here we assessed whether chronic caffeine treatment prevents the behavioral and cognitive decline that male Wistar rats experience from young (≈3 months) to middle age (≈10 months). When animals were young they were evaluated at weekly intervals in three tests: motor activity habituation in the open field (30-min sessions at the same time on consecutive days), continuous spontaneous alternation in the Y-maze (8 min), and elevated plus-maze (5 min). ⋯ Compared with controls, we found that middle-aged rats that had chronically consumed low doses of caffeine (1) maintained their locomotor habituation during the second consecutive day exposure to the open field (an index of non-associative learning), (2) maintained their exploratory drive to complete the conventional minimum of nine arm visits required to calculate the alternation performance in the Y-maze in a greater proportion, (3) maintained their alternation percentage above chance level (an index of working memory), and (4) did not increase the anxiety indexes assessed by measuring the time spent in the open arms of the elevated plus maze. In addition, morphometric analysis of hippocampal neurons revealed that dendritic branching (90-140 μm from the soma), length of 4th and 5th order branches, total dendritic length, and spine density in distal dendritic branches were greater in the basal but not the apical dendrites of CA1 pyramidal neurons from rats chronically treated with caffeine, in comparison with their age- and littermate-matched controls. Altogether, the present findings strengthen the epidemiological observations suggesting that prolonged caffeine intake prevents the cognitive decline associated with aging, and open the possibility that this process could be mediated by promoting the growth of dendrites and spines in neurons of the adult mammalian brain.
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Parkinson's disease (PD) is characterized by a degeneration of dopaminergic neurons and also by a degradation of noradrenergic neurons from the locus coeruleus and serotonergic neurons from the dorsal raphe. However, the effect of these depletions on the neuronal activity of basal ganglia nuclei is still unknown. By using extracellular single-unit recordings, we have addressed this question by testing the effects of selective depletions of noradrenaline (NA) (with N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine hydrochloride (DSP-4)) and serotonin (5-HT) (with 4-chloro-l-phenylalanine (pCPA)) on the neuronal activity of globus pallidus (GP) and substantia nigra pars reticulata (SNr) neurons in the 6-hydroxydopamine (6-OHDA) rat model of PD and sham-lesioned rats. ⋯ Furthermore, a significant interaction between DA and 5-HT depletions was observed on the firing rate of SNr neurons. By themselves, NA depletion did not change GP or SNr neuronal activity, whereas 5-HT depletion decreased the firing rate and increased the proportion of bursty and irregular neurons in both brain regions, suggesting that 5-HT, but not NA, plays a major role in the modulation of both the firing rate and patterns of GP and SNr neurons. Finally, our data suggest that, in addition to the primary role of DA in the control of basal ganglia activity, NA and 5-HT depletion also contribute to the dysregulation of the basal ganglia in PD by changes to neuronal firing patterns.
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Pyramidal neurons of the neocortex are produced from progenitor cells located in the neocortical ventricular zone (VZ) and subventricular zone (SVZ) during embryogenesis. RP58 is a transcriptional repressor that is strongly expressed in the developing brain and plays an essential role in corticogenesis. The expression of RP58 is strictly regulated in a time-dependent and spatially restricted manner. ⋯ Using in utero electroporation, we demonstrate that RP58 gene promoter activity is first detected in a subpopulation of pin-like VZ cells, then prominently activated in migrating multipolar cells in the multipolar cell accumulation zone (MAZ) located just above the VZ. In dissociated primary cultured cortical neurons, RP58 promoter activity mimics in vivo expression patterns from a molecular standpoint that RP58 is expressed in a fraction of Sox2-positive progenitor cells, Ngn2-positive neuronal committed cells, and Tuj1-positive young neurons, but not in Dlx2-positive GABAergic neurons. Finally, we show that Cre recombinase expression under the control of the RP58 gene promoter is a feasible tool for conditional gene switching in post-mitotic multipolar migrating young neurons in the developing cerebral cortex.