Neuroscience
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Analysis of expression of the immediate early gene c-Fos in neuronal populations is a commonly used method to assess changes in neuronal activity due to various factors of interest. However, different levels of c-Fos have been observed between control animals across studies. The present investigation assessed whether such differences could reflect different behavioral or physiological states in housing conditions that are typically considered naïve controls. ⋯ Taken together, our experiment identified differential regulation of c-Fos expression by basal housing conditions and circadian phase. It also indicates that despite the well-known habituation of c-Fos expression to repeated stimulation, this expression is sensitive to basal housing conditions. This sensitivity needs to be taken into account when analyzing c-Fos data in various studies.
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Maintenance of amyloid-beta homeostasis by carbenoxolone post Aβ-42 oligomer injection in rat brain.
The equilibrium between cerebral production and clearance of Aβ is maintained either by the active removal through blood-brain barrier or by the uptake and degradation through ubiquitin-proteasome system (UPS) and autophagy. The dysfunction of UPS and dysregulation of molecular chaperones such as heat shock proteins (HSPs) is well correlated with the progression of Alzheimer's disease (AD). Therefore, the restoration of heat shock system and UPS appears to be an effective approach to maintain the Aβ homeostasis. ⋯ Aβ 42 oligomers induced upregulation of the expression levels of APP, BACE-1 and Tau was also normalized after the co-treatment with Cbx. A significant decrease in the thioflavin-T and Aβ positive deposits in different regions of the rat brain was observed after Cbx co-treatment. Thus, the present study projects Cbx as a potential candidate for the maintenance of Aβ homeostasis through inhibition of amyloid aggregation and restoration of the functioning of molecular chaperones and UPS system in the progression of AD.
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The hippocampus is characterized by the presence of life-long neurogenesis. To elucidate the molecular mechanism regulating hippocampal neurogenesis, we studied the functions of the chemorepellent Draxin in neuronal proliferation and differentiation in the postnatal dentate gyrus. The present in vivo cell labeling and fate tracking analyses revealed enhanced differentiation of hippocampal neural stem and progenitor cells (hNSPCs) in the subgranular zone (SGZ) of Draxin-deficient mice. ⋯ However, Draxin deficiency did not affect cell cycle duration of SGZ cells. In situ hybridization analysis indicated that the receptor component of the canonical Wnt pathway, Lrp6, is expressed in SGZ cells, including Nestin and Sox2 double-positive hNSPCs. Taken together with the previous finding that Draxin interacts physically with Lrp6, we postulate that Draxin plays a pivotal role in the regulation of Wnt-driven hNSPC differentiation to modulate the rate of neuronal differentiation in the progenitor population.
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Alzheimer's disease (AD) is a neurodegenerative disease characterised by progressive cognitive decline and the accumulation of two hallmark proteins, amyloid-beta (Aβ) and tau. Traditionally, transgenic mouse models for AD have generally focused on Aβ pathology, however, in recent years a number of tauopathy transgenic mouse models have been developed, including the TAU58/2 mouse model. These mice develop tau pathology and neurofibrillary tangles from 2 months of age and show motor impairments and alterations in the behavioural response to elevated plus maze (EPM) testing. ⋯ Aggressive and socio-positive behaviours were not affected except a reduction in the occurrence of nosing and anogenital sniffing. Our study identified new phenotypic characteristics of young adult male TAU58/2 transgenic mice and clarified the nature of changes detected in the behavioural response of these mice to EPM testing. Social withdrawal and inappropriate social behaviours are common symptoms in both AD and FTD patients and impaired sensorimotor gating is seen in moderate-late stage AD, emphasising the relevance of the TAU58/2 model to these diseases.
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Activity-regulated cytoskeleton-associated (Arc) gene is one of the effector neuronal immediate early genes (IEG) that is rapidly upregulated after neuronal activation and is involved in synaptic long-term potentiation and depression. In recent years, it has been implicated in several cognitive disorders, viz. Angelman syndrome, Alzheimer's disease, fragile-X syndrome, etc. ⋯ We studied the involvement of Arc in these changes by inhibiting Arc protein expression via stereotaxic infusions of Arc antisense oligodeoxynucleotides in the hippocampus of mice. We found that both temporal order and object recognition memories are dependent on the inter-familiarization phase interval. Strikingly, we also found that Arc accelerated the memory decay of an object when mice were re-exposed to the environment without that object.