Neuroscience
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The brain is inherently asymmetrical. How that attribute, manifest both structurally (volumetric, cytological, molecular) as well as functionally, relates to cognitive function, is not fully understood. Since the early descriptions of Paul Broca and Marc Dax it has been known that the processing of language in the brain is fundamentally asymmetrical. ⋯ Indeed, in terms of cognitive function, successful aging is often associated with a reduction of asymmetrical activity. The goal of this review is to survey and critically appraise the current literature addressing brain laterality, both morphological and functional, with particular emphasis on the asymmetrical plasticity associated with environmental factors and training. The plastic recruitment of contralateral areas associated with aging and unilateral lesions will be discussed in the context of the loss of asymmetry as a compensatory mechanism, and specific instances of maladaptive plasticity will be explored.
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Much attention has been focused on physical exercise benefits to mental health such as mood and cognitive function. Our recent studies have consistently shown that a single bout of exercise elicits increased task-related brain activation mainly in the dorsolateral part of the prefrontal cortex (DLPFC), which results in improved executive performance. As the DLPFC is associated with the modulation of mood as well as executive function, it is tempting to hypothesize that exercising while in a positive mood would facilitate the beneficial effects of exercise on executive function via DLPFC activation. ⋯ Contrary to our hypothesis, there were no significant differences between conditions in improvement in Stroop task performance and task-related cortical activation in the left-DLPFC. The correlation analyses, however, revealed significant correlations among increased vitality, shortened Stroop interference time and increased activation in the left-DLPFC. These results support the hypothesis that positive mood while exercising influences the benefit of exercise on prefrontal activation and executive performance.
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Rodents' behavioural analysis can be influenced by several factors, including housing. The PhenoWorld (PhW) is an enriched housing and testing paradigm, which proved to be relevant for screening depressive-like behaviours in rats, being remarkably sensitive for hedonic behaviour. ⋯ The NAc volumes and NAc medium spiny neurons branching tend also to be higher in animals experiencing the physical enrichment provided in the PhW, but significant differences were not found between animals living in PhW compared to animals living in standard cages (STD6). These results demonstrate that living in a more naturalistic complex environment, closer to real life experience, impacts on the structure of brain regions implicated in complex multidimensional disorders.
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Steroid hormones secreted by the gonads (sex steroids) and adrenal glands (glucocorticoids, GC) are known to influence brain structure and function. While levels of sex steroids wane in late adulthood, corticosteroid levels tend to rise in many individuals due to age-related impairments in their feedback on central mechanisms regulating adrenal function. These fluctuations in sex and adrenal steroid secretion may be relevant to age-related neurodegenerative disorders such as Alzheimer's disease (AD) in which hyperphosphorylation of Tau protein is a key pathological event. ⋯ Interestingly, we observed that the changes in Tau induced by manipulation of the GC milieu of male rats were exacerbated by testosterone depletion (by orchiectomy). While this finding supports previous suggestions of a neuroprotective role of male sex hormones, this is the first study to address interactions between adrenal and sex steroids on Tau hyperphosphorylation and accumulation that are known to endanger neuronal function and plasticity. These results are particularly important for understanding the mechanisms that can precipitate AD because, besides being modulated by age, GC are elevated by stress, a phenomenon now established as a trigger of deficits in neural plasticity and survival, cognitive behaviour and AD-like Tau pathology.