Neuroscience
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Accumulation of amyloid-β (Aβ) in brain tissue contributes to the pathophysiology of Alzheimer's disease (AD). We recently reported that intrahippocampal transplantation of mouse bone marrow-derived microglia-like (BMDML) cells suppresses brain amyloid pathology and cognitive impairment in a mouse model of AD. How these transplanted cells interact with resident microglia remains unknown. ⋯ Brain TGF-β1 levels and resident microglial TGF-β1R expression were increased by intrahippocampal injection of BMDML cells in a mouse model of AD. Cotreatment with the TGF-βR1 inhibitor suppressed the ability of transplanted BMDML cells to increase microglial TGF-β1R expression and decrease hippocampal Aβ levels. Taken together, these findings suggested that transplanted BMDML cells secreted TGF-β1 to stimulate Aβ phagocytosis by resident microglia and decrease brain Aβ pathology.
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White matter lesions are common when global cerebral ischemia (GCI) occurs in the elderly, and cause damage to neurological and psychological functions. Remyelination often fails because of the limited recruitment of oligodendrocyte progenitor cells (OPCs) to the demyelinated site or the inefficient differentiation of OPCs to mature oligodendrocytes (OLs). The activation of microglia, the most important immune cells in the central nervous system, and subsequent inflammation have been implicated in myelination repair disorder. ⋯ No effect was found on myelin in the corpus callosum. Besides, hippocampal neurons were protected by anti-FKR treatment after GCI. Collectively, our data demonstrated that downregulating of the Fractalkine/CX3CR1 signaling pathway had an anti-depressant and cognition-improvement effect by inhibiting microglia activation, promoting OPCs maturation and remyelination.
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Human visual function degrades with age. Previous studies of visual perception have shown that aged people have worse performance in the coding of orientation information. However, the neuronal mechanism still remains elusive. ⋯ Further investigation of neuronal correlation showed higher noise and signal correlations in aging monkeys than that in young monkeys. These correlation changes predicted a detrimental effect on the efficiency of population coding of orientation information. Taken together, our results suggest that the information coding efficiency of orientation information is impaired during aging and might account for the degradation of performance in human fine orientation discrimination task.
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Fear of falling can have a profound influence on anticipatory postural control during dynamic balance tasks (e.g., rise-to-toes and leg-raise tasks), with fearful individuals typically exhibiting postural adjustments of smaller magnitudes prior to movement onset. However, very little is known about how fear of falling influences the generation of anticipatory postural adjustments (APAs) during gait initiation; a task in which producing smaller APAs may compromise stability. Sixteen young adults initiated gait as fast as possible following an auditory cue during two conditions: Baseline (ground level), and Threat (fear of falling induced via a platform raised 1.1 m). ⋯ We suggest that such failure to scale the APA to the magnitude of the motor output represents a fear-related 'overcompensation', whereby fearful participants sought to ensure that the APA was sufficient for ensuring that their centre of mass was positioned above the support leg prior to gait initiation. During conditions of threat, participants also exhibited greater postural sway prior to initiating gait (i.e., following the auditory cue) and took longer to generate the APA (i.e., impaired reaction). As greater reaction times during voluntary stepping is consistently associated with increased fall-risk, we suggest this as one mechanism through which fear of falling may reduce balance safety.
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Autism Spectrum Disorders (ASD) are caused by disrupted neurodevelopment leading to socio-communication and behavioural abnormalities. Although genetic anomalies like Copy Number Variations (CNV) have been implicated in ASD, their overall genomic landscape and pathogenicity remain elusive. Therefore, we created a CNV map for ASD using 9337 cases and 5650 controls from SFARI database, statistically marked genomic regions with high and low frequencies of CNVs (i.e., common and rare CNV regions respectively), performed gene function enrichment for CNV genes, built functional networks, pathways and examined their expression in brain tissues. ⋯ While common CNV regions were found in loci 15q11.2, 16p11.2, 22q11.21, 15q13.2-13.3, rare CNV regions in loci 4p16.3, 9q34.3, 7q11.23, 17p11.2 contributed significantly to protein interaction networks and were highly expressed in brain. Enriched CNV genes were clustered in six functional categories with either direct roles in neurodevelopment or auxiliary roles like cellular signalling via MAPK pathway, cytoskeletal organization and transport or immune regulation. Mechanisms through which these molecular systems could independently or in combination trigger an ASD phenotype were predicted.