Neuroscience
-
Optic neuritis and retinal damage are common manifestations of multiple sclerosis (MS). Pterostilbene (PT) has been used to treat multiple diseases for its anti-inflammatory, anti-apoptosis and neuroprotective activities. This study aimed to investigate whether PT exerts a therapeutic effect on optic neuritis and retinal damage triggered by MS. ⋯ In addition, PT activated SIRT1 signaling in the optic nerves and retina. Notably, EX-527, an inhibitor of SIRT1, reversed the effect of high-dose PT on the optic nerves and retina, indicating that PT exerted the protective effect via activating SIRT1 signaling. This study provides a potential candidate for treating MS.
-
Fragmentation of the daily sleep-wake rhythm with increased nighttime awakenings and more daytime naps is correlated with the risk of development of Alzheimer's disease (AD). To explore whether a causal relationship underlies this correlation, the present study tested the hypothesis that chronic fragmentation of the daily sleep-wake rhythm stimulates brain amyloid-beta (Aβ) levels and neuroinflammation in the 3xTg-AD mouse model of AD. Female 3xTg-AD mice were allowed to sleep undisturbed or were subjected to chronic sleep fragmentation consisting of four daily sessions of enforced wakefulness (one hour each) evenly distributed during the light phase, five days a week for four weeks. ⋯ Sleep fragmentation also stimulated neuroinflammation as shown by increased expression of markers of microglial activation and proinflammatory cytokines measured by q-RT-PCR analysis of hippocampal samples. No significant effects of sleep fragmentation on Aβ, tau, or neuroinflammation were observed in the cerebral cortex. These studies support the concept that improving sleep consolidation in individuals at risk for AD may be beneficial for slowing the onset or progression of this devastating neurodegenerative disease.
-
Parkinson's Disease (PD) is a neurogenerative disorder characterized by the death of dopaminergic neurons in the Substantia Nigra pars compacta (SNpc), leading to motor, cognitive, learning, and respiratory dysfunctions. New evidence revealed that breathing impairment in PD mainly results from oxidative stress (OS) that initiates apoptotic signaling in respiratory neurons. Here, we investigated the role of OS inhibition using apocynin (non-specific NADPH oxidase inhibitor) in a 6-OHDA PD animal model in the neural control of breathing. ⋯ After 20 days of apocynin treatment, neurodegeneration of respiratory nuclei and breathing dysfunction in 6-OHDA animals were prevented. Thus, OS contributes to respiratory neuron death, consequently leading to breathing dysfunction in the 6-OHDA PD animal model. Furthermore, these results present a new perspective for preventing the onset and progression of PD-related respiratory impairments.
-
Parvalbumin-expressing (PV+) interneurons in the sensory cortex form powerful inhibitory synapses on the perisomatic compartments and axon initial segments of excitatory principal neurons (PNs), and perform diverse computational functions. Impaired PV+ interneuron functions have been reported in neural developmental and degenerative disorders. Expression of the unique marker parvalbumin (PV) is often used as a proxy of PV+ interneuron functions. ⋯ The expression of KV3.1 was correlated with spike frequency adaptation, but not with the expression of GAD67. These results suggest separate transcriptional regulations of PV/GAD67 vs. KV3.1, both of which are modulated by NIHL.
-
We explored the phenomenon of unintentional force drifts in the absence of visual feedback. Based on the idea of direct force control with internal models and on the idea of indirect force control with referent coordinates to the involved muscle groups, contrasting predictions were drawn for changes in the drift magnitude when acting against external spring loads. Fifteen young subjects performed typical accurate force production tasks by pressing with the Index finger at 20% of maximal voluntary contraction (MVC) in isometric conditions and while acting against one of the three external springs with different stiffness. ⋯ We view these observations as strong arguments in favor of the theory of control with spatial referent coordinates. In particular, force drifts were likely consequences of drifts of referent coordinates to both agonist and antagonist muscles. The lack of drift effects on both perception-to-report and perception-to-act fit the scheme of kinesthetic perception based on the interaction of efferent (referent coordinate) and afferent processes.