Neuroscience
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In this study, we address the question: Can the central nervous system stabilize vertical posture in the abundant space of neural commands? We assume that the control of vertical posture is associated with setting spatial referent coordinates (RC) for the involved muscle groups, which translates into two basic commands, reciprocal and co-activation. We explored whether the two commands co-varied across trials to stabilize the initial postural state. Young, healthy participants stood quietly against an external horizontal load and were exposed to smooth unloading episodes. ⋯ Analysis of deviations in the {RC; k} space keeping the posture unchanged (motor equivalent) between two states separated by a voluntary quick body sway showed significantly larger motor equivalent deviations compared to non-motor equivalent ones. This is the first study demonstrating posture-stabilizing synergies in the space of neural control variables using various computational methods. It promises direct applications to studies of postural disorders and rehabilitation.
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Overactivated microglia in the spinal cord leads to neuropathic pain sensitivity. The FGF 10, a Fibroblast Growth Factor (FGFs) that is prevalent in neurons, has been demonstrated to suppress microglial polarization. The objective of this study was to investigate the role of FGF 10 in neuropathic pain and the underlying regulatory mechanisms. ⋯ Conversely, GW9662 reversed all beneficial effects of FGF 10 on SNI rats. In addition, phosphorylated levels of NFκB were reduced by pioglitazone or FGF 10 treatment but raised by GW9662 administration in FGF 10-treated SNI rats. Our findings show that FGF 10 has analgesic effects in rats after peripheral nerve injury and justify the role of PPAR-γ/NFκB signaling in FGF 10-regulated anti-microgliosis.
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Wistar Audiogenic Rats (WAR) is an inbred rodent strain susceptible to acute auditory stimulation-induced seizures. However, spontaneous epileptic seizures (SES) and their associated electroencephalogram (EEG) abnormalities have not been reported in WAR kindled animals. The same is true for naïve WARs (without sound-induced seizures). ⋯ The EEG quantitative analysis showed decreased power of cortical delta, theta and beta oscillations in WAR-S, decreased power of cortical fast gamma (FG) oscillations in WARs, independent of microgyria, and decreased interhemispheric synchrony for delta and FG with stronger coupling in delta and theta-FG oscillations in FL animals. The WARs, regardless of microgyria, had reduced locomotor activity, but only WAR-FL animals had reduced anxiety-like behavior. Microgyria in naïve WARs intensified SWD events associated with behavior arrest that could reflect absence-like seizures and abnormal cortical oscillations, and reduced anxiety-like behavior indicating that WAR-FL could be a reliable model to study epileptogenesis.
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Synaptic vesicle glycoprotein 2A (SV2A) is a transmembrane protein that binds levetiracetam and is involved in neurotransmission via an unknown mechanism. SV2A-immunoreactivity is reduced in animal models of epilepsy, and in postmortem hippocampi from patients with temporal lobe epilepsy. It is not known if other regions outside the hippocampus are affected in epilepsy, and whether SV2A expression is permanently reduced or regulated over time. ⋯ The magnitude in reduction was larger and occurred earlier in the hippocampus and the piriform cortex, than in other cortical subregions. Interestingly, in all areas examined, the binding capacity returned to control levels 12 weeks after the SE comparable to the chronic epileptic phase. These data indicate that lithium-pilocarpine-induced epileptogenesis involves both loss and gain of synapses in the in a time-dependent manner.
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Aging is a progressive loss of physiological function that increases risk of disease and death. Among the many factors that contribute to human aging, mitochondrial dysfunction has emerged as one of the most prominent features of the aging process. It has been linked to the development of various age-related pathologies, including Parkinson's disease (PD). ⋯ Even though research has shed light on several aspects of the disease pathology, the underlying mechanism of age-related factors responsible for individuals developing this disease is still unknown. This review article aims to discuss the role of mitochondria in the transition from normal brain aging to pathological brain aging, which leads to the progression of PD. We have discussed the emerging evidence on how age-related disruption of mitochondrial quality control mechanisms contributes to the development of PD-related pathophysiology.