Neuroscience
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Glaucoma is an age-related neurodegenerative disorder characterized by retinal ganglion cell (RGC) degeneration and excavation of the optic nerve head (ONH). It is associated with an increase in intraocular pressure (IOP) and progressive decline in the visual field. Reduction in the retrograde axonal transport of neurotrophic factors such as brain-derived neurotrophic factor (BDNF) from the brain to the neuronal cell bodies in retina, has been suggested as one of the key mechanisms underlying selective degeneration of ganglion cells and optic nerve in glaucoma. ⋯ This study corroborates previous findings and demonstrates that glaucoma is associated with downregulation of TrkB downstream signalling and enhanced levels of amyloid β (Aβ 1-42) accumulation in the retina. 7,8 dihydroxyflavone (7,8 DHF) is a TrkB agonist and regular administration of this compound imparted significant protection against loss of GCL density and preserved inner retinal function in experimental glaucoma models. 7,8 DHF treatment stimulated activation of TrkB intracellular signalling as well as ameliorated the increase in the levels of soluble Aβ (1-42) in the retinas of rats and mice exposed to high IOP. The protective effects of 7,8 DHF were also evident in BDNF+/- mice indicating that TrkB agonist mediated activation of TrkB signalling was not altered upon BDNF allelic impairment. These data support BDNF/TrkB axis as a promising therapeutic target in glaucoma and highlight that the detrimental effects of high IOP exposure can be compensated by the exogenous administration of a TrkB agonist.
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The whole-cell voltage clamp technique is commonly used to estimate synaptic conductances. While previous work has shown how these estimates are affected by series resistance and space clamp errors during isolated synaptic events, how voltage clamp errors impact on synaptic conductance estimates during concurrent excitation and inhibition is less clear. This issue is particularly relevant given that many studies now use the whole-cell voltage clamp technique to estimate synaptic conductances in vivo, where both excitation and inhibition are intact. ⋯ Interactions between unclamped dendritic excitatory and inhibitory conductances also introduce correlations when the actual conductances are uncorrelated, as well as distortions in the time course of estimated excitatory and inhibitory conductances. Finally, we show that space clamp errors are exacerbated by the inclusion of dendritic voltage-activated conductances. In summary, we highlight issues with the interpretation of synaptic conductance estimates obtained using somatic whole-cell voltage clamp during concurrent excitatory and inhibitory input to neurons with dendrites.
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Although various studies have reported a high prevalence of depression among Parkinson's disease (PD) patients, the pathophysiological mechanism of depression in PD (DPD) is still unclear. The core region of the reward network, the ventral striatum (VS), is critical in the occurrence and development of DPD. This study aimed to explore the altered functional connectivity (FC) of VS subregions in DPD. ⋯ The hyperconnectivity between vCa_L and the MOG. L might be viewed as a compensatory mechanism for depression in the early stage of PD. This study provides new insight into the neural mechanism of depression in the early stage of PD and contributes to explore the potential neuroimaging markers for DPD.
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Norepinephrine (NE) acts directly on the inhibitory interneurons of spinal lamina X and may act on spinal lamina X neurons for inhibiting nociceptive synaptic transmission against pain. We investigated this mechanism within inflammatory pain model rats. Using immunohistochemical staining and in vivo extracellular recording, the increased number of phosphorylated extracellular signal-regulated kinase profiles in lamina X (n = 6/group) and increased frequency of spontaneous neuronal firing on putative lamina X (n = 14) under the inflammatory pain were significantly suppressed by the direct application of NE (P < 0.01). ⋯ Considering these results and those of our previous study (Ohashi et al., 2019), NE might act on inhibitory interneurons of spinal lamina X to facilitate inhibitory transmission and induces neurons located in or around lamina X membrane hyperpolarization. These NE-mediated responses acted through α1A- and α2-receptors. These mechanisms of NE on spinal lamina X might contribute to analgesia against inflammatory pain.
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Autism spectrum disorder (ASD) is a neurodevelopmental disorder, characterized by impaired social communication, abnormal repetitive behaviors and restricted interests and/or sensory behaviors. It has been widely accepted that ASD involves a complex interplay of both genetic and environmental risk factors. Existing medications are only symptomatic treatments, there are no effective treatments that can improve these core social behavior deficits. ⋯ BTBR mice were treated either with Epothilone D dissolved in 99% dimethyl sulfoxide (DMSO) or with 99% DMSO vehicle. Our studies demonstrated that the restricted and repetitive behaviors of BTBR mice were improved after Epothilone D treatment, which could be achieved by improving microtubule stability and further regulating the expression of excitatory synapse-related and myelin-related proteins. These results indicate that microtubule stability may be a new and promising therapeutic target for treating patients with ASD.