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9741 - 9750 of 52809 results
  • Journal Article
    Learning an efficient hippocampal place map from entorhinal inputs using non-negative sparse coding | eNeuro
    Cells in the entorhinal cortex (EC) contain rich spatial information and project strongly to the hippocampus where a cognitive map is supposedly created. These cells range from cells with structured spatial selectivity, such as grid cells in the medial entorhinal cortex (MEC) that are selective to an array of spatial locations that form a hexagonal grid, to weakly spatial cells, such as non-grid cells in the MEC and lateral entorhinal cortex (LEC) that contain spatial information but have no structured spatial selectivity. However, in a small environment, place cells in the hippocampus are generally selective to a single location of the environment, while granule cells in the dentate gyrus of the hippocampus have multiple discrete firing locations but lack spatial periodicity. Given the anatomical connection from the EC to the hippocampus, how the hippocampus retrieves information from upstream EC remains unclear. Here, we propose a unified learning model that can describe the spatial tuning properties of ...
    Jun 21, 2021 Yanbo Lian
  • Journal Article
    Rescuing auditory temporal processing with a novel augmented acoustic environment in an animal model of congenital hearing loss | eNeuro
    Congenital sensorineural hearing loss (SNHL) affects thousands of infants each year and results in significant delays in speech and language development. Previous studies have shown that early exposure to a simple augmented acoustic environment (AAE) can limit the effects of progressive SNHL on hearing sensitivity. However, SNHL is also accompanied by hearing loss that is not assessed on standard audiological exams, such as reduced temporal processing acuity. To assess whether sound therapy may improve these deficits, a mouse model of congenital SNHL was exposed to simple or temporally complex AAE. The DBA/2J mouse strain develops rapid, base to apex, progressive sensorineural hearing loss (SNHL) beginning at birth and is functionally deaf by 6 months of age. Hearing sensitivity and auditory brainstem function was measured using otoacoustic emissions, auditory brainstem response and extracellular recording from the inferior colliculus in mice following exposure to 60 days of continuous AAE and in unexposed...
    Jun 21, 2021 Adam C. Dziorny
  • Journal Article
    α2δ-1 Upregulation in Primary Sensory Neurons Promotes NMDA Receptor–Mediated Glutamatergic Input in Resiniferatoxin-Induced Neuropathy | Journal of Neuroscience
    Systemic treatment with resiniferatoxin (RTX) induces small-fiber sensory neuropathy by damaging TRPV1-expressing primary sensory neurons and causes distinct thermal sensory impairment and tactile allodynia, which resemble the unique clinical features of postherpetic neuralgia. However, the synaptic plasticity associated with RTX-induced tactile allodynia remains unknown. In this study, we found that RTX-induced neuropathy is associated with α2δ-1 upregulation in the dorsal root ganglion (DRG) and increased physical interaction between α2δ-1 and GluN1 in the spinal cord synaptosomes. RNAscope in situ hybridization showed that RTX treatment significantly increased α2δ-1 expression in DRG neurons labeled with CGRP, IB4, NF200, and tyrosine hydroxylase. Electrophysiological recordings revealed that RTX treatment augmented the frequency of miniature excitatory postsynaptic currents (mEPSCs) and the amplitude of evoked EPSCs in spinal dorsal horn neurons, and these effects were reversed by blocking of NMDA rece...
    Jun 17, 2021 Guang-Fen Zhang(芬张广)
  • Journal Article
    Protein kinase C-mediated phosphorylation and α2δ-1 interdependently regulate NMDA receptor trafficking and activity | Journal of Neuroscience
    N-methyl-D-aspartate receptors (NMDARs) are important for synaptic plasticity associated with many physiological functions and neurological disorders. Protein kinase C (PKC) activation increases the phosphorylation and activity of NMDARs, and α2δ-1 is a critical NMDAR-interacting protein and controls synaptic trafficking of NMDARs. In this study, we determined the relative roles of PKC and α2δ-1 in the control of NMDAR activity. We found that α2δ-1 coexpression significantly increased NMDAR activity in HEK293 cells transfected with GluN1/GluN2A or GluN1/GluN2B. PKC activation with phorbol 12-myristate 13-acetate (PMA) increased receptor activity only in cells coexpressing GluN1/GluN2A and α2δ-1. Remarkably, PKC inhibition with Gӧ6983 abolished α2δ-1 coexpression–induced potentiation of NMDAR activity in cells transfected with GluN1/GluN2A or GluN1/GluN2B. Treatment with PMA increased the α2δ-1–GluN1 interaction and promoted α2δ-1 and GluN1 cell surface trafficking. PMA also significantly increased NMDAR ac...
    Jun 17, 2021 Meng-Hua Zhou(华周孟)
  • Journal Article
    Vocal music listening enhances post-stroke language network reorganization | eNeuro
    Listening to vocal music has been recently shown to improve language recovery in stroke survivors. The neuroplasticity mechanisms supporting this effect are, however, still unknown. Using data from a three-arm single-blind randomized controlled trial including acute stroke patients (N=38) and a 3-month follow-up, we set out to compare the neuroplasticity effects of daily listening to self-selected vocal music, instrumental music, and audiobooks on both brain activity and structural connectivity of the language network. Using deterministic tractography we show that the 3-month intervention induced an enhancement of the microstructural properties of the left frontal aslant tract (FAT) for the vocal music group as compared to the audiobook group. Importantly, this increase in the strength of the structural connectivity of the left FAT correlated with improved language skills. Analyses of stimulus-specific activation changes showed that the vocal music group exhibited increased activations in the frontal termi...
    Jun 17, 2021 Aleksi J. Sihvonen
  • Journal Article
    The Axonal Glycolytic Pathway Contributes to Sensory Axon Extension and Growth Cone Dynamics | Journal of Neuroscience
    Understanding the bioenergetics of axon extension and maintenance has wide ranging implications for neurodevelopment and disease states. Glycolysis is a pathway consisting of ten enzymes and separated into preparatory and payoff phases, the latter producing ATP. Using embryonic chicken sensory neurons, we report that glycolytic enzymes are found through the axon and the growth cone. Pharmacological inhibition of glycolysis in the presence of NGF impairs axon extension and growth cone dynamics within minutes without affecting axon maintenance. Experiments using microfluidic chambers show the effect of inhibiting glycolysis on axon extension is local along distal axons and can be reversed by promoting mitochondrial respiration. Knock down of GAPDH simplifies growth cone morphology and is rescued by shRNA resistant GAPDH expression. Rescue of GAPDH using killer red (KR) fused to GAPDH followed by localized chromophore assisted light inactivation of KR-GAPDH in distal axons halts growth cone dynamics. Consider...
    Jun 17, 2021 Andrea Ketschek
  • Journal Article
    Inhibiting PDE7A enhances the protective effects of neural stem cells on neurodegeneration and memory deficits in sevoflurane-exposed mice | eNeuro
    Sevoflurane is widely used in general anesthesia, especially for children. However, prolonged exposure to sevoflurane is reported to be associated with adverse effects on the development of brain in infant monkey. Neural stem cells (NSCs), with potent proliferation, differentiation, and renewing ability, provide an encouraging tool for basic research and clinical therapies for neurodegenerative diseases. We aim to explore the functional effects of injecting NSCs with Phosphodiesterase 7A (PDE7A) knockdown in infant mice exposed to sevoflurane. The effects of PDE7A in NSCs proliferation and differentiation were determined by CCK-8 assay and differentiation-related gene expression assay, respectively. The effects of NSCs with modified PDE7A on mice’s long-term memory and learning ability were assessed by behavioral assays. Our data demonstrated that depleting PDE7A promoted, whereas forcing PDE7A suppressed the activation of cAMP/CREB signaling as well as cell proliferation and neuronal differentiation of NS...
    Jun 16, 2021 Yanfang Huang
  • Journal Article
    Intercellular adhesion molecule-1-induced post-traumatic brain injury neuropathology in the prefrontal cortex and hippocampus leads to sensorimotor function deficits and psychological stress | eNeuro
    Intercellular adhesion molecule-1 (ICAM-1) promotes adhesion and transmigration of circulating leukocytes across the blood-brain barrier. Traumatic brain injury (TBI) causes transmigrated immunocompetent cells to release mediators (LFA-1 and Mac-1) that stimulate glial and endothelial cells to express ICAM-1 and release cytokines, sustaining neuroinflammation and neurodegeneration. Although a strong correlation exists between TBI-mediated inflammation and impairment in functional outcome following brain trauma, the role of ICAM-1 in impairing functional outcome by inducing neuroinflammation and neurodegeneration after TBI remains inconclusive. The experimental TBI was induced in vivo by fluid percussion injury (10 and 20 psi) in wild-type and ICAM-1-/- mice and in vitro by stretch-injury (3 psi) in brain endothelial cells. We manipulate ICAM-1 pharmacologically and genetically and conducted several biochemical analyses to gain insight into the mechanisms underlying ICAM-1-mediated neuroinflammation and per...
    Jun 16, 2021 Saurav Bhowmick
  • Journal Article
    Neural Dynamics in Primate Cortex During Exposure to Subanesthetic Concentrations of Nitrous Oxide | eNeuro
    Nitrous oxide (N2O) is a hypnotic gas with anti-depressant and psychedelic properties at subanesthetic concentrations. Despite longstanding clinical use, there is insufficient understanding of its effect on neural dynamics and cortical processing, which is important for mechanistic understanding of its therapeutic effects. We administered subanesthetic (70%), inhaled N2O and studied dynamic changes of spiking rate, spectral content, and somatosensory information representation in primary motor cortex (M1) in two male Rhesus macaques implanted with Utah microelectrode arrays in the hand area of M1. The average, sorted multi-unit spiking rate in M1 increased from 8.1±0.99 to 10.6±1.3 Hz in Monkey W ( p < 0.001) and from 5.6±0.87 to 7.0 ± 1.1 Hz in Monkey N ( p = 0.003). Power spectral densities increased in beta and gamma band power. To evaluate somatosensory content in M1 as a surrogate of information transfer, fingers were lightly brushed and classified using a naïve Bayes classifier. In both monkeys, the ...
    Jun 16, 2021 Matthew S. Willsey
  • Journal Article
    The Modulatory Effect of Motor Cortex Astrocytes on Diabetic Neuropathic Pain | Journal of Neuroscience
    Diabetic neuropathic pain (DNP) is a common complication of diabetes characterized by persistent pain. Emerging evidence links astrocytes to mechanical nociceptive processing, and the motor cortex (MCx) is a cerebral cortex region that is known to play a key role in pain regulation. However, the association between MCx astrocytes and DNP pathogenesis remains largely unexplored. Here, we studied this association using designer receptors exclusively activated by designer drugs to specifically manipulate MCx astrocytes. We proved that the selective inhibition of MCx astrocytes reduced DNP in streptozocin (STZ)-induced DNP models and discovered a potential mechanism by which astrocytes release cytokines, including TNF-α and IL-1β, to increase neuronal activation in the MCx, thereby regulating pain. Together, these results demonstrate a pivotal role for MCx astrocytes in DNP pathogenesis and provide new insight into DNP treatment strategies.
    Jun 16, 2021 Jingshan Lu
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