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9401 - 9410 of 52804 results
  • Journal Article
    VTA and Anterior Hippocampus Target Dissociable Neocortical Networks for Post-Novelty Enhancements | Journal of Neuroscience
    The detection of novelty indicates changes in the environment and the need to update existing representations. In response to novelty, interactions across the VTA-hippocampal circuit support experience-dependent plasticity in the hippocampus. While theories have broadly suggested plasticity-related changes are also instantiated in the cortex, research has also shown evidence for functional heterogeneity in cortical networks. It therefore remains unclear how the hippocampal-VTA circuit engages cortical networks, and whether novelty targets specific cortical regions or diffuse, large-scale cortical networks. To adjudicate the role of the VTA and hippocampus in cortical network plasticity, we used fMRI to compare resting-state functional coupling before and following exposure to novel scene images in human subjects of both sexes. Functional coupling between right anterior hippocampus and VTA was enhanced following novelty exposure. However, we also found evidence for a double dissociation, with anterior hippo...
    Aug 10, 2021 Emily T. Cowan
  • Journal Article
    Dorsolateral Striatal Task initiation Bursts Represent Past Experiences More than Future Action Plans | Journal of Neuroscience
    The dorsolateral striatum (DLS) is involved in learning and executing procedural actions. Cell ensembles in the DLS, but not the dorsomedial striatum (DMS), exhibit a burst of firing at the start of a well-learned action sequence (“task-bracketing”). However, it is currently unclear what information is contained in these bursts. Some theories suggest that these bursts should represent the procedural action sequence itself (that they should be about future action chains), whereas others suggest that they should contain representations of the current state of the world, taking into account primarily past information. In addition, the DLS local field potential shows transient bursts of power in the 50 Hz range (γ50) around the time a learned action sequence is initiated. However, it is currently unknown how bursts of activity in DLS cell ensembles and bursts of γ50 power in the DLS local field potential are related to each other. We found that DLS bursts at lap initiation in rats represented recently experien...
    Aug 10, 2021 Paul J. Cunningham
  • Journal Article
    Neuromarkers from Whole-Brain Functional Connectivity Reveal the Cognitive Recovery Scheme for Overt Hepatic Encephalopathy after Liver Transplantation | eNeuro
    Neurocognitive impairment is present in cirrhosis and may be more severe in cirrhosis with overt hepatic encephalopathy (OHE). Liver transplantation (LT) can restore liver function, but how it reverses the impaired brain function is still unclear. MRI of resting-state functional connectivity can help reveal the underlying mechanisms that lead to these cognitive deficits and cognitive recovery. In this study, 64 patients with cirrhosis (28 with OHE; 36 without OHE) and 32 healthy control subjects were recruited for resting-state fMRI. The patients were scanned before and after LT. We evaluated presurgical and postsurgical neurocognitive performance in cirrhosis patients using psychomotor tests. Network-based statistics found significant disrupted connectivity in both groups of cirrhotic patients, with OHE and without OHE, compared with control subjects. However, the presurgical connectivity disruption in patients with OHE affected a greater number of connections than those without OHE. The decrease in funct...
    Aug 10, 2021 Yue Cheng
  • Journal Article
    Heat but not mechanical hypersensitivity depends on voltage-gated CaV2.2 calcium channel activity in peripheral axon terminals innervating skin | Journal of Neuroscience
    Voltage-gated CaV2.2 calcium channels are expressed in nociceptors at presynaptic terminals, soma, and axons. CaV2.2 channel inhibitors applied to the spinal cord relieve pain in humans and rodents, especially during pathological pain, but a biological function of nociceptor CaV2.2 channels in processing of nociception, outside presynaptic terminals in the spinal cord, is underappreciated. Here, we demonstrate that functional CaV2.2 channels in peripheral axons innervating skin are required for capsaicin-induced heat hypersensitivity in male and female mice. We show that CaV2.2 channels in TRPV1-nociceptor endings are activated by capsaicin-induced depolarization and contribute to increased intracellular calcium. Capsaicin induces hypersensitivity of both thermal nociceptors and mechanoreceptors, but only heat hypersensitivity depends on peripheral CaV2.2 channel activity, and especially a cell type-specific CaV2.2 splice isoform. CaV2.2 channels at peripheral nerve endings might be important therapeutic t...
    Aug 5, 2021 Daniel M DuBreuil
  • Journal Article
    Autism Spectrum Disorder/Intellectual Disability-associated mutations in Trio disrupt Neuroligin 1-mediated synaptogenesis | Journal of Neuroscience
    We recently identified an Autism Spectrum Disorder/Intellectual Disability (ASD/ID)-related de novo mutation hotspot in the Rac1 activating GEF1 domain of the protein Trio. Trio is a Rho guanine nucleotide exchange factor (RhoGEF) that is essential for glutamatergic synapse function. An ASD/ID-related mutation identified in Trio's GEF1 domain, Trio D1368V, produces a pathological increase in glutamatergic synaptogenesis, suggesting that Trio is coupled to synaptic regulatory mechanisms that govern glutamatergic synapse formation. However, the molecular mechanisms by which Trio regulates glutamatergic synapses are largely unexplored. Here, using biochemical methods we identify an interaction between Trio and the synaptogenic protein Neuroligin 1 (NLGN1) in the brain. Molecular biological approaches were then combined with super resolution dendritic spine imaging and whole-cell voltage clamp electrophysiology in male and female rats to examine the impact ASD/ID-related Trio mutations have on NLGN1-mediated s...
    Aug 5, 2021 Chen Tian
  • Journal Article
    RIM-Binding Protein 2 organizes Ca2+ channel topography and regulates release probability and vesicle replenishment at a fast central synapse | Journal of Neuroscience
    RIM-Binding Protein 2 (RIM-BP2) is a multi-domain protein of the presynaptic active zone (AZ). By binding to Rab-interacting protein (RIM), Bassoon (Bsn) and voltage-gated Ca2+ channels (CaV), it is considered to be a central organizer of the topography of CaV and release sites of synaptic vesicles (SVs) at the AZ. Here, we used RIM-BP2 knock-out mice and their wildtype littermates of either sex to investigate the role of RIM-BP2 at the endbulb of Held synapse of auditory nerve fibers with bushy cells of the cochlear nucleus, a fast relay of the auditory pathway with high release probability. Disruption of RIM-BP2 lowered release probability altering short-term plasticity and reduced evoked excitatory postsynaptic currents (EPSCs). Analysis of SV pool dynamics during high frequency train stimulation indicated a reduction of SVs with high release probability but an overall normal size of the readily releasable SV pool (RRP). The Ca2+-dependent fast component of SV replenishment after RRP depletion was slowe...
    Aug 5, 2021 Tanvi Butola
  • Journal Article
    Identification of BiP as a CB1 receptor-interacting protein that fine-tunes cannabinoid signaling in the mouse brain | Journal of Neuroscience
    Cannabinoids, the bioactive constituents of cannabis, exert a wide array of effects on the brain by engaging type-1 cannabinoid receptor (CB1R). Accruing evidence supports that cannabinoid action relies on context-dependent factors such as the biological characteristics of the target cell, suggesting that cell population-intrinsic molecular cues modulate CB1R-dependent signaling. Here, by using a yeast two-hybrid-based high-throughput screening, we identified BiP as a potential CB1R-interacting protein. We next found that CB1R and BiP interact specifically in vitro , and mapped the interaction site within the CB1R C -terminal (intracellular) domain and the BiP C -terminal (substrate-binding) domain-α. BiP selectively shaped agonist-evoked CB1R signaling by blocking an “alternative” Gq/11 protein-dependent signaling module, while leaving the “classical” Gi/o protein-dependent inhibition of the cAMP pathway unaffected. In situ proximity ligation assays conducted on brain samples from various genetic mouse mo...
    Aug 5, 2021 Carlos Costas-Insua
  • Journal Article
    Interhemispheric cortico-cortical pathway for sequential bimanual movements in mice | eNeuro
    Animals precisely coordinate their left and right limbs for various adaptive purposes. While the left and right limbs are clearly controlled by different cortical hemispheres, the neural mechanisms that determine the action sequence between them remains elusive. Here, we have established a novel head-fixed bimanual-press (biPress) sequence task in which mice sequentially press left and right pedals with their forelimbs in a pre-determined order. Using this motor task, we found that the motor cortical neurons responsible for the first press also generate independent motor signals for the second press by the opposite forelimb during the movement transitions between forelimbs. Projection-specific calcium imaging and optogenetic manipulation revealed these motor signals are transferred from one motor cortical hemisphere to the other via cortico-cortical projections. Together, our results suggest the motor cortices coordinate sequential bimanual movements through cortico-cortical pathways. Significant statemen...
    Aug 4, 2021 Minju Jeong
  • Journal Article
    The effect of serotonin receptor 5-HT1B on lateral inhibition between spiny projection neurons in the mouse striatum | Journal of Neuroscience
    The principal neurons of the striatum – the spiny projection neurons (SPNs) – make inhibitory synaptic connections with each other via collaterals of their main axon, forming a local lateral inhibition network. Serotonin, acting via the 5-HT1B receptor, modulates neurotransmitter release from SPN terminals in striatal output nuclei, but the role of 5-HT1B receptors in lateral inhibition among SPNs in the striatum is unknown. Here we report the effects of 5-HT1B receptor activation on lateral inhibition in the mouse striatum. Whole-cell recordings were made from SPNs in acute brain slices of either sex, while optogenetically activating presynaptic SPNs or fast-spiking interneurons (FSIs). Activation of 5-HT1B receptors significantly reduced the amplitude of inhibitory postsynaptic currents (IPSCs) evoked by optical stimulation of both direct and indirect pathway SPNs. This reduction was blocked by application of a 5-HT1B receptor antagonist. Activation of 5-HT1B receptors did not reduce the amplitude of IPS...
    Aug 4, 2021 Stefan Pommer
  • Journal Article
    GPER in the rostral ventromedial medulla is essential for mobilizing descending inhibition of itch | Journal of Neuroscience
    Chronic itch is a troublesome condition and often difficult to cure. Emerging evidence suggests that the periaqueductal gray-rostral ventromedial medulla (PAG-RVM) pathway may play an important role in regulation of itch, but the cellular organization and molecular mechanisms remain incompletely understood. Here, we report that a group of RVM neurons distinctively express the G protein-coupled estrogen receptor (GPER), which mediates descending inhibition of itch. We found that GPER+ neurons in RVM were activated in chronic itch conditions in rats and mice. Selective ablation or chemogenetic suppression of RVM GPER+ neurons resulted in mechanical alloknesis and increased scratching in response to pruritogens, whereas chemogenetic activation of GPER+ neurons abrogated itch responses, indicating that GPER+ neurons are antipruritic. Moreover, GPER-deficient mice and rats of either sex exhibited hypersensitivity to mechanical and chemical itch, a phenotype reversible by μ type opioid receptor (MOR) antagonism....
    Aug 4, 2021 Ting Gao
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