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8611 - 8620 of 52802 results
  • Journal Article
    Task modulation of single-neuron activity in the human amygdala and hippocampus | eNeuro
    The human amygdala and hippocampus are critically involved in various processes in face perception. However, it remains unclear how task demands or evaluative contexts modulate processes underlying face perception. In this study, we employed two task instructions when participants viewed the same faces and recorded single-neuron activity from the human amygdala and hippocampus. We comprehensively analyzed task modulation for three key aspects of face processing and we found that neurons in the amygdala and hippocampus (1) encoded high-level social traits such as perceived facial trustworthiness and dominance and this response was modulated by task instructions; (2) encoded low-level facial features and demonstrated region-based feature coding, which was not modulated by task instructions; and (3) encoded fixations on salient face parts such as the eyes and mouth, which was not modulated by task instructions. Together, our results provide a comprehensive survey of task modulation of neural processes underly...
    Dec 20, 2021 Runnan Cao
  • Journal Article
    Long term potentiation of mossy fiber feedforward inhibition of CA3 pyramidal cells maintains E/I balance in epilepsy model | eNeuro
    Insight into the cellular and circuit mechanisms underlying development of temporal lobe epilepsy will provide a foundation for improved therapies. We studied a model in which an episode of prolonged seizures is followed by recovery lasting two weeks before emergence of spontaneous recurrent seizures. We focused on the interval between the prolonged seizures and the late onset recurrent seizures. We investigated the hippocampal mossy fiber CA3 pyramidal cell microcircuit in models spanning in vitro , in vivo , and ex vivo preparations. Expression of channelrhodopsin-2 in the dentate granule cells of DGC ChR mice enabled the selective activation of mossy fiber axons. In vivo studies revealed marked potentiation of mossy fiber evoked field potentials in hippocampal CA3 beginning within hours following seizures, a potentiation which persisted at least seven days. Stimulation of mossy fibers in hippocampal slices in vitro using patterns of activity mimicking seizures induced LTP not only of the monosynaptic EP...
    Dec 20, 2021 Enhui Pan
  • Journal Article
    Sensory-Tactile Functional Mapping and Use-Associated Structural Variation of the Human Female Genital Representation Field | Journal of Neuroscience
    The precise location of the human female genital representation field in the primary somatosensory cortex (S1) is controversial and its capacity for use-associated structural variation as a function of sexual behavior remains unknown. We used an fMRI-compatible sensory-tactile stimulation paradigm to functionally map the location of the female genital representation field in 20 adult women. Neural response to tactile stimulation of the clitoral region (versus right hand) identified individually-diverse focal bilateral activations in dorsolateral areas of S1 (BA1-BA3) in alignment with anatomical location. We next used cortical surface analyses to assess structural thickness across the 10 individually most activated vertices per hemisphere for each woman. We show that frequency of sexual intercourse within 12 months is correlated with structural thickness of the individually-mapped left genital field. Our results provide a precise functional localization of the female genital field and provide support for u...
    Dec 20, 2021 Andrea J.J. Knop
  • Journal Article
    Local Connections of Pyramidal Neurons to Parvalbumin-Producing Interneurons in Motor-Associated Cortical Areas of Mice | eNeuro
    Parvalbumin (PV)-producing neurons are the largest subpopulation of cortical GABAergic interneurons, which mediate lateral, feedforward, and feedback inhibition in local circuits and modulate the activity of pyramidal neurons. Clarifying the specific connectivity between pyramidal and PV neurons is essential for understanding the role of PV neurons in local circuits. In the present study, we visualized somas and dendrites of PV neurons using transgenic mice in which PV neurons specifically express membrane-targeted GFP, and intracellularly labeled local axons of 26 pyramidal neurons in layers 2–6 in acute slices of the motor-associated cortex from transgenic mice. We mapped morphologically distribution of inputs from a pyramidal neuron to PV neurons based on contact sites (appositions) between the axons from an intracellularly filled pyramidal neuron and the dendrites of PV neurons. Layer 6 corticothalamic-like pyramidal neurons formed appositions to PV neurons at a significantly higher rate than other pyr...
    Dec 20, 2021 Eriko Kuramoto
  • Journal Article
    Arcuate Angiotensin II increases arterial pressure via coordinated increases in sympathetic nerve activity and vasopressin secretion | eNeuro
    The arcuate nucleus (ArcN) is an integrative hub for the regulation of energy balance, reproduction, and arterial pressure (AP), all of which are influenced by Angiotensin II (AngII); however, the cellular mechanisms and downstream neurocircuitry are unclear. Here we show that ArcN AngII increases AP in female rats via two phases, both of which are mediated via activation of AngII type 1 receptors (AT1aR): initial vasopressin-induced vasoconstriction, followed by slowly developing increases in sympathetic nerve activity (SNA) and heart rate (HR). In male rats, ArcN AngII evoked a similarly slow increase in SNA, but the initial pressor response was variable. In females, the effects of ArcN AngII varied during the estrus cycle, with significant increases in SNA, HR, and AP occurring during diestrus and estrus, but only increased AP during proestrus. Pregnancy markedly increased the expression of AT1aR in the ArcN with parallel substantial AngII-induced increases in SNA and MAP. In both sexes, the sympathoexc...
    Dec 17, 2021 Zhigang Shi
  • Journal Article
    Spatiotemporal control of noradrenaline-dependent synaptic transmission in mouse dorsal raphe serotonin neurons | Journal of Neuroscience
    Activity of dorsal raphe neurons is controlled by noradrenaline afferents. In this brain region, noradrenaline activates Gαq-coupled α1-adrenergic receptors (α1-AR), causing action potential firing and serotonin release. In vitro , electrical stimulation elicits vesicular noradrenaline release and subsequent activation of α1-AR to produce an excitatory postsynaptic current (α1-AR-EPSC). The duration of the α1-AR-EPSC (∼27 s) is much longer than that of most other synaptic currents, but the factors that govern the spatiotemporal dynamics of α1-AR are poorly understood. Using an acute brain slice preparation from adult male and female mice and electrophysiological recordings from dorsal raphe neurons, we found that the time-course of the α1-AR-EPSC was slow, but highly consistent within individual serotonin neurons. The amount of noradrenaline released influenced the amplitude of the α1-AR-EPSC without altering the time constant of decay suggesting that once released, extracellular noradrenaline was cleared ...
    Dec 17, 2021 Jacqueline K. Khamma
  • Journal Article
    Saturating nonlinearities of contrast response in human visual cortex | Journal of Neuroscience
    Response nonlinearities are ubiquitous throughout the brain, especially within sensory cortices where changes in stimulus intensity typically produce compressed responses. Although this relationship is well-established in electrophysiological measurements, it remains controversial whether the same nonlinearities hold for population-based measurements obtained with human fMRI. We propose that these purported disparities are not contingent upon measurement type, and are instead largely dependent upon the visual system state at the time of interrogation. We show that deploying a contrast adaptation paradigm permits reliable measurements of saturating sigmoidal contrast response functions (10 participants, 7 female). When not controlling the adaptation state, our results coincide with previous fMRI studies, yielding non-saturating, largely linear contrast responses. These findings highlight the important role of adaptation in manifesting measurable nonlinear responses within human visual cortex, reconciling di...
    Dec 17, 2021 Louis N. Vinke
  • Journal Article
    Transcranial Random Noise Stimulation modulates neural processing of sensory and motor circuits – from potential cellular mechanisms to behaviour: a scoping review | eNeuro
    Background : Noise introduced in the human nervous system from cellular to systems levels can have a major impact on signal processing. Using transcranial stimulation, electrical noise can be added to cortical circuits to modulate neuronal activity and enhance function in the healthy brain and in neurological patients. Transcranial random noise stimulation (tRNS) is a promising technique that is less well understood than other non-invasive neuromodulatory methods. Objective: The aim of the present scoping review is to collate published evidence on the effects of electrical noise at the cellular, systems, and behavioural levels, and discuss how this emerging method might be harnessed to augment perceptual and motor functioning of the human nervous system. Design: Online databases were used to identify papers published 2008–2021 using tRNS in humans, from which we identified 70 publications focusing on sensory and motor function. Additionally, we interpret the existing evidence by referring to articles inv...
    Dec 16, 2021 Weronika Potok
  • Journal Article
    L-Type Calcium Channels Contribute to Ethanol-Induced Aberrant Tangential Migration of Primordial Cortical GABAergic Interneurons in the Embryonic Medial Prefrontal Cortex | eNeuro
    Exposure of the fetus to alcohol (ethanol) via maternal consumption during pregnancy can result in fetal alcohol spectrum disorders (FASD), hallmarked by long-term physical, behavioral, and intellectual abnormalities. In our preclinical mouse model of FASD, prenatal ethanol exposure disrupts tangential migration of corticopetal GABAergic interneurons in the embryonic medial prefrontal cortex (mPFC). We postulated that ethanol perturbed the normal pattern of tangential migration via enhancing GABAA receptor-mediated membrane depolarization that prevails during embryonic development in GABAergic cortical interneurons. However, beyond this, our understanding of the underlying mechanisms is incomplete. Here, we tested the hypothesis that the ethanol-enhanced depolarization triggers downstream an increase in high-voltage activated nifedipine-sensitive L-type calcium channel (LTCC) activity, and provide evidence implicating calcium dynamics in the signaling scheme underlying the migration of embryonic GABAergic ...
    Dec 16, 2021 Stephanie M. Lee
  • Journal Article
    Distinct progressions of neuronal activity changes underlie the formation and consolidation of a gustatory associative memory | Journal of Neuroscience
    Acquiring new memories is a multi-stage process. Numerous studies have convincingly demonstrated that initially acquired memories are labile, and only stabilized by later consolidation processes. These multiple phases of memory formation are known to involve modification of both cellular excitability and synaptic connectivity, which in turn change neuronal activity at both the single neuron and ensemble levels. However, the specific mapping between the known phases of memory and the changes in neuronal activity at different organizational levels – the single-neuron, population representations, and ensemble state dynamics – remains unknown. Here we address this issue in the context of conditioned taste aversion learning by continuously tracking gustatory cortex (GC) neuronal taste responses in alert male and female rats during the 24 hours following a taste-malaise pairing. We found that the progression of activity changes depends on the neuronal organizational level: whereas the population response changed...
    Dec 16, 2021 Elor Arieli
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