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10961 - 10970 of 52809 results
  • Journal Article
    Layer- and Cell Type-Specific Response Properties of Gustatory Cortex Neurons in Awake Mice | Journal of Neuroscience
    Studies in visual, auditory, and somatosensory cortices have revealed that different cell types as well as neurons located in different laminae display distinct stimulus response profiles. The extent to which these layer and cell type-specific distinctions generalize to gustatory cortex (GC) remains unknown. In this study, we performed extracellular recordings in adult female mice to monitor the activity of putative pyramidal and inhibitory neurons located in deep and superficial layers of GC. Awake, head-restrained mice were trained to lick different tastants (sucrose, salt, citric acid, quinine, and water) from a lick spout. We found that deep layer neurons show higher baseline firing rates (FRs) in GC with deep-layer inhibitory neurons displaying highest FRs at baseline and following the stimulus. GC's activity shows robust modulations before animals' contact with tastants, and this phenomenon is most prevalent in deep-layer inhibitory neurons. Furthermore, we show that licking activity strongly shapes ...
    Dec 9, 2020 Gulce Nazli Dikecligil
  • Journal Article
    Macrophage-Derived Vascular Endothelial Growth Factor-A Is Integral to Neuromuscular Junction Reinnervation after Nerve Injury | Journal of Neuroscience
    Functional recovery in the end target muscle is a determinant of outcome after peripheral nerve injury. The neuromuscular junction (NMJ) provides the interface between nerve and muscle and includes non-myelinating terminal Schwann cells (tSCs). After nerve injury, tSCs extend cytoplasmic processes between NMJs to guide axon growth and NMJ reinnervation. The mechanisms related to NMJ reinnervation are not known. We used multiple mouse models to investigate the mechanisms of NMJ reinnervation in both sexes, specifically whether macrophage-derived vascular endothelial growth factor-A (Vegf-A) is crucial to establishing NMJ reinnervation at the end target muscle. Both macrophage number and Vegf-A expression increased in end target muscles after nerve injury and repair. In mice with impaired recruitment of macrophages and monocytes ( Ccr2 −/− mice), the absence of CD68+ cells (macrophages) in the muscle resulted in diminished muscle function. Using a Vegf-receptor 2 (VegfR2) inhibitor (cabozantinib; CBZ) via or...
    Dec 9, 2020 Chuieng-Yi Lu
  • Journal Article
    Mapping the Dynamic Recruitment of Spinal Neurons during Fictive Locomotion | Journal of Neuroscience
    The basic rhythmic activity that underlies stepping is generated by a neural network, situated in the spinal cord, known as the locomotor central pattern generator (CPG). While a series of lesion experiments have demonstrated that the mammalian locomotor CPG is distributed throughout the ventral portion of the caudal spinal cord, the specific transverse distribution of this neural network is unclear. Here we evoke fictive locomotor activity of various frequencies in upright spinal cords prepared from male and female neonatal mice. This preparation enables us to use an imaging approach to identify locomotor-related cells across the transverse plane of the spinal cord. Results indicate that there is a clear shift in the recruitment of cells toward the ventromedial, and away from the ventrolateral, spinal cord as the frequency of fictive locomotion increases. Surprisingly, the analysis of multiple frequencies of fictive locomotion in the same spinal cord indicates that few neurons are involved in locomotor ou...
    Dec 9, 2020 Vladimir Rancic
  • Journal Article
    Self-Controlled Choice Arises from Dynamic Prefrontal Signals That Enable Future Anticipation | Journal of Neuroscience
    Self-control allows humans the patience necessary to maximize reward attainment in the future. Yet it remains elusive when and how the preference to self-controlled choice is formed. We measured brain activity while female and male humans performed an intertemporal choice task in which they first received delayed real liquid rewards (forced-choice trial), and then made a choice between the reward options based on the experiences (free-choice trial). We found that, while subjects were awaiting an upcoming reward in the forced-choice trial, the anterior prefrontal cortex (aPFC) tracked a dynamic signal reflecting the pleasure of anticipating the future reward. Importantly, this prefrontal signal was specifically observed in self-controlled individuals, and moreover, interregional negative coupling between the prefrontal region and the ventral striatum (VS) became stronger in those individuals. During consumption of the liquid rewards, reduced ventral striatal activity predicted self-controlled choices in the...
    Dec 9, 2020 Daiki Tanaka
  • Journal Article
    Converging Evidence for Differential Specialization and Plasticity of Language Systems | Journal of Neuroscience
    Functional specialization and plasticity are fundamental organizing principles of the brain. Since the mid-1800s, certain cognitive functions have been known to be lateralized, but the provenance and flexibility of hemispheric specialization remain open questions. Language is a uniquely human phenomenon that requires a delicate balance between neural specialization and plasticity, and language learning offers the perfect window to study these principles in the human brain. In the current study, we conducted two separate functional MRI experiments with language learners (male and female), one cross-sectional and one longitudinal, involving distinct populations and languages, and examined hemispheric lateralization and learning-dependent plasticity of the following three language systems: reading, speech comprehension, and verbal production. A multipronged analytic approach revealed a highly consistent pattern of results across the two experiments, showing (1) that in both native and non-native languages, wh...
    Dec 9, 2020 Kshipra Gurunandan
  • Journal Article
    NetDI: Methodology elucidating the role of power and dynamical brain network features that underpin word production | eNeuro
    Canonical language models describe eloquent function as the product of a series of cognitive processes, typically characterized by the independent activation profiles of focal brain regions. In contrast, more recent work has suggested that the interactions between these regions - the cortical networks of language - are critical for understanding speech production. We investigated the cortical basis of picture naming with human intracranial electrocorticography (ECoG) recordings and direct cortical stimulation (DCS), adjudicating between two competing hypotheses: Are task specific cognitive functions discretely computed within well-localized brain regions or rather by distributed networks? The time-resolution of ECoG allows direct comparison of intra regional activation measures (high-gamma power) with graph theoretic measures of inter regional dynamics. We developed an analysis framework, “ Net work dynamics using D irected I nformation” (NetDI), using information and graph theoretic tools to reveal spatio...
    Dec 8, 2020 Sudha Yellapantula
  • Journal Article
    Transmembrane Prolyl 4-Hydroxylase Is a Novel Regulator of Calcium Signaling in Astrocytes | eNeuro
    Prolyl 4-hydroxylases have vital roles in regulating collagen synthesis and hypoxia response. A transmembrane prolyl 4-hydroxylase (P4H-TM) is a recently identified member of the family. Biallelic loss of function P4H-TM mutations cause a severe autosomal recessive intellectual disability syndrome in humans, but functions of P4H-TM are essentially unknown at cellular level. Our microarray data on P4h-tm-/- mouse cortexes where P4H-TM is abundantly expressed, indicated expression changes in genes involved in calcium signaling and expression of several calcium sequestering ATPases was upregulated in P4h-tm-/- primary mouse astrocytes. Cytosolic and intraorganellar calcium imaging of P4h-tm-/- cells revealed that receptor and store-operated calcium entry and calcium re-uptake by mitochondria were compromized. HIF1, but not HIF2, was found to be a key mediator of the P4H-TM effect on calcium signaling. Furthermore, total internal reflection fluorescence imaging showed that calcium agonist-induced gliotransmiss...
    Dec 8, 2020 Nadiya Byts
  • Journal Article
    Subunit-specific photocontrol of glycine receptors by azobenzene-nitrazepam photoswitcher | eNeuro
    Photopharmacology is a unique approach that through a combination of photochemistry methods and advanced life science techniques allows the study and control of specific biological processes, ranging from intracellular pathways to brain circuits. Recently, a first photochromic channel blocker of anion-selective GABAA receptors, Azo-NZ1, has been described. In the present study using patch-clamp technique in heterologous system and in mice brain slices, site-directed mutagenesis and molecular modelling we provide evidence of the interaction of Azo-NZ1 with glycine receptors (GlyRs) and determine the molecular basis of this interaction. Glycinergic synaptic neurotransmission determines an important inhibitory drive in the vertebrate nervous system and plays a crucial role in the control of neuronal circuits in the spinal cord and brain stem. GlyRs are involved in locomotion, pain sensation, breathing and auditory function, as well as in the development of such disorders as hyperekplexia, epilepsy and autism....
    Dec 8, 2020 Galyna Maleeva
  • Journal Article
    Limited sensitivity of hippocampal synaptic function or network oscillations to unmodulated kilohertz electric fields | eNeuro
    Understanding the cellular mechanisms of kHz electrical stimulation is of broad interest in neuromodulation including forms of transcranial electrical stimulation (tES), interferential stimulation, and high-rate spinal cord stimulation (SCS). Yet, the well-established low-pass filtering by neuronal membranes suggests minimal neuronal polarization in respond to charge-balanced kHz stimulation. The hippocampal brain slice model is among the most studied systems in neuroscience and exhaustively characterized in screening the effects of electrical stimulation. High-frequency electric fields of varied amplitudes (1-150 V/m), waveforms (sinusoidal, symmetrical pule, asymmetrical pulse) and frequencies (1 and10 kHz) were tested. Changes in single or paired-pulse field excitatory post-synaptic potentials (fEPSP) in CA1 were measured in response to radial- and tangential-directed electric fields, with brief (30 s) or long (30 min) application times. The effects of kHz stimulation on ongoing endogenous network activ...
    Dec 8, 2020 Zeinab Esmaeilpour
  • Journal Article
    Active transition of fear memory phase from reconsolidation to extinction through ERK-mediated prevention of reconsolidation | Journal of Neuroscience
    The retrieval of fear memory induces two opposite memory process, i.e., reconsolidation and extinction. Brief retrieval induces reconsolidation to maintain or enhance fear memory, while prolonged retrieval extinguishes this memory. Although the mechanisms of reconsolidation and extinction have been investigated, it remains unknown how fear memory phases are switched from reconsolidation to extinction during memory retrieval. Here, we show that an ERK-dependent memory transition process after retrieval regulates the switch of memory phases from reconsolidation to extinction by preventing induction of reconsolidation in an inhibitory avoidance (IA) task in male mice. First, the transition memory phase, which cancels the induction of reconsolidation, but is insufficient for the acquisition of extinction, was identified after reconsolidation, but before extinction phases. Second, the reconsolidation, transition, and extinction phases after memory retrieval showed distinct molecular and cellular signatures thro...
    Dec 8, 2020 Hotaka Fukushima
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