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8631 - 8640 of 52802 results
  • Journal Article
    Input Zone-Selective Dysrhythmia in Motor Thalamus after Dopamine Depletion | Journal of Neuroscience
    The cerebral cortex, basal ganglia and motor thalamus form circuits important for purposeful movement. In Parkinsonism, basal ganglia neurons often exhibit dysrhythmic activity during, and with respect to, the slow (∼1 Hz) and beta-band (15-30 Hz) oscillations that emerge in cortex in a brain state-dependent manner. There remains, however, a pressing need to elucidate the extent to which motor thalamus activity becomes similarly dysrhythmic after dopamine depletion relevant to Parkinsonism. To address this, we recorded single-neuron and ensemble outputs in the basal ganglia-recipient zone (BZ) and cerebellar-recipient zone (CZ) of motor thalamus in anesthetized male dopamine-intact rats and 6-OHDA-lesioned rats during two brain states, respectively defined by cortical slow-wave activity and activation. Two forms of thalamic input zone-selective dysrhythmia manifested after dopamine depletion: (1) BZ neurons, but not CZ neurons, exhibited abnormal phase-shifted firing with respect to cortical slow oscillati...
    Dec 15, 2021 Kouichi C. Nakamura
  • Journal Article
    Multiplexed Representation of Itch and Mechanical and Thermal Sensation in the Primary Somatosensory Cortex | Journal of Neuroscience
    The primary somatosensory cortex (S1) plays a critical role in processing multiple somatosensations, but the mechanism underlying the representation of different submodalities of somatosensation in S1 remains unclear. Using in vivo two-photon calcium imaging that simultaneously monitors hundreds of layer 2/3 pyramidal S1 neurons of awake male mice, we examined neuronal responses triggered by mechanical, thermal, or pruritic stimuli. We found that mechanical, thermal, and pruritic stimuli activated largely overlapping neuronal populations in the same somatotopic S1 subregion. Population decoding analysis revealed that the local neuronal population in S1 encoded sufficient information to distinguish different somatosensory submodalities. Although multimodal S1 neurons responding to multiple types of stimuli exhibited no spatial clustering, S1 neurons preferring mechanical and thermal stimuli tended to show local clustering. These findings demonstrated the coding scheme of different submodalities of somatosen...
    Dec 15, 2021 Xiao-Jun Chen
  • Journal Article
    Acknowledgment of Reviewers | Journal of Neuroscience
    The editors depend heavily on outside reviewers in forming opinions about papers submitted to JNeurosci and would like to formally thank the following individuals for their help during the past year. Gloster B. Aaron Nobuhito Abe Aman Aberra Jose Francisco Abisambra Alfonso Abizaid Karina P.
    Dec 15, 2021
  • Journal Article
    Erratum: Wang et al., “Reducing Amyloid-Related Alzheimer's Disease Pathogenesis by a Small Molecule Targeting Filamin A” | Journal of Neuroscience
    In the article “Reducing Amyloid-Related Alzheimer's Disease Pathogenesis by a Small Molecule Targeting Filamin A,” by Hoau-Yan Wang, Kalindi Bakshi, Maya Frankfurt, Andres Stucky, Marissa Goberdhan, Sanket M. Shah, and Lindsay H. Burns, which appeared on pages [9773–9784][1] of the July 18,
    Dec 15, 2021
  • Journal Article
    Collaborating Reviewers | Journal of Neuroscience
    Invited reviewers are asked to identify colleagues who assisted with review. JNeurosci would like to acknowledge the hard work of these collaborating reviewers and thank them for their service to the journal. Andrin Abegg Julia Abitbol Tobias Ackels Elie Adam Kadidia Adula Blanca Aldana Mor
    Dec 15, 2021
  • Journal Article
    Dietary Macronutrient Imbalances Lead to Compensatory Changes in Peripheral Taste via Independent Signaling Pathways | Journal of Neuroscience
    Food choice, in animals, has been known to change with internal nutritional state and also with variable dietary conditions. To better characterize mechanisms of diet-induced plasticity of food preference in Drosophila melanogaster , we synthesized diets with macronutrient imbalances and examined how food choice and taste sensitivity were modified in flies that fed on these diets. We found that dietary macronutrient imbalances caused compensatory behavioral shifts in both sexes to increase preference for the macronutrient that was scant in the food source, and simultaneously reduce preference for the macronutrient that was enriched. Further analysis with females revealed analogous changes in sweet taste responses in labellar neurons, with increased sensitivity on sugar-reduced diet and decreased sensitivity on sugar-enriched diet. Interestingly, we found differences in the onset of changes in taste sensitivity and behavior, which occur over 1–4 d, in response to dietary sugar reduction or enrichment. To in...
    Dec 15, 2021 Anindya Ganguly
  • Journal Article
    Table of Contents — December 15, 2021, 41 (50) | Journal of Neuroscience
    Dec 15, 2021
  • Journal Article
    Neural mechanism for coding depth from motion parallax in area MT: gain modulation or tuning shifts? | Journal of Neuroscience
    There are two distinct sources of retinal image motion: objects moving in the world and observer movement. When the eyes move to track a target of interest, the retinal velocity of some object in the scene will depend on both eye velocity and that object’s motion in the world. Thus, to compute the object’s velocity relative to the head, a coordinate transformation must be performed by vectorially adding eye velocity and retinal velocity. In contrast, a very different interaction between retinal and eye velocity signals has been proposed to underlie estimation of depth from motion parallax (MP), which involves computing the ratio of retinal and eye velocities. We examined how neurons in the middle temporal (MT) area of male macaques combine eye velocity and retinal velocity, to test whether this interaction is more consistent with a partial coordinate transformation (for computing head-centered object motion) or a multiplicative gain interaction (for computing depth from MP). We find that some MT neurons sh...
    Dec 15, 2021 Zhe-Xin Xu
  • Journal Article
    Lateral entorhinal cortex suppresses drift in cortical memory representations | Journal of Neuroscience
    Memory retrieval is thought to depend on the reinstatement of cortical memory representations guided by pattern completion processes in the hippocampus. The lateral entorhinal cortex (LEC) is one of the intermediary regions supporting hippocampal-cortical interactions and houses neurons that prospectively signal past events in a familiar environment. To investigate the functional relevance of the LEC’s activity for cortical reinstatement, we pharmacologically inhibited the LEC and examined its impact on the stability of ensemble firing patterns in one of the LEC’s efferent targets, the medial prefrontal cortex (mPFC). When male rats underwent multiple epochs of identical stimulus sequences in the same environment, the mPFC maintained a stable ensemble firing pattern across repetitions, particularly when the sequence included pairings of neutral and aversive stimuli. With LEC inhibition, the mPFC still formed an ensemble pattern that accurately captured stimuli and their associations within each epoch. Howe...
    Dec 15, 2021 Maryna Pilkiw
  • Journal Article
    This Week in The Journal | Journal of Neuroscience
    Kelly C. Harris, Jayne B. Ahlstrom, James W. Dias, Lilyana B. Kerouac, Carolyn M. McClaskey, et al. (see pages [10293–10304][1]) Difficulty understanding conversation is a common complaint in older people. Sometimes hearing loss stems from loss of cochlear hair cells, as indicated by elevated
    Dec 15, 2021
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