Skip Navigation

Log In
  • Scientific Research
  • Training
  • Professional Development
  • Community
  • Advocacy and Outreach
  • Career Paths
  • Image of three blue squares stacked vertically to look like pages. Collections
  • Careers in Neuroscience
  • Community Discussion
  • image of an open book Read
  • image of a play button: a triangle inside a circle Watch
  • an image of a calendar with a check mark signifying events to attend Attend
  • image of a blue microphone Listen
  • Image of two overlapping dialogue bubbles. Discuss
  • About Neuronline
  • SfN Events Calendar
  • Community Leaders Program
  • Community Guidelines
  • FAQ
  • Contact Us
Neuronline logo
SfN's home for learning and discussion
  • image of an open bookRead
  • image of a play button: a triangle inside a circleWatch
  • an image of a calendar with a check mark signifying events to attendAttend
  • image of a blue microphone Listen
  • Image of two overlapping dialogue bubbles.Discuss
Log In
  • Scientific Research
  • Training
  • Professional Development
  • Community
  • Advocacy and Outreach
  • Career Paths
  • COLLECTIONS

Filter

  • (118)
    • (26)
  • (4)
  • (152)
    • (32)
    • (8)
    • (17)
    • (14)
    • (14)
    • (6)
    • (20)
  • (55)
    • (12)
    • (20)
  • (85)
    • (36)
    • (32)
  • (107)
    • (39)
    • (15)
  • (517)
    • (8)
    • (28)
    • (105)
    • (10)
    • (17)
    • (31)
    • (14)
    • (51)
    • (7)
    • (47)
    • (6)
    • (13)
    • (19)
    • (27)
    • (34)
  • (604)
    • (11)
    • (26)
    • (29)
    • (14)
    • (15)
    • (43)
  • (200)
    • (24)
    • (45)
    • (59)
  • (133)
  • (735)
  • (4)
  • (1)
  • (47863)
  • (93)
  • (25)
  • (14)
  • (434)
  • (7)
  • (186)
  • (8)
  • (33)
  • (17)
  • (7)
  • (10)
  • (9)
  • (5)
  • (21)
  • (8)
  • (12)
  • (9)
  • (3)
  • (10)
  • (10)
  • (56)
  • (46)
  • (12)
  • (3)
  • (7)
  • (6)
  • (5)
  • (8)
  • (7)
  • (11)
  • (58)
  • (13)
  • (31)
  • (8)
  • (5)
  • (10)
  • (5)
  • (16)
  • (4)
Filter
8481 - 8490 of 52804 results
  • Journal Article
    TRPV1-lineage somatosensory fibers communicate with taste neurons in the mouse parabrachial nucleus | Journal of Neuroscience
    Trigeminal neurons convey somatosensory information from craniofacial tissues. In mouse brain, ascending projections from medullary trigeminal neurons arrive at taste neurons in the parabrachial nucleus, suggesting that taste neurons participate in somatosensory processing. However, the cell types that support this convergence were undefined. Using Cre-directed optogenetics and in vivo neurophysiology in anesthetized mice of both sexes, here we studied whether TRPV1-lineage nociceptive and thermosensory fibers are primary neurons that drive trigeminal circuits reaching parabrachial taste cells. We monitored spiking activity in individual parabrachial neurons during photoexcitation of the terminals of TRPV1-lineage fibers arriving at the dorsal trigeminal nucleus caudalis, which relays orofacial somatosensory messages to the parabrachial area. We also recorded parabrachial neural responses to oral delivery of taste, chemesthetic, and thermal stimuli. We found that optical excitation of TRPV1-lineage fibers ...
    Jan 13, 2022 Jinrong Li
  • Journal Article
    Neuroimmunometabolism: A new pathological nexus underlying neurodegenerative disorders. | Journal of Neuroscience
    Neuroimmunometabolism is an emerging field that examines the intersection of immunological and metabolic cascades in the brain. Neuroinflammatory conditions often involve differential metabolic reprogramming in neuronal and glial cells through their immunometabolic sensors. The impact of such bioenergetic adaptation on general brain function is poorly understood, but this cross-talk becomes increasingly important in neurodegenerative disorders that exhibit reshaping of neuroimmunometabolic pathways. Here we summarize the intrinsic balance of neuroimmunometabolic substrates and sensors in the healthy brain and how their dysregulation can contribute to the pathophysiology of various neurodegenerative disorders. This review also proposes possible avenues for disease management through neuroimmunometabolic profiling and therapeutics to bridge translational gaps and guide future treatment strategies. SIGNIFICANCE STATEMENT Neuroimmunometabolism intersects with neuroinflammation and immunometabolic regulation...
    Jan 13, 2022 Swarup Mitra
  • Journal Article
    Excitable axonal domains adapt to sensory deprivation in the olfactory system | Journal of Neuroscience
    The axon initial segment, nodes of Ranvier, and the oligodendrocyte-derived myelin sheath have significant influence on the firing patterns of neurons and the faithful, coordinated transmission of action potentials to downstream brain regions. In the olfactory bulb, olfactory discrimination tasks lead to adaptive changes in cell firing patterns, and the output signals must reliably travel large distances to other brain regions along highly myelinated tracts. Whether myelinated axons adapt to facilitate olfactory sensory processing is unknown. Here, we investigate the morphology and physiology of mitral cell axons in the olfactory system of adult male and female mice and show that unilateral sensory deprivation causes system-wide adaptations in axonal morphology and myelin thickness. Mitral cell spiking patterns and action potentials also adapted to sensory deprivation. Strikingly, myelination, and mitral cell physiology were altered on both the deprived and non-deprived sides, indicating system level adapt...
    Jan 12, 2022 Nicholas M George
  • Journal Article
    Sleep-dependent facilitation of visual perceptual learning is consistent with a learning-dependent model | Journal of Neuroscience
    How sleep leads to offline performance gains in learning remains controversial. A use-dependent model assumes that sleep processing leading to performance gains occurs based on general cortical usage during wakefulness, whereas a learning-dependent model assumes that this processing is specific to learning. Here, we found evidence that supports a learning-dependent model in visual perceptual learning (VPL) in humans (both sexes). First, we measured the strength of spontaneous oscillations during sleep after two training conditions that required the same amount of training or visual cortical usage; one generated VPL (learning condition), while the other did not (interference condition). During a posttraining nap, slow-wave activity (SWA) and sigma activity during NREM sleep and theta activity during REM sleep were source-localized to the early visual areas using retinotopic mapping. Inconsistent with a use-dependent model, only in the learning condition, sigma and theta activity, not SWA, increased in a tra...
    Jan 12, 2022 Masako Tamaki
  • Journal Article
    This Week in The Journal | Journal of Neuroscience
    Ronald McGregor, Ming-Fung Wu, Brent Holmes, Hoa Anh Lam, Nigel T. Maidment, et al. (see pages [255–263][1]) Repeated use of heroin, cocaine, or related drugs can produce long-lasting changes in multiple brain areas, thus promoting continued drug use despite negative consequences. One area
    Jan 12, 2022
  • Journal Article
    Gli1 Regulates the Postnatal Acquisition of Peripheral Nerve Architecture | Journal of Neuroscience
    Peripheral nerves are organized into discrete compartments. Axons, Schwann cells (SCs), and endoneurial fibroblasts (EFs) reside within the endoneurium and are surrounded by the perineurium, a cellular sheath comprised of layers of perineurial glia (PNG). SC secretion of Desert Hedgehog (Dhh) regulates this organization. In Dhh nulls, the perineurium is deficient and the endoneurium is subdivided into small compartments termed minifascicles. Human Dhh mutations cause a neuropathy with similar defects. Here we examine the role of Gli1, a canonical transcriptional effector of hedgehog signaling, in regulating peripheral nerve organization in mice of both genders. We identify PNG, EFs, and pericytes as Gli1-expressing cells by genetic fate mapping. Although expression of Dhh by SCs and Gli1 in target cells is coordinately regulated with myelination, Gli1 expression unexpectedly persists in Dhh null EFs. Thus, Gli1 is expressed in EFs noncanonically (i.e., independent of hedgehog signaling). Gli1 and Dhh also ...
    Jan 12, 2022 Brendan Zotter
  • Journal Article
    Microglial Correlates of Late Life Physical Activity: Relationship with Synaptic and Cognitive Aging in Older Adults | Journal of Neuroscience
    Physical activity relates to reduced dementia risk, but the cellular and molecular mechanisms are unknown. We translated animal and in vitro studies demonstrating a causal link between physical activity and microglial homeostasis into humans. Decedents from Rush Memory and Aging Project completed actigraphy monitoring (average daily activity) and cognitive evaluation in life, and neuropathological examination at autopsy. Brain tissue was analyzed for microglial activation via immunohistochemistry (anti-human HLA-DP-DQ-DR) and morphology (% Stage I, II, or III), and synaptic protein levels (SNAP-25, synaptophysin, complexin-I, VAMP, syntaxin, synaptotagmin-1). Proportion of morphologically activated microglia (PAM) was estimated in ventromedial caudate, posterior putamen, inferior temporal (IT), and middle frontal gyrus. The 167 decedents averaged 90 years at death, two-thirds were nondemented, and 60% evidenced pathologic Alzheimer's disease (AD). Adjusting for age, sex, education, and motor performances, ...
    Jan 12, 2022 Kaitlin B. Casaletto
  • Journal Article
    Distinct Roles for Prefrontal Dopamine D1 and D2 Neurons in Social Hierarchy | Journal of Neuroscience
    Neuronal activity in the prefrontal cortex (PFC) controls dominance hierarchies in groups of animals. Dopamine (DA) strongly modulates PFC activity mainly through D1 receptors (D1Rs) and D2 receptors (D2Rs). Still, it is unclear how these two subpopulations of DA receptor-expressing neurons in the PFC regulate social dominance hierarchy. Here, we demonstrate distinct roles for prefrontal D1R- and D2R-expressing neurons in establishing social hierarchy, with D1R+ neurons determining dominance and D2R+ neurons for subordinate. Ex vivo whole-cell recordings revealed that the dominant status of male mice correlates with rectifying AMPAR transmission and stronger excitatory synaptic strength onto D1R+ neurons in PFC pyramidal neurons. In contrast, the submissive status is associated with higher neuronal excitability in D2R+ neurons. Moreover, simultaneous manipulations of synaptic efficacy of D1R+ neurons in dominant male mice and neuronal excitability of D2R+ neurons of their male subordinates switch their dom...
    Jan 12, 2022 Bo Xing
  • Journal Article
    Table of Contents — January 12, 2022, 42 (2) | Journal of Neuroscience
    Jan 12, 2022
  • Journal Article
    Loss of RNA-Binding Protein HuR Leads to Defective Ependymal Cells and Hydrocephalus | Journal of Neuroscience
    Multiciliated ependymal cells line the ventricle wall and generate CSF flow through ciliary beating. Defects in ependymal cells cause hydrocephalus; however, there are still significant gaps in our understanding the molecular, cellular and developmental mechanisms involved in the pathogenesis of hydrocephalus. Here, we demonstrate that specific deletion of RNA-binding protein (RBP) Hu antigen R (HuR) in the mouse brain results in hydrocephalus and causes postnatal death. HuR deficiency leads to impaired ependymal cell development with defective motile ciliogenesis in both female and male mice. Transcriptome-wide analysis reveals that HuR binds to mRNA transcripts related to ciliogenesis, including cilia and flagella associated protein 52 ( Cfap52 ), the effector gene of Foxj-1 and Rfx transcriptional factors. HuR deficiency accelerates the degradation of Cfap52 mRNA, while overexpression of Cfap52 is able to promote the development of HuR-deficient ependymal cells. Taken together, our results unravel the i...
    Jan 12, 2022 Xiu Han
  • Previous
  • 847
  • 848
  • 849
  • 850
  • 851
  • Next
Neuronline footer 10 year anniversary logo
  • About Neuronline
  • SfN Events Calendar
  • FAQ
  • Contact Us
  • Accessibility Policy
  • Disclaimer
  • Privacy Notice
SfN logo with "SfN" in a blue box next to Society for Neuroscience in red text and the SfN tag line that reads "Advancing the understanding of the brain and nervous system"
Follow SfN
  • BlueSky logo
  • Threads logo
  • X Logo
  • image of linkedin logo
  • Image of the Facebook logo
  • Image of the instagram logo
  • image of youtube logo
  • RSS symbol
1121 14th Street NW, Suite 1010, Washington, DC 20005 (202) 962-4000 | 1-888-985-9246

Copyright © Society for Neuroscience