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9961 - 9970 of 52807 results
  • Journal Article
    Hand-selective visual regions represent how to grasp 3D tools: brain decoding during real actions | Journal of Neuroscience
    Most neuroimaging experiments that investigate how tools and their actions are represented in the brain use visual paradigms where tools or hands are displayed as 2D images and no real movements are performed. These studies discovered selective visual responses in occipito-temporal and parietal cortices for viewing pictures of hands or tools, which are assumed to reflect action processing, but this has rarely been directly investigated. Here, we examined the responses of independently visually defined category-selective brain areas when participants grasped 3D tools (N=20; 9 females). Using real action fMRI and multi-voxel pattern analysis, we found that grasp typicality representations (i.e., whether a tool is grasped appropriately for use) were decodable from hand-selective areas in occipito-temporal and parietal cortices, but not from tool-, object-, or body-selective areas, even if partially overlapping. Importantly, these effects were exclusive for actions with tools, but not for biomechanically match...
    May 10, 2021 Ethan Knights
  • Journal Article
    Associative learning requires Neurofibromin to modulate GABAergic inputs to Drosophila Mushroom Bodies | Journal of Neuroscience
    Cognitive dysfunction, is among the hallmark symptoms of Neurofibromatosis 1, and accordingly, loss of the Drosophila melanogaster ortholog of Neurofibromin 1 (dNf1), precipitates associative learning deficits. However, the affected circuitry in the adult CNS remained unclear and the compromised mechanisms debatable. Although the main evolutionarily conserved function attributed to Nf1 is to inactivate Ras, decreased cAMP signalling upon its loss has been thought to underlie impaired learning. Using mixed sex populations, we determine that dNf1 loss results in excess GABAergic signaling to the central for associative learning Mushroom Body (MB) neurons, apparently suppressing learning. dNf1 is necessary and sufficient for learning within these non-MB neurons, as a dAlk and Ras1-dependent, but PKA-independent modulator of GABAergic neurotransmission. Surprisingly, we also uncovered and discuss a postsynaptic Ras1-dependent, but dNf1-independnet signaling within the MBs that apparently responds to presynapti...
    May 10, 2021 Eirini-Maria Georganta
  • Journal Article
    Pen-2 negatively regulates the differentiation of oligodendrocyte precursor cells into astrocytes in the central nervous system | Journal of Neuroscience
    Mutations on γ-secretase subunits are associated with neurological diseases. Whereas the role of γ-secretase in neurogenesis has been intensively studied, little is known about its role in astrogliogenesis. Recent evidence has demonstrated that astrocytes can be generated from oligodendrocyte (OL) precursor cells (OPCs). However, it is not well understood what mechanism may control OPCs to differentiate into astrocytes. To address the above questions, we generated two independent lines of OL lineage specific presenilin enhancer 2 ( Pen-2 ) conditional knockout (cKO) mice. Both male and female mice were used. Here we demonstrate that conditional inactivation of Pen-2 mediated by Olig1-Cre or NG2-CreERT2 causes enhanced generation of astrocytes. Lineage-tracing experiments indicate that abnormally generated astrocytes are derived from Cre-expressing OPCs in the central nervous system (CNS) in Pen-2 cKO mice. Mechanistic analysis reveals that deletion of Pen-2 inhibits the Notch signaling to up-regulate signa...
    May 10, 2021 Jinxing Hou
  • Journal Article
    Temporal relations between cortical network oscillations and breathing frequency during REM sleep | Journal of Neuroscience
    Nasal breathing generates a rhythmic signal which entrains cortical network oscillations in widespread brain regions on a cycle-to-cycle time scale. It is unknown, however, how respiration and neuronal network activity interact on a larger time scale: are breathing frequency and typical neuronal oscillation patterns correlated? Is there any directionality or temporal relationship? To address these questions, we recorded field potentials from the posterior parietal cortex of mice together with respiration during REM sleep. In this state, the parietal cortex exhibits prominent theta and gamma oscillations while behavioral activity is minimal, reducing confounding signals. We found that the instantaneous breathing frequency strongly correlates with the instantaneous frequency and amplitude of both theta and gamma oscillations. Cross-correlograms and Granger causality revealed specific directionalities for different rhythms: changes in theta activity precede and Granger-cause changes in breathing frequency, su...
    May 7, 2021 Adriano BL Tort
  • Journal Article
    The integrin signaling network promotes axon regeneration via the Src–ephexin–RhoA GTPase signaling axis | Journal of Neuroscience
    Axon regeneration is an evolutionarily conserved process essential for restoring the function of damaged neurons. In Caenorhabditis elegans hermaphrodites, initiation of axon regeneration is regulated by the RhoA GTPase–ROCK (Rho-associated coiled-coil kinase)–regulatory non-muscle myosin light-chain phosphorylation signaling pathway. However, the upstream mechanism that activates the RhoA pathway remains unknown. Here, we show that axon injury activates TLN-1/talin via the cAMP–Epac (exchange protein directly activated by cAMP)–Rap GTPase cascade and that TLN-1 induces multiple downstream events, one of which is integrin inside-out activation, leading to the activation of the RhoA–ROCK signaling pathway. We found that the non-receptor tyrosine kinase Src, a key mediator of integrin signaling, activates the Rho guanine nucleotide exchange factor (GEF) EPHX-1/ephexin by phosphorylating the Tyr-568 residue in the autoinhibitory domain. Our results suggest that the C. elegans integrin signaling network regula...
    May 7, 2021 Yoshiki Sakai
  • Journal Article
    The Role of the Lateral Habenula in Inhibitory Learning from Reward Omission Experiences | eNeuro
    The lateral habenula (LHb) is a phylogenetically primitive brain structure that plays a key role in learning to inhibit distinct responses to specific stimuli. This structure is activated by primary aversive stimuli, cues predicting an imminent aversive event, unexpected reward omissions, and cues associated with the omission of an expected reward. The most widely described effect of LHb activation is acutely suppressing midbrain dopaminergic signaling. However, recent studies have identified multiple means by which the LHb foster this effect as well as other mechanisms of action. These findings reveal the complex nature of LHb function. The present paper reviews the role of this structure in learning from reward omission experiences. We approach this topic from the perspective of computational models of behavioral change that account for inhibitory learning to frame key findings. Such findings are drawn from recent behavioral neuroscience studies that use novel brain imaging, stimulation, ablation, and re...
    May 7, 2021 Rodrigo Sosa
  • Journal Article
    No detectable effect on visual responses using functional MRI in a rodent model of α-synuclein expression | eNeuro
    Parkinson’s disease (PD) is a progressive neurodegenerative disease that is typically diagnosed late in its progression. There is a need for biomarkers suitable for monitoring the disease progression at earlier stages to guide the development of novel neuroprotective therapies. One potential biomarker, α-synuclein, has been found in both the familial cases of PD, as well as the sporadic cases and is considered a key feature of PD. α-synuclein is naturally present in the retina, and it has been suggested that early symptoms of the visual system may be used as a biomarker for PD. Here, we use a viral vector to induce a unilateral expression of human wildtype α-synuclein in rats as a mechanistic model of protein aggregation in PD. We employed functional magnetic resonance imaging (fMRI) to investigate whether adeno-associated virus (AAV) mediated expression of human wildtype α-synuclein alter functional activity in the visual system. 16 rats were injected with either AAV-α-synuclein (n=7) or AAV-null (n=9) i...
    May 6, 2021 Freja Gam Østergaard
  • Journal Article
    The Journal of Neuroscience’s 40th Anniversary: Looking back, looking forward | Journal of Neuroscience
    Some of us fortunate enough to have published a paper in the Journal of Neuroscience in its inaugural year (1981), have been asked to write a Progressions article addressing our views on the significance of the original work and how ideas about the topic of that work have evolved over the last 40 years. These questions cannot be effectively considered without placing them in the context of the incredible growth of the overall field of Neuroscience over these last four decades. For openers, in 1981, the Nobel Prize was awarded to three neuroscience superstars: Roger Sperry, David Hubel and Torsten Wiesel. Not a bad year to launch the Journal. With this as a backdrop, I divide this Progression into two parts. First, I discuss our original (1981) paper describing classical conditioning in Aplysia californica , and place our results in the context of the state of the field at the time. Second, I fast forward to the present and consider some of remarkable progress in the broad field of learning and memory that ...
    May 6, 2021 Thomas J. Carew
  • Journal Article
    On the road from phenotypic plasticity to stem cell therapy | Journal of Neuroscience
    In 1981, I published a paper in the first issue of the Journal of Neuroscience with my postdoctoral mentor, Dr. Richard Bunge. At that time, the long-standing belief that each neuron expressed only one neurotransmitter, known as Dale’s Principle (Dale, 1935), was being hotly debated following a report by French embryologist Nicole Le Douarin showing that neural crest cells destined for one transmitter phenotype could express characteristics of another if transplanted to alternate sites in the developing embryo (LeDouarin, 1980). In the Bunge lab, we were able to more directly test the question of phenotypic plasticity in the controlled environment of the tissue culture dish. Thus, in our paper, we grew autonomic catecholaminergic neurons in culture under conditions which promoted the acquisition of cholinergic traits and showed that cells did not abandon their inherited phenotype in order to adopt a new one but instead were capable of dual transmitter expression. In this Progressions article, I detail the ...
    May 6, 2021 Lorraine Iacovitti
  • Journal Article
    Increased RET activity coupled with a reduction in the RET gene dosage causes intestinal aganglionosis in mice | eNeuro
    Mutations of the gene encoding the RET tyrosine kinase causes Hirschsprung disease (HSCR) and medullary thyroid carcinoma (MTC). Current consensus holds that HSCR and MTC are induced by inactivating and activating RET mutations, respectively. However, it remains unknown whether activating mutations in the RET gene have adverse effects on ENS development in vivo. We addressed this issue by examining mice engineered to express RET51(C618F), an activating mutation identified in MTC patients. Although Ret51(C618F)/51(C618F) mice displayed hyperganglionosis of the ENS, Ret51(C618F)/- mice exhibited severe intestinal aganglionosis due to premature neuronal differentiation. Reduced levels of GDNF, a RET-activating neurotrophic factor, ameliorated the ENS phenotype of Ret51(C618F)/- mice, demonstrating that GDNF-mediated activation of RET51(C618F) is responsible for severe aganglionic phenotype. The RET51(C618F) allele showed genetic interaction with Ednrb gene, one of modifier genes for HSCR. These data reveal th...
    May 6, 2021 Mitsumasa Okamoto
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